Section 72

EurekaMag PDF full texts Chapter 71,349


Awasthi, A.; Singh, M.; Soni, S.K.; Singh, R.; Kalra, A. 2014: Biodiversity acts as insurance of productivity of bacterial communities under abiotic perturbations. Isme Journal 8(12): 2445-2452
Chen, B.; Teh, B-Soon.; Sun, C.; Hu, S.; Lu, X.; Boland, W.; Shao, Y. 2016: Biodiversity and Activity of the Gut Microbiota across the Life History of the Insect Herbivore Spodoptera littoralis. Scientific Reports 6: 29505
Liu, G.; Liu, X.; Liu, W.; Gao, K.; Chen, X.; Wang, E.-T.; Zhao, Z.; Du, W.; Li, Y. 2021: Biodiversity and Geographic Distribution of Rhizobia Nodulating with Vigna minima. Frontiers in Microbiology 12: 665839
Cianfagna, M.; Bolon, I.; Babo Martins, S.; Mumford, E.; Romanelli, C.; Deem, S.L.; Pettan-Brewer, C.; Figueroa, D.; Velásquez, J.C.C.; Stroud, C.; Lueddeke, G.; Stoll, B.; Ruiz de Castañeda, R. 2021: Biodiversity and Human Health Interlinkages in Higher Education Offerings: a first Global Overview. Frontiers in Public Health 9: 637901
Ramdass, A.C.; Rampersad, S.N. 2021: Biodiversity and biocatalyst activity of culturable hydrocarbonoclastic fungi isolated from Marac-Moruga mud volcano in South Trinidad. Scientific Reports 11(1): 19466
Desnues, C.; Rodriguez-Brito, B.; Rayhawk, S.; Kelley, S.; Tran, T.; Haynes, M.; Liu, H.; Furlan, M.; Wegley, L.; Chau, B.; Ruan, Y.; Hall, D.; Angly, F.E.; Edwards, R.A.; Li, L.; Thurber, R.Vega.; Reid, R.Pamela.; Siefert, J.; Souza, V.; Valentine, D.L.; Swan, B.K.; Breitbart, M.; Rohwer, F. 2008: Biodiversity and biogeography of phages in modern stromatolites and thrombolites. Nature 452(7185): 340-343
Hopkin, M. 2005: Biodiversity and climate form focus of forest canopy plan. Nature 436(7050): 452
Hector, A.; Bagchi, R. 2007: Biodiversity and ecosystem multifunctionality. Nature 448(7150): 188-190
González-García, A.; Palomo, I.; González, J.é A.; García-Díez, V.íc.; García-Llorente, M.; Montes, C. 2022: Biodiversity and ecosystem services mapping: can it reconcile urban and protected area planning?. Science of the Total Environment 803: 150048
Tilman, D.; Reich, P.B.; Knops, J.M.H. 2006: Biodiversity and ecosystem stability in a decade-long grassland experiment. Nature 441(7093): 629-632
Grad, Y.H.; Fortune, S.M. 2016: Biodiversity and hypervirulence of Listeria monocytogenes. Nature Genetics 48(3): 229-230
Ma, M.; Gao, W.; Li, Q.; Han, B.; Zhu, A.; Yang, H.; Zheng, L. 2021: Biodiversity and oil degradation capacity of oil-degrading bacteria isolated from deep-sea hydrothermal sediments of the South Mid-Atlantic Ridge. Marine Pollution Bulletin 171: 112770
Silva, L.F.; De Dea Lindner, J.; Sunakozawa, T.ás.N.; Amaral, D.M.F.; Casella, T.; Nogueira, M.C.êa.L.; Penna, A.L.úc.B. 2022: Biodiversity and succession of lactic microbiota involved in Brazilian buffalo mozzarella cheese production. Brazilian Journal of Microbiology: 53(1): 303-316
Çakır, E.; Arıcı, M.; Durak, M.Z. 2020: Biodiversity and techno-functional properties of lactic acid bacteria in fermented hull-less barley sourdough. Journal of Bioscience and Bioengineering 130(5): 450-456
Kennedy, T.A.; Naeem, S.; Howe, K.M.; Knops, J.M.H.; Tilman, D.; Reich, P. 2002: Biodiversity as a barrier to ecological invasion. Nature 417(6889): 636-638
Soliveres, S.; van der Plas, F.; Manning, P.; Prati, D.; Gossner, M.M.; Renner, S.C.; Alt, F.; Arndt, H.; Baumgartner, V.; Binkenstein, J.; Birkhofer, K.; Blaser, S.; Blüthgen, N.; Boch, S.; Böhm, S.; Börschig, C.; Buscot, F.; Diekötter, T.; Heinze, J.; Hölzel, N.; Jung, K.; Klaus, V.H.; Kleinebecker, T.; Klemmer, S.; Krauss, J.; Lange, M.; Morris, E.Kathryn.; Müller, Jörg.; Oelmann, Y.; Overmann, Jörg.; Pašalić, E.; Rillig, M.C.; Schaefer, H.Martin.; Schloter, M.; Schmitt, B.; Schöning, I.; Schrumpf, M.; Sikorski, J.; Socher, S.A.; Solly, E.F.; So 2016: Biodiversity at multiple trophic levels is needed for ecosystem multifunctionality. Nature 536(7617): 456-459
Kehoe, L.; Romero-Muñoz, A.; Polaina, E.; Estes, L.; Kreft, H.; Kuemmerle, T. 2017: Biodiversity at risk under future cropland expansion and intensification. Nature Ecology and Evolution 1(8): 1129-1135
Cressey, D. 2008: Biodiversity body 'lacks science'. Nature 454(7206): 809
Douglas, E.J.; Lohrer, A.M.; Pilditch, C.A. 2019: Biodiversity breakpoints along stress gradients in estuaries and associated shifts in ecosystem interactions. Scientific Reports 9(1): 17567
Ohashi, H.; Hasegawa, T.; Hirata, A.; Fujimori, S.; Takahashi, K.; Tsuyama, I.; Nakao, K.; Kominami, Y.; Tanaka, N.; Hijioka, Y.; Matsui, T. 2019: Biodiversity can benefit from climate stabilization despite adverse side effects of land-based mitigation. Nature Communications 10(1): 5240
Dalton, R. 2000: Biodiversity cash aimed at hotspots. Nature 406(6798): 818
Oliveira, U.; Soares-Filho, B.Silveira.; Paglia, A.Pereira.; Brescovit, A.D.; de Carvalho, C.J.B.; Silva, D.Paiva.; Rezende, D.T.; Leite, F.Sá.Fortes.; Batista, Jão.Aguiar.Nogueira.; Barbosa, Jão.Paulo.Peixoto.Pena.; Stehmann, Jão.Renato.; Ascher, J.S.; de Vasconcelos, M.Ferreira.; De Marco, P.; Löwenberg-Neto, P.; Ferro, V.Gianluppi.; Santos, A.J. 2017: Biodiversity conservation gaps in the Brazilian protected areas. Scientific Reports 7(1): 9141
Lashari, A.H.; Li, W.; Hassan, M.; Nabi, G.; Mabey, P.T.; Islam, M.M.; Rind, K.H.; Ujjan, S.A. 2020: Biodiversity conservation in China-Pakistan Economic Corridor region with strategic environmental assessment. Environmental Science and Pollution Research International 27(27): 33500-33502
Itani, M.; Al Zein, M.; Nasralla, N.; Talhouk, S.N. 2020: Biodiversity conservation in cities: Defining habitat analogues for plant species of conservation interest. Plos one 15(6): E0220355
Lechner, A.Mark.; Chan, F.Ka.Shun.; Campos-Arceiz, A. 2018: Biodiversity conservation should be a core value of China's Belt and Road Initiative. Nature Ecology and Evolution 2(3): 408-409
Chase, J.M.; Jeliazkov, A.; Ladouceur, E.; Viana, D.S. 2020: Biodiversity conservation through the lens of metacommunity ecology. Annals of the new York Academy of Sciences 1469(1): 86-104
Harte, J.; Ostling, A.; Green, J.L.; Kinzig, A. 2004: Biodiversity conservation: climate change and extinction risk. Nature 430(6995): 3 P Following 33; Discussion Following 33
Neal, L.; Paterson, G.L.J.; Blockley, D.; Scott, B.; Sherlock, E.; Huque, C.; Glover, A.G. 2020: Biodiversity data and new species descriptions of polychaetes from offshore waters of the Falkland Islands, an area undergoing hydrocarbon exploration. Zookeys 938: 1-86
Knockaert, C.; Tyberghein, L.; Goffin, A.; Vanhaecke, D.; Ong'anda, H.; Wakwabi, E.O.; Mees, J. 2019: Biodiversity data rescue in the framework of a long-term Kenya-Belgium cooperation in marine sciences. Scientific Data 6(1): 85
Clavero, M.; Revilla, E. 2014: Biodiversity data: Mine centuries-old citizen science. Nature 510(7503): 35
Johnson, P.T.J.; Preston, D.L.; Hoverman, J.T.; Richgels, K.L.D. 2013: Biodiversity decreases disease through predictable changes in host community competence. Nature 494(7436): 230-233
Holt, A. 2006: Biodiversity definitions vary within the discipline. Nature 444(7116): 146
Duffy, J.Emmett.; Godwin, C.M.; Cardinale, B.J. 2017: Biodiversity effects in the wild are common and as strong as key drivers of productivity. Nature 549(7671): 261-264
Steiner, M.; Grace, J.B.; Bacher, S. 2021: Biodiversity effects on grape quality depend on variety and management intensity. Journal of Applied Ecology 58(7): 1442-1454
Clements, C.S.; Hay, M.E. 2019: Biodiversity enhances coral growth, tissue survivorship and suppression of macroalgae. Nature Ecology and Evolution 3(2): 178-182
Lefcheck, J.S.; Byrnes, J.E.K.; Isbell, F.; Gamfeldt, L.; Griffin, J.N.; Eisenhauer, N.; Hensel, M.J.S.; Hector, A.; Cardinale, B.J.; Duffy, J.Emmett. 2015: Biodiversity enhances ecosystem multifunctionality across trophic levels and habitats. Nature Communications 6: 6936
Grande, F.; Giuntini, E.B.; Coelho, K.S.; Purgatto, E.; Franco, B.D.G.d.M.; Lajolo, F.M.; Menezes, E.W.d. 2020: Biodiversity food dataset: Centralizing chemical composition data to allow the promotion of nutrient-rich foods in Brazil. Maternal and Child Nutrition 16(Suppl 3): E13005
Clements, C.S.; Hay, M.E. 2021: Biodiversity has a positive but saturating effect on imperiled coral reefs. Science Advances 7(42): Eabi 8592
Gilbert, N. 2010: Biodiversity hope faces extinction. Nature 467(7317): 764
Maciorowski, G.; Jankowiak, Łu.; Sparks, T.H.; Polakowski, M.ł; Tryjanowski, P. 2021: Biodiversity hotspots at a small scale: the importance of eagles' nests to many other animals. Ecology 102(1): E03220
Myers, N.; Mittermeier, R.A.; Mittermeier, C.G.; da Fonseca, G.A.; Kent, J. 2000: Biodiversity hotspots for conservation priorities. Nature 403(6772): 853-858
Cardinale, B.J. 2011: Biodiversity improves water quality through niche partitioning. Nature 472(7341): 86-89
Szolnoki, A.; Perc, Mž. 2016: Biodiversity in models of cyclic dominance is preserved by heterogeneity in site-specific invasion rates. Scientific Reports 6: 38608
Horák, J.; Materna, J.; Halda, J.P.; Mladenović, S.; Bogusch, P.; Pech, P. 2019: Biodiversity in remnants of natural mountain forests under conservation-oriented management. Scientific Reports 9(1): 89
Casale, A. 2021: Biodiversity in tropical rainforests: Calleida Dejean, 1825 at the BIOLAT Biological Station, Rio Manu, Peru, with descriptions of seven new species (ColeopteraCarabidae, Lebiini). Part 1. Zookeys 1044: 479-510
Gao, W.-Q.; Lei, X.-D.; Liang, M.-W.; Larjavaara, M.; Li, Y.-T.; Gao, D.-L.; Zhang, H.-R. 2021: Biodiversity increased both productivity and its spatial stability in temperate forests in northeastern China. Science of the Total Environment 780: 146674
Pennekamp, F.; Pontarp, M.; Tabi, A.; Altermatt, F.; Alther, R.; Choffat, Y.; Fronhofer, E.A.; Ganesanandamoorthy, P.; Garnier, Aélie.; Griffiths, J.I.; Greene, S.; Horgan, K.; Massie, T.M.; Mächler, E.; Palamara, G.Marco.; Seymour, M.; Petchey, O.L. 2018: Biodiversity increases and decreases ecosystem stability. Nature 563(7729): 109-112
Benkwitt, C.E.; Wilson, S.K.; Graham, N.A.J. 2020: Biodiversity increases ecosystem functions despite multiple stressors on coral reefs. Nature Ecology and Evolution 4(7): 919-926
Buzhdygan, O.Y.; Meyer, S.T.; Weisser, W.W.; Eisenhauer, N.; Ebeling, A.; Borrett, S.R.; Buchmann, N.; Cortois, R.; De Deyn, G.B.; de Kroon, H.; Gleixner, G.; Hertzog, L.R.; Hines, J.; Lange, M.; Mommer, L.; Ravenek, J.; Scherber, C.; Scherer-Lorenzen, M.; Scheu, S.; Schmid, B.; Steinauer, K.; Strecker, T.; Tietjen, B.; Vogel, A.; Weigelt, A.; Petermann, J.S. 2020: Biodiversity increases multitrophic energy use efficiency, flow and storage in grasslands. Nature Ecology and Evolution 4(3): 393-405
Isbell, F.; Craven, D.; Connolly, J.; Loreau, M.; Schmid, B.; Beierkuhnlein, C.; Bezemer, T.Martijn.; Bonin, C.; Bruelheide, H.; de Luca, E.; Ebeling, A.; Griffin, J.N.; Guo, Q.; Hautier, Y.; Hector, A.; Jentsch, A.; Kreyling, Jürgen.; Lanta, Věch.; Manning, P.; Meyer, S.T.; Mori, A.S.; Naeem, S.; Niklaus, P.A.; Polley, H.Wayne.; Reich, P.B.; Roscher, C.; Seabloom, E.W.; Smith, M.D.; Thakur, M.P.; Tilman, D.; Tracy, B.F.; van der Putten, W.H.; van Ruijven, J.; Weigelt, A.; Weisser, W.W.; Wilsey, B.; Eisenhauer, N. 2015: Biodiversity increases the resistance of ecosystem productivity to climate extremes. Nature 526(7574): 574-577
Delrieu-Trottin, E.; Durand, J.-D.; Limmon, G.; Sukmono, T.; Kadarusman; Sugeha, H.Y.; Chen, W.-J.; Busson, F.éd.ér.; Borsa, P.; Dahruddin, H.; Sauri, S.; Fitriana, Y.; Zein, M.S.A.; Hocdé, R.ég.; Pouyaud, L.; Keith, P.; Wowor, D.; Steinke, D.; Hanner, R.; Hubert, N. 2020: Biodiversity inventory of the grey mullets (Actinopterygii: Mugilidae) of the Indo-Australian Archipelago through the iterative use of DNA-based species delimitation and specimen assignment methods. Evolutionary Applications 13(6): 1451-1467
Gilbert, N. 2010: Biodiversity law could stymie research. Nature 463(7281): 598
Pethiyagoda, R. 2004: Biodiversity law has had some unintended effects. Nature 429(6988): 129
Cardinale, B.J.; Duffy, J.Emmett.; Gonzalez, A.; Hooper, D.U.; Perrings, C.; Venail, P.; Narwani, A.; Mace, G.M.; Tilman, D.; Wardle, D.A.; Kinzig, A.P.; Daily, G.C.; Loreau, M.; Grace, J.B.; Larigauderie, A.; Srivastava, D.S.; Naeem, S. 2012: Biodiversity loss and its impact on humanity. Nature 486(7401): 59-67
Bianchelli, S.; Buschi, E.; Danovaro, R.; Pusceddu, A. 2016: Biodiversity loss and turnover in alternative states in the Mediterranean Sea: a case study on meiofauna. Scientific Reports 6: 34544
Briggs, J.C. 2007: Biodiversity loss in the ocean: how bad is it?. Science 316(5829): 1281-4; Author Reply 1281-4
Davies, J.; Stoett, P. 2018: Biodiversity loss is dire, don't get distracted. Nature 564(7736): 345
Halliday, F.W.; Rohr, J.R.; Laine, A.-L. 2020: Biodiversity loss underlies the dilution effect of biodiversity. Ecology Letters 23(11): 1611-1622
Schmeller, D.S.; Courchamp, F.; Killeen, G. 2020: Biodiversity loss, emerging pathogens and human health risks. Biodiversity and Conservation 29(11-12): 3095-3102
Liu, H.; Meng, J.; Bo, W.; Cheng, D.; Li, Y.; Guo, L.; Li, C.; Zheng, Y.; Liu, M.; Ning, T.; Wu, G.; Yu, X.; Feng, S.; Wuyun, T.; Li, J.; Li, L.; Zeng, Y.; Liu, S.V.; Jiang, G. 2016: Biodiversity management of organic farming enhances agricultural sustainability. Scientific Reports 6: 23816
Cernansky, R. 2017: Biodiversity moves beyond counting species. Nature 546(7656): 22-24
Gurney, G.G.; Darling, E.S.; Ahmadia, G.N.; Agostini, V.N.; Ban, N.C.; Blythe, J.; Claudet, J.; Epstein, G.; Estradivari; Himes-Cornell, A.; Jonas, H.D.; Armitage, D.; Campbell, S.J.; Cox, C.; Friedman, W.R.; Gill, D.; Lestari, P.; Mangubhai, S.; McLeod, E.; Muthiga, N.A.; Naggea, J.; Ranaivoson, R.; Wenger, A.; Yulianto, I.; Jupiter, S.D. 2021: Biodiversity needs every tool in the box: use OECMs. Nature 595(7869): 646-649
Ibisch, P.L.; Jennings, M.D.; Kreft, S. 2005: Biodiversity needs the help of global change managers, not museum-keepers. Nature 438(7065): 156
Anwar, H.; Iftikhar, A.; Muzaffar, H.; Almatroudi, A.; Allemailem, K.S.; Navaid, S.; Saleem, S.; Khurshid, M. 2021: Biodiversity of Gut Microbiota: Impact of Various Host and Environmental Factors. Biomed Research International 2021: 5575245
Dec, M.; Stępień-Pyśniak, D.; Puchalski, A.; Hauschild, T.; Pietras-Ożga, D.; Ignaciuk, S.; Urban-Chmiel, R. 2021: Biodiversity of Ligilactobacillus salivarius Strains from Poultry and Domestic Pigeons. Animals: An Open Access Journal from Mdpi 11(4)
Tan, S.M.; Ismail, M.H.; Cao, B. 2021: Biodiversity of magnetotactic bacteria in the tropical marine environment of Singapore revealed by metagenomic analysis. Environmental Research 194: 110714
Shahin, K.; Barazandeh, M.; Zhang, L.; Hedayatkhah, A.; He, T.; Bao, H.; Mansoorianfar, M.; Pang, M.; Wang, H.; Wei, R.; Wang, R. 2021: Biodiversity of new Lytic Bacteriophages Infecting Shigella spp. in Freshwater Environment. Frontiers in Microbiology 12: 619323
Durães, L.S.; Bitencourth, K.; Ramalho, F.R.; Nogueira, M.ár.C.ír.; Nunes, E.íl.d.C.; Gazêta, G.S. 2021: Biodiversity of Potential Vectors of Rickettsiae and Epidemiological Mosaic of Spotted Fever in the State of Paraná, Brazil. Frontiers in Public Health 9: 577789
Ma, J.; Tsegaye, E.; Li, M.; Wu, B.; Jiang, X. 2020: Biodiversity of Trichoderma from grassland and forest ecosystems in Northern Xinjiang, China. 3 Biotech 10(8): 362
Valdivia, N.; Garrido, I.; Bruning, P.; Piñones, A.; Pardo, L.M. 2020: Biodiversity of an Antarctic rocky subtidal community and its relationship with glacier meltdown processes. Marine Environmental Research 159: 104991
Bertics, V.J.; Ziebis, W. 2009: Biodiversity of benthic microbial communities in bioturbated coastal sediments is controlled by geochemical microniches. Isme Journal 3(11): 1269-1285
Kaleli, A.ın.; Car, A.; Witkowski, A.; Krzywda, M.; Riaux-Gobin, C.; Solak, C.ün.N.; Kaska, Y.; Zgłobicka, I.; Płociński, T.; Wróbel, R.ł; Kurzydłowski, K. 2020: Biodiversity of carapace epibiont diatoms in loggerhead sea turtles (Caretta caretta Linnaeus 1758) in the Aegean Sea Turkish coast. Peerj 8: E9406
Thomasset, B.; Sarazin, C. 2020: Biodiversity of lipid species - Benefit for nutrition and effects on health. Biochimie 178: 1-3
Menden-Deuer, S.; Rowlett, J.; Nursultanov, M.; Collins, S.; Rynearson, T. 2021: Biodiversity of marine microbes is safeguarded by phenotypic heterogeneity in ecological traits. Plos one 16(8): E0254799
Sharma, A.; Kanwar, S.S.; Thakur, S.Dev. 2021: Biodiversity of meatborne Listeria spp. in Himachal Pradesh and their interaction with indigenous probiotics. Journal of Food Science and Technology 58(3): 1209-1215
Ridha, M.R.; Rahayu, N.; Hairani, B.; Perwitasari, D.; Kusumaningtyas, H. 2020: Biodiversity of mosquitoes and Mansonia uniformis as a potential vector of Wuchereria bancrofti in Hulu Sungai Utara District, South Kalimantan, Indonesia. Veterinary World 13(12): 2815-2821
Zhao, Y.; Sun, Q.; Zhu, S.; Du, F.; Mao, R.; Liu, L.; Tian, B.; Zhu, Y. 2021: Biodiversity of non-Saccharomyces yeasts associated with spontaneous fermentation of Cabernet Sauvignon wines from Shangri-La wine region, China. Scientific Reports 11(1): 5150
Luqman, L.; Saeed, K.; Muhammad, K.; Ahmad, M.S.; Akbar, F.; Rasool, A.; Israr, M.; Jabeen, H.; Mehmood, S.A.; Ahmed, S.; Alam, A.; Ullah, S.; Saeed, N.; Usman, K.; Hussain, I.; El Halim, H.M.A.; Khan, W.; Shah, M. 2021: Biodiversity of orb-web spiders (family: araneidae) of buner valley, Pakistan. Brazilian Journal of Biology 82: E238339
GiÃo, T.; Pelegrini, L.S.; Azevedo, R.K.DE.; Abdallah, V.D. 2020: Biodiversity of parasites found in the trahira, Hoplias malabaricus (Bloch, 1794), collected in the Batalha River, Tietê-Batalha drainage basin, SP, Brazil. Anais da Academia Brasileira de Ciencias 92(2): E20180610
Mann, A.E.; Mazel, F.; Lemay, M.A.; Morien, E.; Billy, V.; Kowalewski, M.; Di Fiore, A.; Link, Aés.; Goldberg, T.L.; Tecot, S.; Baden, A.L.; Gomez, A.; Sauther, M.L.; Cuozzo, F.P.; Rice, G.A.O.; Dominy, N.J.; Stumpf, R.; Lewis, R.J.; Swedell, L.; Amato, K.; Wegener Parfrey, L. 2020: Biodiversity of protists and nematodes in the wild nonhuman primate gut. Isme Journal 14(2): 609-622
Du, J.; Li, Y.; Lu, L.; Zheng, D.; Liu, B.; Yang, L.; Su, H.; Dong, J.; Sun, L.; Zhu, Y.; Yang, J.; Yang, F.; Zhang, X.; Liu, Q.; Wu, Z.; Jin, Q. 2018: Biodiversity of rodent anelloviruses in China. Emerging Microbes and Infections 7(1): 38
Otero, I.; Farrell, K.N.; Pueyo, S.; Kallis, G.; Kehoe, L.; Haberl, H.; Plutzar, C.; Hobson, P.; García-Márquez, J.; Rodríguez-Labajos, B.; Martin, J.-L.; Erb, K.-H.; Schindler, S.; Nielsen, J.; Skorin, T.; Settele, J.; Essl, F.; Gómez-Baggethun, E.; Brotons, L.ís.; Rabitsch, W.; Schneider, F.ço.; Pe'er, G. 2020: Biodiversity policy beyond economic growth. Conservation Letters 13(4): E12713
Wilson, E.O. 2017: Biodiversity research requires more boots on the ground. Nature Ecology and Evolution 1(11): 1590-1591
Asbeck, T.; Sabatini, F.; Augustynczik, A.L.D.; Basile, M.; Helbach, J.; Jonker, M.; Knuff, A.; Bauhus, Jürgen. 2021: Biodiversity response to forest management intensity, carbon stocks and net primary production in temperate montane forests. Scientific Reports 11(1): 1625
Williamson, P. 2018: Biodiversity risks of climate control. Nature Ecology and Evolution 2(3): 416-417
Cyranoski, D. 2003: Biodiversity schemes take root in China. Nature 425(6961): 890
Primack, R.B. 2021: Biodiversity science blossoms in China. National Science Review 8(7): Nwab 058
Raven, P.H. 2021: Biodiversity science in China. National Science Review 8(7): Nwab 097
Lees, A.C.; Attwood, S.; Barlow, J.; Phalan, B. 2020: Biodiversity scientists must fight the creeping rise of extinction denial. Nature Ecology and Evolution 4(11): 1440-1443
Allen, J.M.; Folk, R.A.; Soltis, P.S.; Soltis, D.E.; Guralnick, R.P. 2019: Biodiversity synthesis across the green branches of the tree of life. Nature Plants 5(1): 11-13
Triantis, K.A.; Matthews, T.J. 2020: Biodiversity theory backed by island bird data. Nature 579(7797): 36-37
Putterman, D. 1994: Biodiversity treaty nations to study biosafety protocol. Nature 372(6507): 585
Morin, P.J. 2000: Biodiversity's ups and downs. Nature 406(6795): 463-464
Ho, C.W.L.; Hunt, A. 2019: Biodiversity, Big Data and Genome Editing. Asian Bioethics Review 11(2): 129-132
Tavakoli, Y.; Mohammadipanah, F.; Te, S.H.; You, L.; Gin, K.Y.-H. 2021: Biodiversity, phylogeny and toxin production profile of cyanobacterial strains isolated from lake Latyan in Iran. Harmful Algae 106: 102054
Nosil, P.; Feder, J.L.; Gompert, Z. 2021: Biodiversity, resilience and the stability of evolutionary systems. Current Biology: Cb 31(19): R1149-R1153
Dunn, R.R.; Reese, A.T.; Eisenhauer, N. 2019: Biodiversity-ecosystem function relationships on bodies and in buildings. Nature Ecology and Evolution 3(1): 7-9
Meyer, S.T.; Ptacnik, R.; Hillebrand, H.; Bessler, H.; Buchmann, N.; Ebeling, A.; Eisenhauer, N.; Engels, C.; Fischer, M.; Halle, S.; Klein, A-Maria.; Oelmann, Y.; Roscher, C.; Rottstock, T.; Scherber, C.; Scheu, S.; Schmid, B.; Schulze, E-Detlef.; Temperton, V.M.; Tscharntke, T.; Voigt, W.; Weigelt, A.; Wilcke, W.; Weisser, W.W. 2018: Biodiversity-multifunctionality relationships depend on identity and number of measured functions. Nature Ecology and Evolution 2(1): 44-49
Pimm, S.L.; Raven, P. 2000: Biodiversity. Extinction by numbers. Nature 403(6772): 843-845
Ewing, T. 1990: Biodiversity. Preserving the present. Nature 345(6275): 465
Brooks, T.M.; Helgen, K.M. 2010: Biodiversity: A standard for species. Nature 467(7315): 540-541
Russo, G. 2009: Biodiversity: Biodiversity's bright spot. Nature 462(7271): 266-269
Graham-Rowe, D. 2011: Biodiversity: Endangered and in demand. Nature 480(7378): S101-S103
Hochkirch, A. 2017: Biodiversity: Factor in species' conservation value. Nature 547(7664): 403
Tobias, J.A. 2015: Biodiversity: Hidden impacts of logging. Nature 523(7559): 163-164
Heilpern, S. 2015: Biodiversity: Include freshwater species. Nature 518(7538): 167
McGill, B. 2015: Biodiversity: Land use matters. Nature 520(7545): 38-39
Goymer, P. 2014: Biodiversity: Leaping lizards. Nature 513(7519): 492
Hines, J.; Pereira, H.M. 2021: Biodiversity: Monitoring trends and implications for ecosystem functioning. Current Biology: Cb 31(20): R1390-R1392
Antonelli, A. 2015: Biodiversity: Multiple origins of mountain life. Nature 524(7565): 300-301
Snaddon, J.L.; Willis, K.J.; Macdonald, D.W. 2013: Biodiversity: Oil-palm replanting raises ecology issues. Nature 502(7470): 170-171
Lane, N. 2009: Biodiversity: On the origin of bar codes. Nature 462(7271): 272-274
Kindlmann, P.; Křenová, Z. 2016: Biodiversity: Protect Czech park from development. Nature 531(7595): 448
Marris, E. 2009: Biodiversity: Putting a price on nature. Nature 462(7271): 270-271
Gewin, V. 2009: Biodiversity: Rack and field. Nature 460(7258): 944-946
Schindel, D.E.; du Plessis, P. 2014: Biodiversity: Reap the benefits of the Nagoya Protocol. Nature 515(7525): 37
Hertwich, E. 2012: Biodiversity: Remote responsibility. Nature 486(7401): 36-37
Settele, J.; Kühn, I.; Thomas, J.A. 2013: Biodiversity: Safeguard species in warming flatlands. Nature 502(7471): 303
Kyne, P.M.; Bax, N.J.; Dulvy, N.K. 2015: Biodiversity: Sharks and rays in peril too. Nature 518(7538): 167
Dulvy, N.K.; Reynolds, J.D. 2009: Biodiversity: Skates on thin ice. Nature 462(7272): 417
McKinnon, J.S.; Taylor, E.B. 2012: Biodiversity: Species choked and blended. Nature 482(7385): 313-314
Rahbek, C.; Colwell, R.K. 2011: Biodiversity: Species loss revisited. Nature 473(7347): 288-289
Cortina-Segarra, J.; Decleer, K.; Kollmann, J. 2016: Biodiversity: Speed restoration of EU ecosystems. Nature 535(7611): 231
Mooers, A.O. 2014: Biodiversity: Supply and demand. Nature 509(7499): 171-172
Tittensor, D.P. 2013: Biodiversity: Temperate hotspots. Nature 501(7468): 494-495
Pardo-de-Santayana, M.; Macía, M.J. 2015: Biodiversity: The benefits of traditional knowledge. Nature 518(7540): 487-488
Gonzalez, A. 2013: Biodiversity: The ecological deficit. Nature 503(7475): 206-207
Keilman, N. 2003: Biodiversity: The threat of small households. Nature 421(6922): 489-490
Weaver, P.; Johnson, D. 2012: Biodiversity: Think big for marine conservation. Nature 483(7390): 399
Groves, C.P. 2016: Biodiversity: Two African elephant species, not just one. Nature 538(7625): 371
Hewitt, G.M. 2004: Biodiversity: a climate for colonization. Heredity 92(1): 1-2
Mace, G.M. 2005: Biodiversity: an index of intactness. Nature 434(7029): 32-33
Naeem, S. 2002: Biodiversity: biodiversity equals instability?. Nature 416(6876): 23-24
Dalton, R. 2006: Biodiversity: cashing in on the rich coast. Nature 441(7093): 567-569
Thuiller, W. 2007: Biodiversity: climate change and the ecologist. Nature 448(7153): 550-552
Gozlan, R.E.; St-Hilaire, S.; Feist, S.W.; Martin, P.; Kent, M.L. 2005: Biodiversity: disease threat to European fish. Nature 435(7045): 1046
Kirchner, J.W.; Weil, A. 2005: Biodiversity: fossils make waves. Nature 434(7030): 147-148
Hopkin, M. 2008: Biodiversity: frozen futures. Nature 452(7186): 404-405
Boekhout, T. 2005: Biodiversity: gut feeling for yeasts. Nature 434(7032): 449-451
Montana, J. 2018: Biodiversity: ideas need time to mature. Nature 561(7723): 309
Barnes, D.K.A. 2002: Biodiversity: invasions by marine life on plastic debris. Nature 416(6883): 808-809
Murray, M.G.; Yelland, J.A. 2005: Biodiversity: involvement of local people is crucial. Nature 438(7066): 282
Chong, K.Yan.; Koon Yee, A.Thiam.; Yeo, C.Khoon. 2010: Biodiversity: linking Singapore's fragmented habitats. Nature 465(7296): 289
Cyranoski, D. 2007: Biodiversity: logging: the new conservation. Nature 446(7136): 608-610
Doolittle, R.F. 2002: Biodiversity: microbial genomes multiply. Nature 416(6882): 697-700
Hartt, L. 2005: Biodiversity: saving Florida panther makes sense. Nature 438(7065): 156
de Groot, R.; Sukhdev, P.; Gough, M. 2018: Biodiversity: sparring makes us strong. Nature 561(7723): 309
Renner, S.C. 2005: Biodiversity: there's a role to be played by 'museum-keepers' too. Nature 438(7070): 914
Nee, S. 2002: Biodiversity: thinking big in ecology. Nature 417(6886): 229-230
Essl, F.; Winter, M.; Pyšek, P. 2012: Biodiversity: trade threat could be even more dire. Nature 487(7405): 39
Possingham, H.P.; Wilson, K.A. 2005: Biodiversity: turning up the heat on hotspots. Nature 436(7053): 919-920
Stork, N.E. 2007: Biodiversity: world of insects. Nature 448(7154): 657-658
Arora, M.; Giuliani, A.; Curtin, P. 2020: Biodynamic Interfaces Are Essential for Human-Environment Interactions. Bioessays: News and Reviews in Molecular Cellular and Developmental Biology 42(11): E2000017
Nawayseh, N.; AlBaiti, S. 2021: Biodynamic Responses to Whole-Body Vibration Training: a Systematic Review. Journal of Applied Biomechanics 37(5): 494-507
Li, Z.; Lorenzo-Lorenzo, I.M.; An, R.; Turek, J.; Nolte, D.D.; Machaty, Z. 2021: Biodynamic digital holographic speckle microscopy for oocyte and embryo metabolic evaluation. Applied Optics 60(4): A222-A233
Wu, J.; Qiu, Y.; Zhou, H. 2021: Biodynamic response of seated human body to vertical and added lateral and roll vibrations. Ergonomics 2021: 1-32
Cooper, D.K.; Wieling, E.; Pfeiffer, A. 2019: Bioecological Implications of Narrative Exposure Therapy in Low-Resource Settings: Individual, Family, Community, and Socio-Political Contexts. Australian and New Zealand Journal of Family Therapy 40(4): 353-367
Souza, I.L.; de Paulo, H.ág.H.; Taguti, Ér.A.; Martinelli, N.M. 2021: Bioecology of Anagyrus saccharicola (Hymenoptera: Encyrtidae), a parasitoid of the pink sugarcane mealybug Saccharicoccus sacchari (Hemiptera: Pseudococcidae). Bulletin of Entomological Research 111(3): 348-356
Refsgaard, K.; Kull, M.; Slätmo, E.; Meijer, M.W.øi. 2021: Bioeconomy - a driver for regional development in the Nordic countries. New Biotechnology 60: 130-137
Kircher, M. 2021: Bioeconomy - present status and future needs of industrial value chains. New Biotechnology 60: 96-104
Woźniak, E.; Tyczewska, A.; Twardowski, T. 2021: Bioeconomy development factors in the European Union and Poland. New Biotechnology 60: 2-8
Boyarov, A.; Osmakova, A.; Popov, V. 2021: Bioeconomy in Russia: Today and tomorrow. New Biotechnology 60: 36-43
Wohlgemuth, R.; Twardowski, T.; Aguilar, A. 2021: Bioeconomy moving forward step by step - a global journey. New Biotechnology 61: 22-28
Masiero, M.; Secco, L.; Pettenella, D.; Da Re, R.; Bernö, H.; Carreira, A.; Dobrovolsky, A.; Giertlieova, B.; Giurca, A.; Holmgren, S.; Mark-Herbert, C.; Navrátilová, L.; Pülzl, H.; Ranacher, L.; Salvalaggio, A.; Sergent, A.; Sopanen, J.; Stelzer, C.; Stetter, T.; Valsta, L.; Výbošťok, J.; Wallin, I. 2020: Bioeconomy perception by future stakeholders: Hearing from European forestry students. Ambio 49(12): 1925-1942
Zihare, L.; Kubule, A.; Vamza, I.; Muizniece, I.; Blumberga, D. 2021: Bioeconomy triple factor nexus through indicator analysis. New Biotechnology 61: 57-68
Popp, J.óz.; Kovács, S.án.; Oláh, J.; Divéki, Z.án.; Balázs, E. 2021: Bioeconomy: Biomass and biomass-based energy supply and demand. New Biotechnology 60: 76-84
Abramowicz, J.S. 2022: Bioeffects and Safety of Lung Ultrasound in Neonates. Journal of Ultrasound in Medicine: Official Journal of the American Institute of Ultrasound in Medicine 41(4): 1031
Pankaj; Rana, V.Singh.; Kaushik, P.; Kumar, H.; Devaraja, K.P.; Gowda, A.; Shakil, N.Akhtar. 2021: Bioefficacy evaluation of chalcone derivatives against Meloidogyne graminicola infecting rice, Oryza sativa L. Journal of Environmental Science and Health. Part. B Pesticides Food Contaminants and Agricultural Wastes 2021: 1-8
Chintalchere, J.M.; Dar, M.A.; Raut, K.D.; Pandit, R.S. 2021: Bioefficacy of Lemongrass and Tea Tree Essential Oils Against House Fly, Musca domestica. Proceedings of the National Academy of Sciences India. Section B 91(2): 307-318
Abai, M.R.; Vatandoost, H.; Dorzadeh, H.; Shayeghi, M.; Hanafi-Bojd, A.A.; Raeisi, A. 2021: Bioefficacy of bendiocarb WP80 in vector-borne and zoonotic diseases areas in borderline of Iran and Pakistan. Toxicology Research 10(4): 868-874
Ray, S.; Chatterjee, K.; De, D.; Ghosh, D. 2014: Bioefficacy of hydromethanolic extract of tuber of Chlorophytum borivilianum (Safed Musli) for the management of male infertility in cyproterone acetate-treated albino rats. Andrologia 46(6): 659-671
Azratul-Hizayu, T.; Chen, C.D.; Lau, K.W.; Azrizal-Wahid, N.; Tan, T.K.; Lim, Y.A.L.; Sofian-Azirun, M.; Low, V.L. 2021: Bioefficacy of mosquito mat vaporizers and associated metabolic detoxication mechanisms in Aedes aegypti (Linnaeus) in Selangor, Malaysia: a statewide assessment. Tropical Biomedicine 38(3): 327-337
Mandal, S.; Poi, R.; Banerjee, K.; Ansary, I.; Bhattacharyya, S.; Hazra, D.K.; Ghosh, R.; Karmakar, R. 2021: Bioefficacy, residue dynamics and dietary risk assessment of gibberellic acid in improving the potential yield of tomato (Solanum lycopersicum L.). Environmental Monitoring and Assessment 193(10): 652
Bartoletti, R.; Greco, A.; Di Vico, T.; Durante, J.; Ficarra, V.; Scilingo, E.P.; Valenza, G. 2021: Bioelectric Impedance Analysis Test Improves the Detection of Prostate Cancer in Biopsy Candidates: a Multifeature Decision Support System. Frontiers in Oncology 11: 555277
Fennelly, C.; Soker, S. 2019: Bioelectric Properties of Myogenic Progenitor Cells. Bioelectricity 1(1): 35-45
Kutyna, F.A.; Tombes, A.S. 1966: Bioelectric activity of the central nervous system in normal and diapausing alfalfa weevils. Nature 212(5065): 956-957
Ellegård, L.H.; Ahlén, M.; Körner, U.; Lundholm, K.G.; Plank, L.D.; Bosaeus, I.G. 2009: Bioelectric impedance spectroscopy underestimates fat-free mass compared to dual energy X-ray absorptiometry in incurable cancer patients. European Journal of Clinical Nutrition 63(6): 794-801
Li, C.; Levin, M.; Kaplan, D.L. 2016: Bioelectric modulation of macrophage polarization. Scientific Reports 6: 21044
Dorozhko, I.G.; Onoprienko, G.A.; Agal'tsov, M.V.; Fedorov, S.I. 2002: Bioelectric myocardial activity in orthopedic surgery with autohemotransfusion. Khirurgiia 2002(3): 42-44
Payne, S.C.; Furness, J.B.; Stebbing, M.J. 2019: Bioelectric neuromodulation for gastrointestinal disorders: effectiveness and mechanisms. Nature Reviews. Gastroenterology and Hepatology 16(2): 89-105
Herrera, F.C. 1968: Bioelectric properties and ionic content in toad bladder. Journal of General Physiology 51(5): 261-270
Paré, J-François.; Martyniuk, C.J.; Levin, M. 2017: Bioelectric regulation of innate immune system function in regenerating and intact Xenopus laevis. Npj Regenerative Medicine 2: 15
Fukui, H.; Chow, R.W.-Y.; Xie, J.; Foo, Y.Y.; Yap, C.H.; Minc, N.; Mochizuki, N.; Vermot, J. 2021: Bioelectric signaling and the control of cardiac cell identity in response to mechanical forces. Science 374(6565): 351-354
Eduardo, P.ña.-M.; Mario, G.-L.; Carlos César, P.ño.-M.; Mayra, M.-A.; Sara, H.-Y.; E, B.N. 2021: Bioelectric, tissue, and molecular characteristics of the gastric mucosa at different times of ischemia. Experimental Biology and Medicine 246(18): 1968-1980
Daane, J.M.; Lanni, J.; Rothenberg, I.; Seebohm, G.; Higdon, C.W.; Johnson, S.L.; Harris, M.P. 2018: Bioelectric-calcineurin signaling module regulates allometric growth and size of the zebrafish fin. Scientific Reports 8(1): 10391
Machino, M.; Ando, K.; Kobayashi, K.; Nakashima, H.; Tanaka, S.; Kanbara, S.; Ito, S.; Inoue, T.; Koshimizu, H.; Seki, T.; Ishizuka, S.; Takegami, Y.; Hasegawa, Y.; Imagama, S. 2021: Bioelectrical Impedance Analysis and Manual Measurements of Neck Circumference Are Interchangeable, and Declining Neck Circumference Is Related to Presarcopenia. Biomed Research International 2021: 6622398
D'Hondt, J.; Chapelle, L.; Droogenbroeck, L.Van.; Aerenhouts, D.; Clarys, P.; D'Hondt, E. 2021: Bioelectrical Impedance Analysis as a Means of Quantifying Upper and Lower Limb Asymmetry in Youth Elite Tennis Players: An Explorative Study. European Journal of Sport Science 2021: 1-24
Aleixo, G.F.P.; Shachar, S.S.; Nyrop, K.A.; Muss, H.B.; Battaglini, C.L.; Williams, G.R. 2020: Bioelectrical Impedance Analysis for the Assessment of Sarcopenia in Patients with Cancer: a Systematic Review. Oncologist 25(2): 170-182
Szefel, J.; Kruszewski, W.J.; Szajewski, M.; Ciesielski, M.; Danielak, A. 2020: Bioelectrical Impedance Analysis to Increase the Sensitivity of Screening Methods for Diagnosing Cancer Cachexia in Patients with Colorectal Cancer. Journal of Nutrition and Metabolism 2020: 3874956
Oliveira, Núbia.Maria.de.; Langer, R.David.; Lemos-Marini, S.Helena.Valente.de.; Guerra-Júnior, G.; Gonçalves, E.Moreira. 2021: Bioelectrical Impedance Phase Angle and Its Determinants in Patients with Classic Congenital Adrenal Hyperplasia. Journal of the American College of Nutrition 2021: 1-8
Cervera, J.; Alcaraz, A.; Mafe, S. 2016: Bioelectrical Signals and Ion Channels in the Modeling of Multicellular Patterns and Cancer Biophysics. Scientific Reports 6: 20403
McNamara, H.M.; Salegame, R.; Al Tanoury, Z.; Xu, H.; Begum, S.; Ortiz, G.; Pourquie, O.; Cohen, A.E. 2020: Bioelectrical domain walls in homogeneous tissues. Nature Physics 16(3): 357-364
Di Vincenzo, O.; Marra, M.; Sacco, A.M.; Pasanisi, F.; Scalfi, L. 2021: Bioelectrical impedance (BIA)-derived phase angle in adults with obesity: a systematic review. Clinical Nutrition 40(9): 5238-5248
Grossberg, A.J.; Rock, C.D.; Edwards, J.; Mohamed, A.S.R.; Ruzensky, D.; Currie, A.; Rosemond, P.; Phan, J.; Gunn, G.B.; Frank, S.J.; Morrison, W.H.; Garden, A.S.; Fuller, C.D.; Rosenthal, D.I. 2021: Bioelectrical impedance analysis as a quantitative measure of sarcopenia in head and neck cancer patients treated with radiotherapy. RadioTherapy and Oncology: Journal of the European Society for Therapeutic Radiology and Oncology 159: 21-27
Ballesteros-Pomar, M.ía.D.; González-Arnáiz, E.; Pintor-de-la Maza, B.ña.; Barajas-Galindo, D.; Ariadel-Cobo, D.; González-Roza, L.ía.; Cano-Rodríguez, I. 2022: Bioelectrical impedance analysis as an alternative to dual-energy x-ray absorptiometry in the assessment of fat mass and appendicular lean mass in patients with obesity. Nutrition 93: 111442
Lingwood, B.E. 2013: Bioelectrical impedance analysis for assessment of fluid status and body composition in neonates--the good, the bad and the unknown. European Journal of Clinical Nutrition 67 Suppl. 1: S28-S33
Ward, L.C. 2019: Bioelectrical impedance analysis for body composition assessment: reflections on accuracy, clinical utility, and standardisation. European Journal of Clinical Nutrition 73(2): 194-199
Vaché, C.; Rousset, P.; Gachon, P.; Gachon, A.M.; Morio, B.; Boulier, A.; Coudert, J.; Beaufrère, B.; Ritz, P. 1998: Bioelectrical impedance analysis measurements of total body water and extracellular water in healthy elderly subjects. International Journal of Obesity and Related Metabolic Disorders: Journal of the International Association for the Study of Obesity 22(6): 537-543
Cornish, B.H. 2000: Bioelectrical impedance analysis revisited. Lymphology 33(3): 136-137
Jakicic, J.M.; Wing, R.R.; Lang, W. 1998: Bioelectrical impedance analysis to assess body composition in obese adult women: the effect of ethnicity. International Journal of Obesity and Related Metabolic Disorders: Journal of the International Association for the Study of Obesity 22(3): 243-249
Haverkort, E.B.; Reijven, P.L.M.; Binnekade, J.M.; de van der Schueren, M.A.E.; Earthman, C.P.; Gouma, D.J.; de Haan, R.J. 2015: Bioelectrical impedance analysis to estimate body composition in surgical and oncological patients: a systematic review. European Journal of Clinical Nutrition 69(1): 3-13
Qin, Q.; Yang, Y.; Chen, J.; Jiang, Y.; Li, A.; Huang, M.; Dong, Y.; Wang, S.; Ding, S. 2021: Bioelectrical impedance analysis versus quantitative computer tomography and anthropometry for the assessment of body composition parameters in China. Scientific Reports 11(1): 11076
Yueying, C.; Jing, F.; Tian, Y.; Yuqi, Q.; Jun, S. 2021: Bioelectrical impedance analysis-based nomogram construction for predicting secondary loss of response to infliximab in bio-naïve Crohn's disease patients. Biomedicine and PharmacoTherapy 142: 112076
Stapel, S.N.; Looijaard, W.G.P.M.; Dekker, I.M.; Girbes, A.R.J.; Weijs, P.J.M.; Oudemans-van Straaten, H.M. 2018: Bioelectrical impedance analysis-derived phase angle at admission as a predictor of 90-day mortality in intensive care patients. European Journal of Clinical Nutrition 72(7): 1019-1025
Wang, K.; Sun, S.-L.; Wang, X.-Y.; Chu, C.-N.; Duan, Z.-H.; Yang, C.; Liu, B.-C.; Ding, W.-W.; Li, W.-Q.; Li, J.-S. 2021: Bioelectrical impedance analysis-guided fluid management promotes primary fascial closure after open abdomen: a randomized controlled trial. Military Medical Research 8(1): 36
De Vries, P.M.; Kouw, P.M.; Olthof, C.G.; de Vries, J.P.; Donker, A.J. 1993: Bioelectrical impedance and body composition. Lancet 341(8844): 569-570
Stegel, P.; Kozjek, N.R.; Brumen, B.A.; Strojan, P. 2016: Bioelectrical impedance phase angle as indicator and predictor of cachexia in head and neck cancer patients treated with (chemo)radiotherapy. European Journal of Clinical Nutrition 70(5): 602-606
Marra, M.; Caldara, A.; Montagnese, C.; De Filippo, E.; Pasanisi, F.; Contaldo, F.; Scalfi, L. 2009: Bioelectrical impedance phase angle in constitutionally lean females, ballet dancers and patients with anorexia nervosa. European Journal of Clinical Nutrition 63(7): 905-908
Neovius, M.; Hemmingsson, E.; Freyschuss, B.; Uddén, J. 2006: Bioelectrical impedance underestimates total and truncal fatness in abdominally obese women. Obesity 14(10): 1731-1738
Ward, L.C. 2013: Bioelectrical impedance validation studies: alternative approaches to their interpretation. European Journal of Clinical Nutrition 67 Suppl. 1: S10-S13
Buffa, R.; Mereu, E.; Comandini, O.; Ibanez, M.E.; Marini, E. 2014: Bioelectrical impedance vector analysis (BIVA) for the assessment of two-compartment body composition. European Journal of Clinical Nutrition 68(11): 1234-1240
Fernandes, S.A.; Leonhardt, L.R.; da Silva, D.M.; Alves, F.D.; Marroni, C.áu.A. 2020: Bioelectrical impedance vector analysis evaluates cellularity and hydration in cirrhotic patients. World Journal of Hepatology 12(12): 1276-1288
Machado, V.ór.M.Q.; Justa, R.M.D.E.; Lopes da Costa, S.âm.; Barbosa, M.C.; Damasceno, N.ág.R.T.; Verde, S.M.M.L. 2021: Bioelectrical impedance vector applied to body composition evaluation of women survivors of breast cancer: a longitudinal study. Clinical Nutrition Espen 44: 247-253
Chouinard, L.E.; Schoeller, D.A.; Watras, A.C.; Clark, R.Randall.; Close, R.N.; Buchholz, A.C. 2007: Bioelectrical impedance vs. four-compartment model to assess body fat change in overweight adults. Obesity 15(1): 85-92
Mahdavi, R.; Hosseinpour, P.; Abbasvandi, F.; Mehrvarz, S.; Yousefpour, N.; Ataee, H.; Parniani, M.; Mamdouh, A.; Ghafari, H.; Abdolahad, M. 2020: Bioelectrical pathology of the breast; real-time diagnosis of malignancy by clinically calibrated impedance spectroscopy of freshly dissected tissue. Biosensors and Bioelectronics 165: 112421
Ashton, J.J.; Marino, L.V.; Johnson, M.J.; Newell, C.; Price, G.; Dewar, H.; Brampton, R.; Ennis, S.; Griffiths, M.; Coelho, T.; Batra, A.; Afzal, N.; Beattie, R.M. 2021: Bioelectrical spectroscopy impedance phase angle is not associated with nutritional status in a stable cohort of paediatric inflammatory bowel disease patients. Clinical Nutrition Espen 44: 276-281
Schofield, Z.; Meloni, G.N.; Tran, P.; Zerfass, C.; Sena, G.; Hayashi, Y.; Grant, M.; Contera, S.A.; Minteer, S.D.; Kim, M.; Prindle, A.; Rocha, P.; Djamgoz, M.B.A.; Pilizota, T.; Unwin, P.R.; Asally, M.; Soyer, O.S. 2020: Bioelectrical understanding and engineering of cell biology. Journal of the Royal Society Interface 17(166): 20200013
Young, C.C.; Vedadghavami, A.; Bajpayee, A.G. 2020: Bioelectricity for Drug Delivery: the Promise of Cationic Therapeutics. Bioelectricity 2(2): 68-81
Thulasinathan, B.; Jayabalan, T.; Sethupathi, M.; Kim, W.; Muniyasamy, S.; Sengottuvelan, N.; Nainamohamed, S.; Ponnuchamy, K.; Alagarsamy, A. 2021: Bioelectricity generation by natural microflora of septic tank wastewater (STWW) and biodegradation of persistent petrogenic pollutants by basidiomycetes fungi: An integrated microbial fuel cell system. Journal of Hazardous Materials 412: 125228
Arun, S.; Ramasamy, S.; Pakshirajan, K.; Pugazhenthi, G. 2022: Bioelectricity production and shortcut nitrogen removal by microalgal-bacterial consortia using membrane photosynthetic microbial fuel cell. Journal of Environmental Management 301: 113871
Umar, M.F.; Rafatullah, M.; Abbas, S.Z.; Ibrahim, M.N.M.; Ismail, N. 2021: Bioelectricity production and xylene biodegradation through double chamber benthic microbial fuel cells fed with sugarcane waste as a substrate. Journal of Hazardous Materials 419: 126469
Ryu, J.; Choi, S. 2021: Bioelectricity production from sweat-activated germination of bacterial endospores. Biosensors and Bioelectronics 186: 113293
Guadarrama-Pérez, O.; Bahena-Rabadan, K.Yarely.; Dehesa-Carrasco, U.; Guadarrama Pérez, V.Hugo.; Estrada-Arriaga, E.Baltazar. 2020: Bioelectricity production using shade macrophytes in constructed wetlands-microbial fuel cells. Environmental Technology 2020: 1-12
Wang, Y.; Han, X.; Cui, Z.; Shi, D. 2019: Bioelectricity, its Fundamentals, Characterization Methodology, and Applications in Nano-Bioprobing and Cancer Diagnosis. Advanced Biosystems 3(10): E1900101
Djamgoz, M.B.A.; Levin, M. 2020: Bioelectricity: a Quick Reminder of a Fast-Advancing Discipline!. Bioelectricity 2(3): 208-209
Adams, D.S. 2020: Bioelectricity: Reasons to be Amazed and Hopeful-My Personal Favorites. Bioelectricity 2(1): 4-6
Koffi, N.'D.J.; Okabe, S. 2021: Bioelectrochemical anoxic ammonium nitrogen removal by an MFC driven single chamber microbial electrolysis cell. Chemosphere 274: 129715
Jang, J.; Jeon, B.Wook.; Kim, Y.Hwan. 2018: Bioelectrochemical conversion of CO 2 to value added product formate using engineered Methylobacterium extorquens. Scientific Reports 8(1): 7211
Komori, K.; Komatsu, Y.; Nakane, M.; Sakai, Y. 2021: Bioelectrochemical detection of histamine release from basophilic leukemia cell line based on histamine dehydrogenase-modified cup-stacked carbon nanofibers. Bioelectrochemistry 138: 107719
Zhao, Z.; Zhang, Y.; Chen, S.; Quan, X.; Yu, Q. 2014: Bioelectrochemical enhancement of anaerobic methanogenesis for high organic load rate wastewater treatment in a up-flow anaerobic sludge blanket (UASB) reactor. Scientific Reports 4: 6658
Machado, M.C.; Zamani, M.; Daniel, S.; Furst, A.L. 2021: Bioelectrochemical platforms to study and detect emerging pathogens. Mrs Bulletin 46(9): 840-846
Yang, Z.; Li, J.; Chen, F.; Xu, L.; Jin, Y.; Xu, S.; Wang, J.; Shen, X.; Zhang, L.; Song, Y. 2021: Bioelectrochemical process for simultaneous removal of copper, ammonium and organic matter using an algae-assisted triple-chamber microbial fuel cell. Science of the Total Environment 798: 149327
Cabrera, J.; Irfan, M.; Dai, Y.; Zhang, P.; Zong, Y.; Liu, X. 2021: Bioelectrochemical system as an innovative technology for treatment of produced water from oil and gas industry: a review. Chemosphere 285: 131428
Syed, Z.; Sogani, M.; Dongre, A.; Kumar, A.; Sonu, K.; Sharma, G.; Gupta, A.B. 2021: Bioelectrochemical systems for environmental remediation of estrogens: a review and way forward. Science of the Total Environment 780: 146544
Radeef, A.Y.; Ismail, Z.Z. 2021: Bioelectrochemical treatment of actual carwash wastewater associated with sustainable energy generation in three-dimensional microbial fuel cell. Bioelectrochemistry 142: 107925
Hou, R.; Gan, L.; Guan, F.; Wang, Y.; Li, J.; Zhou, S.; Yuan, Y. 2021: Bioelectrochemically enhanced degradation of bisphenol S: mechanistic insights from stable isotope-assisted investigations. Iscience 24(1): 102014
Wu, Y.; Cai, Y.; Lu, Y.-X.; Zhang, L.-M.; Yang, X.-L.; Song, H.-L.; Yang, Y.-L. 2020: Bioelectrochemically-assisted nitrogen removal in osmotic membrane bioreactor. Water Science and Technology: a Journal of the International Association on Water Pollution Research 82(2): 330-338
Martinez, W.E.; Arenas, J.E.; Mok, L.; Wong, N.Y.; Lozano, M.M.; Lin, W.-C.; Gutierrez, M.G.; Sierra Chavera, R.; McGivern, J.G. 2021: Bioelectronic Measurement of Target Engagement to a Membrane-Bound Transporter. Slas Discovery: Advancing Life Sciences R and D 26(8): 1004-1013
Shin, N.; Lee, S.H.; Cho, Y.; Park, T.H.; Hong, S. 2020: Bioelectronic Skin Based on Nociceptive Ion Channel for Human-Like Perception of Cold Pains. Small 16(30): E2001469
Photopoulos, J. 2021: Bioelectronic devices could treat autoimmune disease. Nature 595(7867): S63
Hayamizu, Y.; So, C.R.; Dag, S.; Page, T.S.; Starkebaum, D.; Sarikaya, M. 2016: Bioelectronic interfaces by spontaneously organized peptides on 2D atomic single layer materials. Scientific Reports 6: 33778
Birmingham, K.; Gradinaru, V.; Anikeeva, P.; Grill, W.M.; Pikov, V.; McLaughlin, B.; Pasricha, P.; Weber, D.; Ludwig, K.; Famm, K. 2014: Bioelectronic medicines: a research roadmap. Nature Reviews. Drug Discovery 13(6): 399-400
Mozneb, M.; Mirtaheri, E.; Sanabria, A.O.; Li, C.-Z. 2020: Bioelectronic properties of DNA, protein, cells and their applications for diagnostic medical devices. Biosensors and Bioelectronics 167: 112441
Aragón, Án.; Cebro-Márquez, M.ía.; Perez, E.; Pazos, A.; Lage, R.; González-Juanatey, J.é R.ón.; Moscoso, I.; Bao-Varela, C.; Nieto, D. 2020: Bioelectronics-on-a-chip for cardio myoblast proliferation enhancement using electric field stimulation. Biomaterials Research 24: 15
Rolandi, M. 2014: Bioelectronics: A positive future for squid proteins. Nature Chemistry 6(7): 563-564
Kim, D-Hyeong.; Lee, Y. 2015: Bioelectronics: Injection and unfolding. Nature Nanotechnology 10(7): 570-571
Ingebrandt, S. 2015: Bioelectronics: Sensing beyond the limit. Nature Nanotechnology 10(9): 734-735
Martiradonna, L. 2015: Bioelectronics: Soft implants for long-term use. Nature Materials 14(3): 267
Schmidt, C. 2012: Bioelectronics: The bionic material. Nature 483(7389): S37
Khabiri, B.; Ferdowsi, M.; Buelna, G.; Jones, J.Peter.; Heitz, Mèle. 2021: Bioelimination of low methane concentrations emitted from wastewater treatment plants: a review. Critical Reviews in Biotechnology 2021: 1-18
Dar, S.; Chhina, J.; Mert, I.; Chitale, D.; Buekers, T.; Kaur, H.; Giri, S.; Munkarah, A.; Rattan, R. 2017: Bioenergetic Adaptations in Chemoresistant Ovarian Cancer Cells. Scientific Reports 7(1): 8760
Jiang, D.; Chen, F.-X.; Zhou, H.; Lu, Y.-Y.; Tan, H.; Yu, S.-J.; Yuan, J.; Liu, H.; Meng, W.; Jin, Z.-B. 2020: Bioenergetic Crosstalk between Mesenchymal Stem Cells and various Ocular Cells through the intercellular trafficking of Mitochondria. Theranostics 10(16): 7260-7272
Akela, A.K.; Kumar, A. 2021: Bioenergetic Heterogeneity in Mycobacterium tuberculosis Residing in Different Subcellular Niches. Mbio 12(3): E0108821
Fontes-Oliveira, C.C.; Steinz, M.; Schneiderat, P.; Mulder, H.; Durbeej, M. 2017: Bioenergetic Impairment in Congenital Muscular Dystrophy Type 1A and Leigh Syndrome Muscle Cells. Scientific Reports 7: 45272
Hasenoehrl, E.J.; Wiggins, T.J.; Berney, M. 2020: Bioenergetic Inhibitors: Antibiotic Efficacy and Mechanisms of Action in Mycobacterium tuberculosis. Frontiers in Cellular and Infection Microbiology 10: 611683
Goulding, R.P.; Rossiter, H.B.; Marwood, S.; Ferguson, C. 2021: Bioenergetic Mechanisms Linking V˙O2 Kinetics and Exercise Tolerance. Exercise and Sport Sciences Reviews 49(4): 274-283
Inak, G.; Henke, M.-T.ér.ès.; Prigione, A. 2021: Bioenergetic Profiling of Human Pluripotent Stem Cells. Methods in Molecular Biology 2277: 391-403
Sainath, R.; Gallo, G. 2021: Bioenergetic Requirements and Spatiotemporal Profile of Nerve Growth Factor Induced PI3K-Akt Signaling Along Sensory Axons. Frontiers in Molecular Neuroscience 14: 726331
Jekabsons, M.B.; Nicholls, D.G. 2006: Bioenergetic analysis of cerebellar granule neurons undergoing apoptosis by potassium/serum deprivation. Cell Death and Differentiation 13(9): 1595-1610
Ribaute, E.; Lemesre, J.L.; Rodriguez, C.; Carrasco, R.; Breniere, F.; Antezana, G.; Raynaud, J.; Carlier, Y. 1986: Bioenergetic and cardiovascular responses to exercise in residents at 2.850 m, with asymptomatic Chagas' disease. Tropical and Geographical Medicine 38(2): 150-157
Wilkins, H.M.; Wang, X.; Menta, B.W.; Koppel, S.J.; Bothwell, R.; Becker, A.M.; Anderson, H.; Schwartz, E.; Pei, D.; Yellapu, N.K.; Chalise, P.; Gouvion, C.M.; Haeri, M.; Burns, J.M.; Swerdlow, R.H. 2021: Bioenergetic and inflammatory systemic phenotypes in Alzheimer's disease APOE ε4-carriers. Aging cell 20(5): e13356
Lu, G.-S.; LaRowe, D.E.; Fike, D.A.; Druschel, G.K.; Gilhooly, W.P.; Price, R.E.; Amend, J.P. 2020: Bioenergetic characterization of a shallow-sea hydrothermal vent system: Milos Island, Greece. Plos one 15(6): E0234175
Hierro-Yap, C.; Šubrtová, K.ín.; Gahura, O.ře.; Panicucci, B.; Dewar, C.; Chinopoulos, C.; Schnaufer, A.; Zíková, A. 2021: Bioenergetic consequences of FoF1-ATP synthase/ATPase deficiency in two life cycle stages of Trypanosoma brucei. Journal of Biological Chemistry 296: 100357
Bettinazzi, S.; Milani, L.; Blier, P.U.; Breton, S. 2021: Bioenergetic consequences of sex-specific mitochondrial DNA evolution. PROCEEDINGS. Biological Sciences 288(1957): 20211585
Chang, L.; Liu, X.; Diggle, C.P.; Boyle, J.P.; Hopkins, P.M.; Shaw, M.-A.; Allen, P.D. 2020: Bioenergetic defects in muscle fibers of RYR1 mutant knock-in mice associated with malignant hyperthermia. Journal of Biological Chemistry 295(45): 15226-15235
Sanchez-Aranguren, L.Carolina.; Ahmad, S.; Dias, I.H.K.; Alzahrani, F.A.; Rezai, H.; Wang, K.; Ahmed, A. 2020: Bioenergetic effects of hydrogen sulfide suppress soluble Flt-1 and soluble endoglin in cystathionine gamma-lyase compromised endothelial cells. Scientific Reports 10(1): 15810
Lai, N.; Kummitha, C.M.; Loy, F.; Isola, R.; Hoppel, C.L. 2020: Bioenergetic functions in subpopulations of heart mitochondria are preserved in a non-obese type 2 diabetes rat model (Goto-Kakizaki). Scientific Reports 10(1): 5444
Zmijewska, A.A.; Zmijewski, J.W.; Becker, E.J.; Benavides, G.A.; Darley-Usmar, V.; Mannon, R.B. 2021: Bioenergetic maladaptation and release of HMGB1 in calcineurin inhibitor-mediated nephrotoxicity. American Journal of Transplantation: Official Journal of the American Society of Transplantation and the American Society of Transplant Surgeons 21(9): 2964-2977
Perumal, N.; Straßburger, L.; Herzog, D.P.; Müller, M.B.; Pfeiffer, N.; Grus, F.H.; Manicam, C. 2020: Bioenergetic shift and actin cytoskeleton remodelling as acute vascular adaptive mechanisms to angiotensin Ii in murine retina and ophthalmic artery. Redox Biology 34: 101597
Shen, Y.; Kapfhamer, D.; Minnella, A.M.; Kim, J-Eun.; Won, S.Joon.; Chen, Y.; Huang, Y.; Low, L.Hian.; Massa, S.M.; Swanson, R.A. 2017: Bioenergetic state regulates innate inflammatory responses through the transcriptional co-repressor CtBP. Nature Communications 8(1): 624
Noda, Y. 1985: Bioenergetics. Kangogaku Zasshi 49(7): 835
Kang, S.W.S.; Fu, D. 2019: Bioenergetics for Hepatocyte Polarization: Coordination of Multiple Cellular Organelles and the Master Regulator AMPK. Critical Reviews in Eukaryotic Gene Expression 29(5): 483-497
Correa, I.T.S.; da Costa-Silva, T.A.; Tempone, A.G. 2021: Bioenergetics impairment of Trypanosoma cruzi by the antihypertensive manidipine: a drug repurposing strategy. Acta Tropica 214: 105768
Kajimura, S. 2021: Bioenergetics matter to metabolic health-from a fat progenitor view. Cell Stem Cell 28(4): 589-591
Goussen, B.; Rendal, C.; Sheffield, D.; Butler, E.; Price, O.R.; Ashauer, R. 2020: Bioenergetics modelling to analyse and predict the joint effects of multiple stressors: Meta-analysis and model corroboration. Science of the Total Environment 749: 141509
Colosio, A.L.; Caen, K.; Bourgois, J.G.; Boone, J.; Pogliaghi, S. 2020: Bioenergetics of the VO2 slow component between exercise intensity domains. Pflugers Archiv: European Journal of Physiology 472(10): 1447-1456
Alexander, R.M. 1999: Bioenergetics. One price to run, swim or fly?. Nature 397(6721): 651-653
Williams, R.J. 1995: Bioenergetics. Purpose of proton pathways. Nature 376(6542): 643
Rousseau, D.L. 1999: Bioenergetics. Two phases of proton translocation. Nature 400(6743): 412-413
Agmon, N.; Gutman, M. 2011: Bioenergetics: Proton fronts on membranes. Nature Chemistry 3(11): 840-842
Koondhar, M.A.; Tan, Z.; Alam, G.M.; Khan, Z.A.; Wang, L.; Kong, R. 2021: Bioenergy consumption, carbon emissions, and agricultural bioeconomic growth: a systematic approach to carbon neutrality in China. Journal of Environmental Management 296: 113242
Zhu, Q.-L.; Wu, B.; Pisutpaisal, N.; Wang, Y.-W.; Ma, K.-D.; Dai, L.-C.; Qin, H.; Tan, F.-R.; Maeda, T.; Xu, Y.-S.; Hu, G.-Q.; He, M.-X. 2021: Bioenergy from dairy manure: technologies, challenges and opportunities. Science of the Total Environment 790: 148199
Liu, S.; Feng, X.; Xue, H.; Qiu, D.; Huang, Z.; Wang, N. 2021: Bioenergy generation and nitrogen removal in a novel ecological-microbial fuel cell. Chemosphere 278: 130450
Kang, Y.; Yang, Q.; Bartocci, P.; Wei, H.; Liu, S.S.; Wu, Z.; Zhou, H.; Yang, H.; Fantozzi, F.; Chen, H. 2020: Bioenergy in China: Evaluation of domestic biomass resources and the associated greenhouse gas mitigation potentials. Renewable and Sustainable Energy Reviews 127: 109842
Butterbach-Bahl, K.; Kiese, R. 2013: Bioenergy: Biofuel production on the margins. Nature 493(7433): 483-485
Das, P.; DiVito, M.D.; Wertheim, J.A.; Tan, L.P. 2021: Bioengineered 3D electrospun nanofibrous scaffold with human liver cells to study alcoholic liver disease in vitro. Integrative Biology: Quantitative Biosciences from Nano to Macro 13(7): 184-195
Osuna de la Peña, D.; Trabulo, S.Maria.David.; Collin, E.; Liu, Y.; Sharma, S.; Tatari, M.; Behrens, D.; Erkan, M.; Lawlor, R.T.; Scarpa, A.; Heeschen, C.; Mata, A.; Loessner, D. 2021: Bioengineered 3D models of human pancreatic cancer recapitulate in vivo tumour biology. Nature Communications 12(1): 5623
Jayasree, A.; Kottappally Thankappan, S.; Ramachandran, R.; Sundaram, M.N.; Chen, C.-H.; Mony, U.; Chen, J.-P.; Jayakumar, R. 2019: Bioengineered Braided Micro-Nano (Multiscale) Fibrous Scaffolds for Tendon Reconstruction. Acs Biomaterials Science and Engineering 5(3): 1476-1486
Miles, J.; Andre, M.; Caobi, A.; Ruiz, M.; Nair, M.; Raymond, A.D. 2020: Bioengineered Exosomal Extracellular Vesicles in Cancer Therapeutics. Critical Reviews in Biomedical Engineering 48(3): 177-187
Aravind, M.K.; Kappen, J.; Varalakshmi, P.; John, S.A.; Ashokkumar, B. 2020: Bioengineered Graphene Oxide Microcomposites Containing Metabolically Versatile Paracoccus sp. MKU1 for Enhanced Catechol Degradation. Acs Omega 5(27): 16752-16761
Heidary Rouchi, A. 2021: Bioengineered Kidney, Still a Long way to go. Iranian Journal of Kidney Diseases 15(3): 238-241
Cho, H.-J.; Kim, H.-J.; Lee, K.; Lasli, S.; Ung, A.; Hoffman, T.; Nasiri, R.; Bandaru, P.; Ahadian, S.; Dokmeci, M.R.; Lee, J.; Khademhosseini, A. 2021: Bioengineered Multicellular Liver Microtissues for Modeling Advanced Hepatic Fibrosis Driven Through Non-Alcoholic Fatty Liver Disease. Small 17(14): E2007425
Serrano-Mendioroz, I.; Sampedro, A.; Serna, N.; de Salamanca, R.Enríquez.; Sanz-Parra, A.; Corrales, F.; Berraondo, P.; Millet, O.; Fontanellas, A. 2018: Bioengineered PBGD variant improves the therapeutic index of gene therapy vectors for acute intermittent porphyria. Human Molecular Genetics 27(21): 3688-3696
Cheng, K.; Zhao, R.; Li, Y.; Qi, Y.; Wang, Y.; Zhang, Y.; Qin, H.; Qin, Y.; Chen, L.; Li, C.; Liang, J.; Li, Y.; Xu, J.; Han, X.; Anderson, G.J.; Shi, J.; Ren, L.; Zhao, X.; Nie, G. 2021: Bioengineered bacteria-derived outer membrane vesicles as a versatile antigen display platform for tumor vaccination via Plug-and-Display technology. Nature Communications 12(1): 2041
Gujrati, V.; Prakash, J.; Malekzadeh-Najafabadi, J.; Stiel, A.; Klemm, U.; Mettenleiter, G.; Aichler, M.; Walch, A.; Ntziachristos, V. 2019: Bioengineered bacterial vesicles as biological nano-heaters for optoacoustic imaging. Nature Communications 10(1): 1114
Gujrati, V.; Ntziachristos, V. 2021: Bioengineered bacterial vesicles for optoacoustics-guided phototherapy. Methods in Enzymology 657: 349-364
Saini, A.Kumar.; Radu, T.; Paritosh, K.; Kumar, V.; Pareek, N.; Tripathi, D.; Vivekanand, V. 2021: Bioengineered bioreactors: a review on enhancing biomethane and biohydrogen production by CFD modeling. Bioengineered 12(1): 6418-6433
Xu, Y.; Guo, Z.; Liu, R.; Wang, H.; Wang, S.; Weder, W.; Pan, Y.; Wu, J.; Zhao, H.; Luo, Q.; Tan, Q. 2020: Bioengineered carina reconstruction using In-Vivo Bioreactor technique in human: proof of concept study. Translational Lung Cancer Research 9(3): 705-712
Chambre, L.; Martín-Moldes, Z.; Parker, R.N.; Kaplan, D.L. 2020: Bioengineered elastin- and silk-biomaterials for drug and gene delivery. Advanced Drug Delivery Reviews 160: 186-198
Girgin, M.U.; Broguiere, N.; Hoehnel, S.; Brandenberg, N.; Mercier, B.; Arias, A.Martinez.; Lutolf, M.P. 2021: Bioengineered embryoids mimic post-implantation development in vitro. Nature Communications 12(1): 5140
Nayak, D.; Thathapudi, N.C.; Ashe, S.; Nayak, B. 2021: Bioengineered ethosomes encapsulating AgNPs and Tasar silk sericin proteins for non melanoma skin carcinoma (NMSC) as an alternative therapeutics. International Journal of Pharmaceutics 596: 120265
Lazar, S.; Mor, S.; Chen, J.; Hao, D.; Wang, A. 2021: Bioengineered extracellular vesicle-loaded bioscaffolds for therapeutic applications in regenerative medicine. Extracellular Vesicles and Circulating Nucleic Acids 2: 175-178
Fleming, J.W.; Capel, A.J.; Rimington, R.P.; Wheeler, P.; Leonard, A.N.; Bishop, N.C.; Davies, O.G.; Lewis, M.P. 2020: Bioengineered human skeletal muscle capable of functional regeneration. Bmc Biology 18(1): 145
Steinstraesser, L.; Al-Benna, S.; Kesting, M.; Jacobsen, F. 2009: Bioengineered human skin: working the bugs out. Molecular Therapy: the Journal of the American Society of Gene Therapy 17(3): 405-408
Sundarakrishnan, A.; Zukas, H.; Coburn, J.; Bertini, B.T.; Liu, Z.; Georgakoudi, I.; Baugh, L.; Dasgupta, Q.; Black, L.D.; Kaplan, D.L. 2019: Bioengineered in Vitro Tissue Model of Fibroblast Activation for Modeling Pulmonary Fibrosis. Acs Biomaterials Science and Engineering 5(5): 2417-2429
Chakraborty, J.; Banerjee, I.; Vaishya, R.; Ghosh, S. 2020: Bioengineered in Vitro Tissue Models to Study SARS-CoV-2 Pathogenesis and Therapeutic Validation. Acs Biomaterials Science and Engineering 6(12): 6540-6555
Fernández-Costa, J.M.; Fernández-Garibay, X.; Velasco-Mallorquí, F.; Ramón-Azcón, J. 2021: Bioengineered in vitro skeletal muscles as new tools for muscular dystrophies preclinical studies. Journal of Tissue Engineering 12: 2041731420981339
Jansen, J.; Fedecostante, M.; Wilmer, M.J.; Peters, J.G.; Kreuser, U.M.; van den Broek, P.H.; Mensink, R.A.; Boltje, T.J.; Stamatialis, D.; Wetzels, J.F.; van den Heuvel, L.P.; Hoenderop, J.G.; Masereeuw, R. 2016: Bioengineered kidney tubules efficiently excrete uremic toxins. Scientific Reports 6: 26715
Harrington, M. 2013: Bioengineered kidneys at work in rats. Lab Animal 42(6): 185
Lu, H.; Yadav, V.; Zhong, M.; Bilal, M.; Taherzadeh, M.J.; Iqbal, H.M.N. 2022: Bioengineered microbial platforms for biomass-derived biofuel production - a review. Chemosphere 288(Part 2): 132528
Augustine, R.; Aqel, A.H.; Kalva, S.N.; Joshy, K.S.; Nayeem, A.; Hasan, A. 2021: Bioengineered microfluidic blood-brain barrier models in oncology research. Translational Oncology 14(7): 101087
Rimington, R.P.; Fleming, J.W.; Capel, A.J.; Wheeler, P.C.; Lewis, M.P. 2021: Bioengineered model of the human motor unit with physiologically functional neuromuscular junctions. Scientific Reports 11(1): 11695
Vila, O.F.; Chavez, M.; Ma, S.P.; Yeager, K.; Zholudeva, L.V.; Colón-Mercado, J.M.; Qu, Y.; Nash, T.R.; Lai, C.; Feliciano, C.M.; Carter, M.; Kamm, R.D.; Judge, L.M.; Conklin, B.R.; Ward, M.E.; McDevitt, T.C.; Vunjak-Novakovic, G. 2021: Bioengineered optogenetic model of human neuromuscular junction. Biomaterials 276: 121033
Tuladhar, S.R.; Mulderrig, S.; Della Barbera, M.; Vedovelli, L.; Bottigliengo, D.; Tessari, C.; Jockenhoevel, S.; Gregori, D.; Thiene, G.; Korossis, S.; Mela, P.; Iop, L.; Gerosa, G. 2021: Bioengineered percutaneous heart valves for transcatheter aortic valve replacement: a comparative evaluation of decellularised bovine and porcine pericardia. Materials Science and Engineering. C Materials for Biological Applications 123: 111936
Resto Irizarry, A.M.; Nasr Esfahani, S.; Fu, J. 2020: Bioengineered pluripotent stem cell models: new approaches to explore early human embryo development. Current Opinion in Biotechnology 66: 52-58
González-Miró, M.; Rodríguez-Noda, L.M.; Fariñas-Medina, M.; Cedré-Marrero, B.; Madariaga-Zarza, S.; Zayas-Vignier, C.; Hernández-Cedeño, M.; Kleffmann, T.; García-Rivera, D.; Vérez-Bencomo, V.; Rehm, B.H.A. 2018: Bioengineered polyester beads co-displaying protein and carbohydrate-based antigens induce protective immunity against bacterial infection. Scientific Reports 8(1): 1888
Pagella, P.; Cordiale, A.; Marconi, G.D.; Trubiani, O.; Rasponi, M.; Mitsiadis, T.A. 2021: Bioengineered tooth emulation systems for regenerative and pharmacological purposes. European Cells and Materials 41: 502-516
Zhao, Y.; Qiao, S.; Hou, X.; Tian, H.; Deng, S.; Ye, K.; Nie, Y.; Chen, X.; Yan, H.; Tian, W. 2019: Bioengineered tumor microenvironments with naked mole rats high-molecular-weight hyaluronan induces apoptosis in breast cancer cells. Oncogene 38(22): 4297-4309
Mahdavi, S.S.; Abdekhodaie, M.J.; Mashayekhan, S.; Baradaran-Rafii, A.; Djalilian, A.R. 2020: Bioengineering Approaches for Corneal Regenerative Medicine. Tissue Engineering and Regenerative Medicine 17(5): 567-593
Yi, S.A.; Zhang, Y.; Rathnam, C.; Pongkulapa, T.; Lee, K.-B. 2021: Bioengineering Approaches for the Advanced Organoid Research. Advanced Materials 33(45): E2007949
Luo, L.; Zang, G.; Liu, B.; Qin, X.; Zhang, Y.; Chen, Y.; Zhang, H.; Wu, W.; Wang, G. 2021: Bioengineering CXCR4-overexpressing cell membrane functionalized ROS-responsive nanotherapeutics for targeting cerebral ischemia-reperfusion injury. Theranostics 11(16): 8043-8056
Darling, N.J.; Mobbs, C.L.; González-Hau, A.L.; Freer, M.; Przyborski, S. 2020: Bioengineering Novel in vitro Co-culture Models that Represent the Human Intestinal Mucosa with Improved Caco-2 Structure and Barrier Function. Frontiers in Bioengineering and Biotechnology 8: 992
Chingale, M.; Zhu, D.; Cheng, K.; Huang, K. 2021: Bioengineering Technologies for Cardiac Regenerative Medicine. Frontiers in Bioengineering and Biotechnology 9: 681705
Fan, Y.; Tajima, A.; Goh, S.Kia.; Geng, X.; Gualtierotti, G.; Grupillo, M.; Coppola, A.; Bertera, S.; Rudert, W.A.; Banerjee, I.; Bottino, R.; Trucco, M. 2015: Bioengineering Thymus Organoids to Restore Thymic Function and Induce Donor-Specific Immune Tolerance to Allografts. Molecular Therapy: the Journal of the American Society of Gene Therapy 23(7): 1262-1277
Dikici, S.; Claeyssens, F.; MacNeil, S. 2020: Bioengineering Vascular Networks to Study Angiogenesis and Vascularization of Physiologically Relevant Tissue Models in Vitro. Acs Biomaterials Science and Engineering 6(6): 3513-3528
Lee, J.W.; Parlane, N.A.; Wedlock, D.Neil.; Rehm, B.H.A. 2017: Bioengineering a bacterial pathogen to assemble its own particulate vaccine capable of inducing cellular immunity. Scientific Reports 7: 41607
Ziv, K.; Gambhir, S.S. 2013: Bioengineering and regenerative medicine: keeping track. Nature Materials 12(3): 180-181
Ly, O.T.; Brown, G.E.; Han, Y.D.; Darbar, D.; Khetani, S.R. 2021: Bioengineering approaches to mature induced pluripotent stem cell-derived atrial cardiomyocytes to model atrial fibrillation. Experimental Biology and Medicine 246(16): 1816-1828
Van de Steen, A.; Khalife, R.; Colant, N.; Mustafa Khan, H.; Deveikis, M.; Charalambous, S.; Robinson, C.M.; Dabas, R.; Esteban Serna, S.; Catana, D.A.; Pildish, K.; Kalinovskiy, V.; Gustafsson, K.; Frank, S. 2021: Bioengineering bacterial encapsulin nanocompartments as targeted drug delivery system. Synthetic and Systems Biotechnology 6(3): 231-241
Barbenel, J.C.; Paul, J.P. 1992: Bioengineering developments for paraplegic patients. Paraplegia 30(1): 61-64
Orsu, P.; Haider, H.Y.; Koyyada, A. 2021: Bioengineering for curcumin loaded carboxymethyl guargum/reduced graphene oxide nanocomposites for chronic wound healing applications. International Journal of Pharmaceutics 606: 120928
Gualtieri, T.; Taboni, S.; Ferrari, M.; Gilbert, R. 2021: Bioengineering for head and neck reconstruction: the role of customized flaps. Current Opinion in Otolaryngology and Head and Neck Surgery 29(2): 156-160
Kobayashi, M.; Khalil, H.A.; Lei, N.Ye.; Wang, Q.; Wang, K.; Wu, B.M.; Dunn, J.C.Y. 2018: Bioengineering functional smooth muscle with spontaneous rhythmic contraction in vitro. Scientific Reports 8(1): 13544
Gupta, A.; Lutolf, M.P.; Hughes, A.J.; Sonnen, K.F. 2021: Bioengineering in vitro models of embryonic development. Stem Cell Reports 16(5): 1104-1116
Swaminathan, V.; Bryant, B.R.; Tchantchaleishvili, V.; Rajab, T.Konrad. 2020: Bioengineering lungs - current status and future prospects. Expert Opinion on Biological Therapy 2020: 1-7
Zubizarreta, M.E.; Xiao, S. 2020: Bioengineering models of female reproduction. Bio-Design and Manufacturing 3(3): 237-251
Gorain, C.; Khan, A.; Singh, A.; Mondal, S.; Mallick, A.I. 2021: Bioengineering of LAB vector expressing Haemolysin co-regulated protein (Hcp): a strategic approach to control gut colonization of Campylobacter jejuni in a murine model. Gut Pathogens 13(1): 48
Kumar, G.; Shekh, A.; Jakhu, S.; Sharma, Y.; Kapoor, R.; Sharma, T.R. 2020: Bioengineering of Microalgae: Recent Advances, Perspectives, and Regulatory Challenges for Industrial Application. Frontiers in Bioengineering and Biotechnology 8: 914
Rajamani, S.; Kuszpit, K.; Scarff, J.M.; Lundh, L.; Khan, M.; Brown, J.; Stafford, R.; Cazares, L.H.; Panchal, R.G.; Bocan, T. 2018: Bioengineering of bacterial pathogens for noninvasive imaging and in vivo evaluation of therapeutics. Scientific Reports 8(1): 12618
Kitano, K.; Schwartz, D.M.; Zhou, H.; Gilpin, S.E.; Wojtkiewicz, G.R.; Ren, X.; Sommer, C.A.; Capilla, A.V.; Mathisen, D.J.; Goldstein, A.M.; Mostoslavsky, G.; Ott, H.C. 2017: Bioengineering of functional human induced pluripotent stem cell-derived intestinal grafts. Nature Communications 8(1): 765
Zhao, S.; Xu, Z.; Wang, H.; Reese, B.E.; Gushchina, L.V.; Jiang, M.; Agarwal, P.; Xu, J.; Zhang, M.; Shen, R.; Liu, Z.; Weisleder, N.; He, X. 2016: Bioengineering of injectable encapsulated aggregates of pluripotent stem cells for therapy of myocardial infarction. Nature Communications 7: 13306
Chong, G.; Zang, J.; Han, Y.; Su, R.; Weeranoppanant, N.; Dong, H.; Li, Y. 2021: Bioengineering of nano metal-organic frameworks for cancer immunotherapy. Nano Research 14(5): 1244-1259
Li, C.; Kitzerow, O.; Nie, F.; Dai, J.; Liu, X.; Carlson, M.A.; Casale, G.P.; Pipinos, I.I.; Li, X. 2021: Bioengineering strategies for the treatment of peripheral arterial disease. Bioactive Materials 6(3): 684-696
Madl, C.M.; Heilshorn, S.C.; Blau, H.M. 2018: Bioengineering strategies to accelerate stem cell therapeutics. Nature 557(7705): 335-342
Thomas, F.; Schmidt, C.; Kayser, O. 2020: Bioengineering studies and pathway modeling of the heterologous biosynthesis of tetrahydrocannabinolic acid in yeast. Applied Microbiology and Biotechnology 104(22): 9551-9563
Bessy, T.; Itkin, T.; Passaro, D. 2021: Bioengineering the Bone Marrow Vascular Niche. Frontiers in Cell and Developmental Biology 9: 645496
Naumova, N.; Iop, L. 2021: Bioengineering the Cardiac Conduction System: Advances in Cellular, Gene, and Tissue Engineering for Heart Rhythm Regeneration. Frontiers in Bioengineering and Biotechnology 9: 673477
Bhattacharya, S.; Calar, K.; Evans, C.; Petrasko, M.; de la Puente, P. 2020: Bioengineering the Oxygen-Deprived Tumor Microenvironment Within a Three-Dimensional Platform for Studying Tumor-Immune Interactions. Frontiers in Bioengineering and Biotechnology 8: 1040
Bitar, K.N.; Zakhem, E. 2016: Bioengineering the gut: future prospects of regenerative medicine. Nature Reviews. Gastroenterology and Hepatology 13(9): 543-556
Zhang, L.; Hui, L. 2017: Bioengineering: Bile ducts regenerated. Nature 547(7662): 171-172
Burdick, J.A. 2009: Bioengineering: Cellular control in two clicks. Nature 460(7254): 469-470
Dolgin, E. 2017: Bioengineering: Doing without donors. Nature 549(7673): S12-S15
Dovrat, D.; Aharoni, A. 2016: Bioengineering: Evolved to overcome Bt-toxin resistance. Nature 533(7601): 39-40
Allison, S.J. 2017: Bioengineering: Kidney glomerulus-on-a-chip. Nature Reviews. Nephrology 13(7): 382
Bourzac, K. 2017: Bioengineering: Solar upgrade. Nature 544(7651): S11-S13
Sanderson, K. 2010: Bioengineering: What to make with DNA origami. Nature 464(7286): 158-159
Ligler, F.S.; Erickson, J.S. 2006: Bioengineering: diagnosis on disc. Nature 440(7081): 159-160
Hayden, E.Check. 2011: Bioengineers debate use of military money. Nature 479(7374): 458
Ledford, H. 2013: Bioengineers look beyond patents. Nature 499(7456): 16-17
Grushkin, D. 2012: Bioengingeering bacteria for a cure--it's not that easy. Nature Medicine 18(10): 1454
Hnatko, J.P.; Yang, L.; Pennell, K.D.; Abriola, L.M.; Cápiro, N.L. 2020: Bioenhanced back diffusion and population dynamics of Dehalococcoides mccartyi strains in heterogeneous porous media. Chemosphere 254: 126842
Persidis, A. 1998: Bioentrepreneurship around the world. Nature Biotechnology 16 Suppl: 3-4
Li, Q.; Jia, L.; Hu, W.; Dong, S.; Cai, C. 2021: Bioequivalence Evaluation of two Formulations of Tenofovir Alafenamide Tablets in Healthy Subjects Under Fasting and Fed Conditions. Drug Design Development and Therapy 15: 2551-2562
Li, Y.; Ming, J.E.; Kong, F.; Yin, H.; Zhang, L.; Bai, H.; Liu, H.; Qi, L.; Wang, Y.; Xie, F.; Yang, N.; Ping, C.; Li, Y.; Chen, L.; Han, C.; Liu, J.; Wang, X. 2020: Bioequivalence Study Comparing Fixed-Dose Combination of Clopidogrel and Aspirin with Coadministration of Individual Formulations in Chinese Subjects Under Fed Conditions: a Phase I, Open-Label, Randomized, Crossover Study. Advances in Therapy 37(11): 4660-4674
Hung, N.A.; Costa, F.G.; Hung, C.-T.; Rosenberg, M.ón.E. 2020: Bioequivalence Study of 2 Capsule Formulations of Fingolimod 0.5 mg Assessing Both Parent Drug and Active Metabolite in New Zealand Healthy Subjects (Truncated Design). Clinical Pharmacology in Drug Development 9(5): 610-620
Zhai, Y.; Wu, L.; Zheng, Y.; Wu, M.; Huang, Y.; Huang, Q.; Shentu, J.; Zhao, Q.; Liu, J. 2020: Bioequivalence Study of Amitriptyline Hydrochloride Tablets in Healthy Chinese Volunteers Under Fasting and Fed Conditions. Drug Design Development and Therapy 14: 3131-3142
Lv, Y.; Luo, B.-Y.; LaBadie, R.R.; Zhu, H.; Feng, Y.; Ernst, C.; Crownover, P.H.; Liang, Y.; Zhao, Q. 2020: Bioequivalence and Bioavailability of an Orodispersible Tablet of Sildenafil Citrate in Healthy Chinese Male Subjects. Clinical Pharmacology in Drug Development 9(5): 573-581
Huang, X.-M.; Wang, G.-Z.; He, B.-B.; Gao, T.; Long, P.; Zhang, B.-K. 2020: Bioequivalence and Pharmacokinetic Evaluation of two Metformin Hydrochloride Tablets Under Fasting and Fed Conditions in Healthy Chinese Volunteers. Clinical Pharmacology in Drug Development 9(8): 910-917
Zhang, Q.; Wang, Z.; Wu, J.; Zhou, Z.; Zhou, R.; Hu, W. 2021: Bioequivalence and Pharmacokinetic Evaluation of two Oral Formulations of Regorafenib: An Open-Label, Randomised, Single-Dose, Two-Period, Two-Way Crossover Clinical Trial in Healthy Chinese Volunteers Under Fasting and Fed Conditions. Drug Design Development and Therapy 15: 3277-3288
Wang, M.-N.; Yu, H.-T.; Li, Y.-Q.; Zeng, Y.; Yang, S.; Yang, G.-P.; Pei, Q.; Huang, J. 2021: Bioequivalence and Pharmacokinetic Profiles of Generic and Branded Obeticholic Acid in Healthy Chinese Subjects Under Fasting and Fed Conditions. Drug Design Development and Therapy 15: 185-193
Cárdenas, K.P.C.; Velázquez, J.E.ía.R.; Escobar, J.J.ús.O.; Chirinos, J.; Pendela, M. 2020: Bioequivalence and Tolerability of Ambrisentan: a Pharmacokinetic Study in Mexican Healthy Male Subjects. European Journal of Drug Metabolism and Pharmacokinetics 45(5): 611-618
Csonka, D.én.; Fishman, V.; Natarajan, J.; Stieltjes, H.; Armas, D.; Dishy, V.; Perez Ruixo, J.J. 2021: Bioequivalence and food effect of a fixed-dose combination of macitentan and tadalafil: Adaptive design in the COVID-19 pandemic. Pharmacology Research and Perspectives 9(5): E00846
Chang, C.T.; Ang, J.Y.; Wong, J.M.; Tan, S.S.; Chin, S.K.; Lim, A.B.; Tan, W.H.; Yuen, K.H. 2020: Bioequivalence and pharmacokinetic comparison of two fixed dose combination of Metformin/ Glibenclamide formulations in healthy subjects under fed condition. Medical Journal of Malaysia 75(3): 286-291
Schellekens, H. 2002: Bioequivalence and the immunogenicity of biopharmaceuticals. Nature Reviews. Drug Discovery 1(6): 457-462
Hwang, D.; Vinod, N.; Skoczen, S.L.; Ramsey, J.D.; Snapp, K.S.; Montgomery, S.A.; Wang, M.; Lim, C.; Frank, J.E.; Sokolsky-Papkov, M.; Li, Z.; Yuan, H.; Stern, S.T.; Kabanov, A.V. 2021: Bioequivalence assessment of high-capacity polymeric micelle nanoformulation of paclitaxel and Abraxane® in rodent and non-human primate models using a stable isotope tracer assay. Biomaterials 278: 121140
Sandell, D. 2021: Bioequivalence assessment of pharmaceutical aerosol products through IVIVC. Advanced Drug Delivery Reviews 176: 113895
Linnebjerg, H.; LaBell, E.S.; Dellva, M.A.; Coutant, D.E.; Leohr, J. 2020: Bioequivalence of Ultra Rapid Lispro (URLi) U100 and U200 Formulations in Healthy Subjects. Diabetes Therapy: Research Treatment and Education of Diabetes and Related Disorders 11(8): 1709-1720
Yu, M.; Li, X.; Jin, H.; Chen, L.; Wang, N.; Wang, H.; Cao, Y.; Sui, X.; Gao, X.; Yang, H.; Wang, W. 2021: Bioequivalence of a Generic Nateglinide Formulation in Healthy Chinese Volunteers under Fasting and Fed Conditions: a Randomized, Open-Label, Double-Cycle, Double-Crossover Study. Pharmacology 106(7-8): 418-425
Zhao, Y.; Chen, K.; Ramia, N.; Sahu, S.; Kumar, A.; Naylor, M.L.; Zhu, L.; Naik, H.; Butts, C.é L. 2021: Bioequivalence of intramuscular and subcutaneous peginterferon beta-1a: results of a phase I, open-label crossover study in healthy volunteers. Therapeutic Advances in Neurological Disorders 14: 1756286420975227
Li, X.; Wang, C.; Li, T.; Liu, Y.; Liu, S.; Tao, Y.; Ma, Y.; Gao, X.; Cao, Y. 2020: Bioequivalence of levamlodipine besylate tablets in healthy Chinese subjects: a single-dose and two-period crossover randomized study. Bmc Pharmacology and Toxicology 21(1): 80
Amidon, K.S.; Langguth, P.; Lennernäs, H.; Yu, L.; Amidon, G.L. 2011: Bioequivalence of oral products and the biopharmaceutics classification system: science, regulation, and public policy. Clinical Pharmacology and Therapeutics 90(3): 467-470
Shiba, S.; Sekino, H.; Ishiba, K.; Yasuda, S.; Inoue, S.; Kotaka, K.; Reyderman, L.; Uchida, N. 2020: Bioequivalence of perampanel fine granules and tablets in healthy Japanese subjects. International Journal of Clinical Pharmacology and Therapeutics 58(12): 757-764
Bender, F.; Aronson, L.; Hougie, C.; Moser, K. 1980: Bioequivalence of subcutaneous calcium and sodium heparins. Clinical Pharmacology and Therapeutics 27(2): 224-229
Shin, W.; Yang, A.-Y.; Yun, H.; Cho, D.-Y.; Park, K.H.; Shin, H.; Kim, A. 2020: Bioequivalence of the pharmacokinetics between tofacitinib aspartate and tofacitinib citrate in healthy subjects. Translational and Clinical Pharmacology 28(3): 160-167
Benfeldt, E.; Hansen, S.H.; Vølund, A.; Menné, T.; Shah, V.P. 2007: Bioequivalence of topical formulations in humans: evaluation by dermal microdialysis sampling and the dermatopharmacokinetic method. Journal of Investigative Dermatology 127(1): 170-178
Liu, Z.-Z.; Ren, Q.; Zhou, Y.-N.; Yang, H.-M. 2020: Bioequivalence of two esomeprazole magnesium enteric-coated formulations in healthy Chinese subjects. World Journal of Clinical Cases 8(22): 5518-5528
Zaoui, S.; Fadili, W. 2020: Bioequivalence studies in Morocco. Pan African Medical Journal 36: 279
Steinijans, V.W.; Sauter, R.; Jonkman, J.H.; Schulz, H.U.; Stricker, H.; Blume, H. 1989: Bioequivalence studies: single vs multiple dose. International Journal of Clinical Pharmacology Therapy and Toxicology 27(5): 261-266
Hu, C.; Lin, Q.; Liu, C.; Liu, J.; Chen, X.; Li, X.; Zhao, G.; Zhang, L. 2020: Bioequivalence study of 20-mg and 100-mg temozolomide capsules (TOZ309 and Temodal®) in glioma patients in China. Cancer ChemoTherapy and Pharmacology 86(6): 793-801
Zheng, J.; Chen, J.; Wu, J.; Yang, M.; Mai, L.; Yu, X.; Huang, M.; Zhong, G. 2020: Bioequivalence study of two formulations of memantine hydrochloride tablets in healthy male Chinese subjects under fasting and fed conditions. International Journal of Clinical Pharmacology and Therapeutics 58(10): 575-582
Li, Q.; Hao, Z.; Yu, Y.; Tang, Y. 2021: Bioequivalence study of two perindopril tert-butylamine tablet formulations in healthy Chinese subjects under fasting and fed conditions: a randomized, open-label, single-dose, crossover trial. Biomedicine and PharmacoTherapy 135: 111221
Christians, U.; Klawitter, J.; Clavijo, C.F. 2010: Bioequivalence testing of immunosuppressants: concepts and misconceptions. Kidney International. Supplement 2010(115): S1-S7
Washington, K.E.; Quiram, G.; Nguyen, A.; Kularatne, R.N.; Minary-Jolandan, M.; Zimmern, P.; Stefan, M.C. 2017: Bioerosion of Synthetic Sling Explants. Acs Biomaterials Science and Engineering 3(10): 2598-2605
Chauhan, N.M.; Hajare, S.T.; Mamo, B.; Madebo, A.A. 2021: Bioethanol Production from Stalk Residues of Chiquere and Gebabe Varieties of Sweet Sorghum. International Journal of Microbiology 2021: 6696254
Göncü, Bül.; Gülşen, H.; Zafer Hoşgün, E. 2021: Bioethanol production from pistachio ( pistacia vera L.) shells applying ozone pretreatment and subsequent enzymatic hydrolysis. Environmental Technology 2021: 1-14
Bonifacino, S.; Resquín, F.; Lopretti, M.; Buxedas, L.; Vázquez, S.; González, M.; Sapolinski, A.; Hirigoyen, A.és.; Doldán, J.; Rachid, C.; Carrasco-Letelier, L. 2021: Bioethanol production using high density Eucalyptus crops in Uruguay. Heliyon 7(1): E06031
de Araujo, L.Medeiros.; de Barros Prado Moura, Fávia. 2011: Bioethanol's dirty footprint in Brazil. Nature 469(7330): 299
Nwaefuna, A.E.; Rumbold, K.; Boekhout, T.; Zhou, N. 2021: Bioethanolic yeasts from dung beetles: tapping the potential of extremophilic yeasts for improvement of lignocellulolytic feedstock fermentation. Biotechnology for Biofuels 14(1): 86
Arawi, T. 2020: Bioethical Dilemmas in Conflict Zones: An Ethicist's Perspective Based on Lessons Learned from Gaza. Seminars in Nephrology 40(4): 421-428
Ospina Henao, S.án.; Marín Mora, A.; Chan Solano, F.; Ávila-Aguero, M.ía.L. 2020: Bioethical Implications in Vaccine Development, a COVID-19 Challenge. Cureus 12(9): E10530
Munir, M.A.; Tandiabang, P.A.; Setyawati, T.; Basry, A.; Cyio, A.D.; Rahman, N. 2021: Bioethical perspective of convalescent plasma therapy for COVID-19: a systematic review. Transfusion Clinique et Biologique: Journal de la Societe Francaise de Transfusion Sanguine 28(3): 271-275
Miller, J.E. 2013: Bioethical accreditation or rating needed to restore trust in pharma. Nature Medicine 19(3): 261
Turner, J.V.; McLindon, L.A. 2018: Bioethical and Moral Perspectives in Human Reproductive Medicine. Linacre Quarterly 85(4): 385-398
Motta, O.J.R.d.; Silva, E.ên.; Siqueira-Batista, R. 2020: Bioethical aspects of artificial intelligence: COVID-19 and end of life. Revista da Associacao Medica Brasileira 66Suppl 2(Suppl 2): 5-6
Pérez Rueda, M.; Palacios García-Cervigón, G. 2021: Bioethical challenges in clinical practice in the 21st century. Revista Clinica Espanola 221(7): 406-407
Wang, C.; Liu, Y.; Zhou, J. 2021: Bioethical considerations of cell-cultured meat. Sheng Wu Gong Cheng Xue Bao 37(2): 378-383
Floriani, C.A. 2021: Bioethical considerations on models for end-of-life care. Cadernos de Saude Publica 37(9): E00264320
Lin, C.A.; Grunspun, H.; Nazareth, J.C.; Oliveira, R.A.d. 2020: Bioethical principles and values during pandemics. Clinics 75: E2154
Motulsky, A.G. 1978: Bioethical problems in pharmacogenetics and ecogenetics. Human Genetics Suppl. 1: 185-192
Cherry, M.J. 2021: Bioethicist as Partisan Ideologue. American Journal of Bioethics: Ajob 21(6): 22-25
Gutmann, A.; Moreno, J.D. 2019: Bioethicists clarify mitochondrial-therapy ban. Nature 573(7773): 196
Silver, L.M. 1999: Bioethicists must come down to Earth. Nature 399(6738): 728
Matthews, S. 2013: Bioethicists propose routine randomization of therapy in clinics. Nature Medicine 19(3): 253
Westly, E. 2010: Bioethicists renew call for changes to prison research. Nature Medicine 16(1): 13
Fox, J.L. 1997: Bioethicists ruminate separately on clones, gene 'enhancements'. Nature Biotechnology 15(5): 406-407
Barwise, A.K.; Thorsteinsdottir, B.; Allyse, M.A.; Clarke, M.J.; Meagher, K.M. 2021: Bioethics Advocacy in Ethos, Practice and Metrics. American Journal of Bioethics: Ajob 21(2): 69-72
Fedyk, M.; Black, H.; Yarborough, M.; Fairman, N.; Wenger, N.S. 2020: Bioethics Emergencies Can Be Used to Perform a Real-World Test of Utilitarian Policies. American Journal of Bioethics: Ajob 20(7): 101-103
Meagher, K.M. 2021: Bioethics Theory-Building for Public Health. American Journal of Bioethics: Ajob 21(9): 53-56
Papalois, Z-Athena.; Papalois, K-Barbara. 2020: Bioethics and Environmental Ethics: The Story of the Human Body as a Natural Ecosystem. New Bioethics: a Multidisciplinary Journal of Biotechnology and the Body 26(2): 91-97
Ries, N.M.; Thomson, M. 2020: Bioethics and Universal Vulnerability: Exploring the Ethics and Practices of Research Participation. Medical Law Review 28(2): 293-316
Saha, S.; Saha, P. 1987: Bioethics and applied biomaterials. Journal of Biomedical Materials Research 21(Suppl. A2): 181-190
Williams, U.M.; Wszolek, Z.K. 2020: Bioethics and informatics in medical studies during the coronavirus disease 2019 pandemic. PolishArchivesofInternalMedicine 130(7-8): 719
Adams, S.; Lindeque, G.; Soma-Pillay, P. 2020: Bioethics and self-isolation: what about low-resource settings?. South African Medical Journal 110(5): 350-352
Novak, D. 1990: Bioethics and the contemporary Jewish community. Hastings Center Report 20(4): S14-S17
Kubheka, B.Z. 2020: Bioethics and the use of social media for medical crowdfunding. Bmc Medical Ethics 21(1): 96
Macneill, P.; Jordens, C.F.C.; Zion, D.; Dawson, A. 2021: Bioethics as Engaged Activity. American Journal of Bioethics: Ajob 21(2): 64-66
DeMichelis, C. 2021: Bioethics as Object of Study: Dilemmas of Immanence in Research Ethics Review. Ajob Empirical Bioethics 12(2): 137-143
Miller, F.G. 2020: Bioethics as a Vocation. Perspectives in Biology and Medicine 63(3): 429-443
Martins, V.; Santos, C.; Duarte, I. 2020: Bioethics education and the development of nursing students' moral competence. Nurse Education Today 95: 104601
Finegold, P. 2001: Bioethics for an educated debate. Nature Biotechnology 19(3): 197
Wolinsky, H. 2006: Bioethics for the world. Embo Reports 7(4): 354-358
Wolinsky, H. 2007: Bioethics goes global. A growing coalition of scientists, ethicists and wealthy benefactors is turning its attention to global health problems. Embo Reports 8(6): 534-536
Abbott, A. 1996: Bioethics group finds "no objection" to human gene patents. Nature 383(6599): 368
Medina-Arellano, M.ía.d.J.ús.; Palacios-González, C.és.; Santos-Preciado, J.é I. 2020: Bioethics guide on scarce medical resource allocation in Mexico. Salud Publica de Mexico 62(5): 607-609
Wang, L.; Wang, F.; Zhang, W. 2021: Bioethics in China's Biosecurity Law: forms, effects, and unsettled issues. Journal of Law and the Biosciences 8(1): Lsab 019
Sipp, D.; Pei, D. 2016: Bioethics in China: No wild east. Nature 534(7608): 465-467
Arguedas-Ramírez, G. 2021: Bioethics in the Times of Contagious Populism. Developing World Bioethics 21(1): 1-2
Ledesma, F.; Del Valle, M.; Cúneo, M.Martha.; Pérez Marc, G.; Martínez Perea, M.Del.Carmen.; Albano, L.; De Grandis, G.; Cudeiro, P.; Repetto, S.; Orsi, M.Clelia.; Cohen Agrest, D.; Selandari, J.; Barceló, A. 2020: Bioethics in times of pandemic. Archivos Argentinos de Pediatria 118(6): S183-S186
Lewis, J.; Schuklenk, U. 2021: Bioethics met its COVID-19 Waterloo: the doctor knows best again. Bioethics 35(1): 3-5
Lawen, A. 2003: Bioethics needs a distinct voice if it is to aid science. Nature 425(6960): 763
Soto-Lagos, R.A. 2018: Bioethics related to the use of sports in public health promoting policies. Revista de Salud Publica 20(5): 641-645
Ortiz-Millán, G.; Kissling, F. 2020: Bioethics training in reproductive health in Mexico. International Journal of Gynaecology and Obstetrics: the Official Organ of the International Federation of Gynaecology and Obstetrics 151(2): 308-313
Fabi, R.; Goldberg, D.S. 2021: Bioethics, (Funding) Priorities, and the Perpetuation of Injustice. American Journal of Bioethics: Ajob 2021: 1-14
Golder, B. 2021: Bioethics, Conscience, and Prudence in the time of COVID. Linacre Quarterly 88(2): 112-113
Bellver, V. 2020: Bioethics, Human Rights and COVID-19. Cuadernos de Bioetica: Revista Oficial de la Asociacion Espanola de Bioetica y Etica Medica 31(102): 167-182
Meeks, D.W. 2004: Bioethics, science, and politics. New England Journal of Medicine 351(3): 298-300; Author Reply 298-300
Mareiniss, D.P. 2004: Bioethics, science, and politics. New England Journal of Medicine 351(3): 298-300; Author Reply 298-300
Ikegaya, H. 2012: Bioethics: Tighten up Japan's stem-cell practices. Nature 489(7414): 33
Marris, E. 2006: Bioethics: an easy way out?. Nature 441(7093): 570-571
Pilcher, H. 2006: Bioethics: dial 'E' for ethics. Nature 440(7088): 1104-1105
McSorley, S.J. 2003: Bioethics: role of religion cannot be ignored. Nature 425(6960): 763
Neelam; Ahlawat, S.; Shankar, A.; Lather, A.; Khatkar, A.; Sharma, K.K. 2021: Bioevaluation and molecular docking analysis of novel phenylpropanoid derivatives as potent food preservative and anti-microbials. 3 Biotech 11(2): 70
Umbreen, H.; Javed, S.; Noreen, R.; Meraj, M. 2021: Bioevaluation of agro-waste for postprandial glucose and insulin concentration in blood. JPMA. Journal of the Pakistan Medical Association 71(3): 830-833
Cvjetinović, Đo.đe.; Prijović, Že.; Janković, D.; Radović, M.; Mirković, M.; Milanović, Z.; Mojović, M.š; Škalamera, Đa.; Vranješ-Đurić, S. 2021: Bioevaluation of glucose-modified liposomes as a potential drug delivery system for cancer treatment using 177-Lu radiotracking. Journal of Controlled Release: Official Journal of the Controlled Release Society 332: 301-311
Brovold, M.; Keller, D.; Devarasetty, M.; Dominijanni, A.; Shirwaiker, R.; Soker, S. 2021: Biofabricated 3D in vitro model of fibrosis-induced abnormal hepatoblast/biliary progenitors' expansion of the developing liver. Bioengineering and Translational Medicine 6(3): E10207
Wu, S.-R.; Chen, J.-L.; Wu, H.-C. 2020: Biofabricating a Silk Scaffold as a Functional Microbial Trap. Acs Biomaterials Science and Engineering 6(12): 7041-7050
Costantini, M.; Testa, S.; Fornetti, E.; Fuoco, C.; Sanchez Riera, C.; Nie, M.; Bernardini, S.; Rainer, A.; Baldi, J.; Zoccali, C.; Biagini, R.; Castagnoli, L.; Vitiello, L.; Blaauw, B.; Seliktar, D.; Święszkowski, W.; Garstecki, P.; Takeuchi, S.; Cesareni, G.; Cannata, S.; Gargioli, C. 2021: Biofabricating murine and human myo-substitutes for rapid volumetric muscle loss restoration. EMBO molecular medicine 13(3): e12778
Reakasame, S.; Jin, A.; Zheng, K.; Qu, M.; Boccaccini, A.R. 2020: Biofabrication and Characterization of Alginate Dialdehyde-Gelatin Microcapsules Incorporating Bioactive Glass for Cell Delivery Application. Macromolecular Bioscience 20(10): E2000138
Liu, X.; Zheng, M.; Wang, X.; Luo, X.; Hou, M.; Yue, O. 2020: Biofabrication and Characterization of Collagens with Different Hierarchical Architectures. Acs Biomaterials Science and Engineering 6(1): 739-748
Bersini, S.; Francescato, R.; Moretti, M. 2022: Biofabrication of 3D Human Muscle Model with Vascularization and Endomysium. Methods in Molecular Biology 2373: 213-230
Jiao, Y.; Wang, X.; Chen, J.-H. 2021: Biofabrication of AuNPs using Coriandrum sativum leaf extract and their antioxidant, analgesic activity. Science of the Total Environment 767: 144914
Soto-Cruz, J.; Conejo-Valverde, P.; Sáenz-Arce, G.; Dou, H.; Rojas-Carrillo, O. 2021: Biofabrication of Gold Nanotriangles Using Liposomes as a Dual Functional Reductant and Stabilizer. Langmuir: the Acs Journal of Surfaces and Colloids 37(11): 3446-3455
Nulty, J.; Burdis, R.; Kelly, D.J. 2021: Biofabrication of Prevascularised Hypertrophic Cartilage Microtissues for Bone Tissue Engineering. Frontiers in Bioengineering and Biotechnology 9: 661989
Roy, V.; Lamontagne, R.ém.; Talagas, M.; Touzel-Deschênes, L.; Khuong, H.él.èn.T.; Saikali, S.ép.; Dupré, N.; Gros-Louis, F.ço. 2021: Biofabrication of a three dimensional human-based personalized neurofibroma model. Biotechnology Journal 16(6): E2000250
Parfenov, V.A.; Koudan, E.V.; Krokhmal, A.A.; Annenkova, E.A.; Petrov, S.V.; Pereira, F.D.A.S.; Karalkin, P.A.; Nezhurina, E.K.; Gryadunova, A.A.; Bulanova, E.A.; Sapozhnikov, O.A.; Tsysar, S.A.; Liu, K.; Oosterwijk, E.; van Beuningen, H.; van der Kraan, P.; Granneman, S.; Engelkamp, H.; Christianen, P.; Kasyanov, V.; Khesuani, Y.D.; Mironov, V.A. 2020: Biofabrication of a Functional Tubular Construct from Tissue Spheroids Using Magnetoacoustic Levitational Directed Assembly. Advanced Healthcare Materials 9(24): E2000721
Otto, I.A.; Capendale, P.E.; Garcia, J.P.; de Ruijter, M.; van Doremalen, R.F.M.; Castilho, M.; Lawson, T.; Grinstaff, M.W.; Breugem, C.C.; Kon, M.; Levato, R.; Malda, J. 2021: Biofabrication of a shape-stable auricular structure for the reconstruction of ear deformities. Materials Today. Bio 9: 100094
Lakkireddy, C.; Vishwakarma, S.K.; Bardia, A.; Raju, N.; Ahmed, S.I.; Fathima, S.M.; Annamaneni, S.; Khan, A.A. 2021: Biofabrication of allogenic bone grafts using cellularized amniotic scaffolds for application in efficient bone healing. Tissue and Cell 73: 101631
Vishwakarma, S.K.; Sarwar, S.; Adil, M.A.M.; Khan, A.A. 2020: Biofabrication of cell-laden allografts of goat urinary bladder scaffold for organ reconstruction/regeneration. Tissue and Cell 67: 101443
Anil-Inevi, M.; Yaman, S.; Yildiz, A.Arslan.; Mese, G.; Yalcin-Ozuysal, O.; Tekin, H.Cumhur.; Ozcivici, E. 2018: Biofabrication of in situ Self Assembled 3D Cell Cultures in a Weightlessness Environment Generated using Magnetic Levitation. Scientific Reports 8(1): 7239
Elkhoury, K.; Morsink, M.; Sanchez-Gonzalez, L.; Kahn, C.; Tamayol, A.; Arab-Tehrany, E. 2021: Biofabrication of natural hydrogels for cardiac, neural, and bone Tissue engineering Applications. Bioactive Materials 6(11): 3904-3923
Wang, X.; Liu, J.; Jing, H.; Li, B.; Sun, Z.; Li, B.; Kong, D.; Leng, X.; Wang, Z. 2021: Biofabrication of poly(l-lactide-co-ε-caprolactone)/silk fibroin scaffold for the application as superb anti-calcification tissue engineered prosthetic valve. Materials Science and Engineering. C Materials for Biological Applications 121: 111872
Mir, T.A.; Iwanaga, S.; Kurooka, T.; Toda, H.; Sakai, S.; Nakamura, M. 2019: Biofabrication offers future hope for tackling various obstacles and challenges in tissue engineering and regenerative medicine: a Perspective. International Journal of Bioprinting 5(1): 153
Moroni, L.; Burdick, J.A.; Highley, C.; Lee, S.Jin.; Morimoto, Y.; Takeuchi, S.; Yoo, J.J. 2018: Biofabrication strategies for 3D in vitro models and regenerative medicine. Nature Reviews. Materials 3(5): 21-37
Singh, A.K.; Mishra, G.; Maurya, A.; Kulkarni, G.T.; Awasthi, R. 2020: Biofabrication: An interesting tool to create in vitro model for COVID-19 drug targets. Medical Hypotheses 144: 110059
Elkin, A.A.; Parfenov, Y.A.; Parfenov, S.A.; Sapozhnikov, K.V.; Kovalenko, A.L.; Rizakhanov, D.M.; Rizakhanova, O.A. 2021: Biofeed back therapy and Cytoflavin in the system of medical support of the training process of elderly hockey players. Advances in Gerontology 34(2): 306-310
Shao, X.; Xie, Y.; Zhang, Y.; Deng, X. 2019: Biofilm Formation Assay in Pseudomonas syringae. Bio-Protocol 9(10):E3237
González, J.F.; Alberts, H.; Lee, J.; Doolittle, L.; Gunn, J.S. 2018: Biofilm Formation Protects Salmonella from the Antibiotic Ciprofloxacin In Vitro and In Vivo in the Mouse Model of chronic Carriage. Scientific Reports 8(1): 222
Chmielewski, R.A.N.; Frank, J.F. 2003: Biofilm Formation and Control in Food Processing Facilities. Comprehensive Reviews in Food Science and Food Safety 2(1): 22-32
Thibeaux, R.; Kainiu, M.; Goarant, C. 2020: Biofilm Formation and Quantification Using the 96-Microtiter Plate. Methods in Molecular Biology 2134: 207-214
Chiang, I.-L.; Wang, Y.; Fujii, S.; Muegge, B.D.; Lu, Q.; Tarr, P.I.; Stappenbeck, T.S. 2021: Biofilm Formation and Virulence of Shigella flexneri Are Modulated by pH of Gastrointestinal Tract. Infection and Immunity 89(11): E0038721
Babushkina, I.V.; Bondarenko, A.S.; Ulyanov, V.Y.; Mamonova, I.A. 2020: Biofilm Formation by Gram-Negative Bacteria during Implant-Associated Infection. Bulletin of Experimental Biology and Medicine 169(3): 365-368
Wu, X.; Zhang, S.; Li, H.; Shen, L.; Dong, C.; Sun, Y.; Chen, H.; Xu, B.; Zhuang, W.; Deighton, M.; Qu, Y. 2020: Biofilm Formation of Candida albicans Facilitates Fungal Infiltration and Persister Cell Formation in Vaginal Candidiasis. Frontiers in Microbiology 11: 1117
Shahid, M.; Naureen, I.; Riaz, M.; Anjum, F.; Fatima, H.; Rafiq, M.Asif. 2021: Biofilm Inhibition and Antibacterial Potential of Different Varieties of Garlic ( Allium sativum ) Against Sinusitis Isolates. Dose-Response:aPublicationofInternationalHormesisSociety 19(4): 15593258211050491
Mutreja, I.; Warring, S.L.; Lim, K.S.; Swadi, T.; Clinch, K.; Mason, J.M.; Sheen, C.R.; Thompson, D.R.; Ducati, R.G.; Chambers, S.T.; Evans, G.B.; Gerth, M.L.; Miller, A.G.; Woodfield, T.B.F. 2019: Biofilm Inhibition via Delivery of Novel Methylthioadenosine Nucleosidase Inhibitors from PVA-Tyramine Hydrogels while Supporting Mesenchymal Stromal Cell Viability. Acs Biomaterials Science and Engineering 5(2): 748-758
Sen, C.K.; Roy, S.; Mathew-Steiner, S.S.; Gordillo, G.M. 2021: Biofilm Management in Wound Care. Plastic and Reconstructive Surgery 148(2): 275e-288e
Karygianni, L.; Ren, Z.; Koo, H.; Thurnheer, T. 2020: Biofilm Matrixome: Extracellular Components in Structured Microbial Communities. Trends in Microbiology 28(8): 668-681
Eick, S. 2021: Biofilm Models for the Evaluation of Dental Treatment. Monographs in Oral Science 29: 38-52
Thurnheer, T.; Paqué, P.N. 2021: Biofilm Models to Study the Etiology and Pathogenesis of Oral Diseases. Monographs in Oral Science 29: 30-37
Haque, M.M.; Mosharaf, M.K.; Khatun, M.; Haque, M.A.; Biswas, M.S.; Islam, M.S.; Islam, M.M.; Shozib, H.B.; Miah, M.M.U.; Molla, A.H.; Siddiquee, M.A. 2020: Biofilm Producing Rhizobacteria with Multiple Plant Growth-Promoting Traits Promote Growth of Tomato Under Water-Deficit Stress. Frontiers in Microbiology 11: 542053
Radovanovic, R.S.; Savic, N.R.; Ranin, L.; Smitran, A.; Opavski, N.V.; Tepavcevic, A.M.; Ranin, J.; Gajic, I. 2020: Biofilm Production and Antimicrobial Resistance of Clinical and Food Isolates of Pseudomonas spp. Current Microbiology 77(12): 4045-4052
Di Domenico, E.G.; Cavallo, I.; Sivori, F.; Marchesi, F.; Prignano, G.; Pimpinelli, F.; Sperduti, I.; Pelagalli, L.; Di Salvo, F.; Celesti, I.; Paluzzi, S.; Pronesti, C.; Koudriavtseva, T.; Ascenzioni, F.; Toma, L.; De Luca, A.; Mengarelli, A.; Ensoli, F. 2020: Biofilm Production by Carbapenem-Resistant Klebsiella pneumoniae Significantly Increases the Risk of Death in Oncological Patients. Frontiers in Cellular and Infection Microbiology 10: 561741
Pedersen, R.R.; Krömker, V.; Bjarnsholt, T.; Dahl-Pedersen, K.; Buhl, R.; Jørgensen, E. 2021: Biofilm Research in Bovine Mastitis. Frontiers in Veterinary Science 8: 656810
Das, A.Kumar.; Dudeja, M.; Kohli, S.; Ray, P.; Singh, M.; Kaur, P.Simran. 2020: Biofilm Synthesis and other Virulence Factors in Multidrug-Resistant Uropathogenic enterococci Isolated in Northern India. Indian Journal of Medical Microbiology 38(2): 200-209
Primo, M.G.B.; Tipple, A.F.V.; Costa, D.d.M.; Guadagnin, S.V.T.; Azevedo, A.S.; Leão-Vasconcelos, L.S.ân.N.d.O.; Alfa, M.; Vickery, K. 2022: Biofilm accumulation in new flexible gastroscope channels in clinical use. Infection Control and Hospital Epidemiology 43(2): 174-180
Shariq, A.F.; Beyenal, H.; Akin, I.D. 2021: Biofilm addition improves sand strength over a wide range of saturations. Biofilm 3: 100050
Evelhoch, S.R. 2020: Biofilm and Chronic Nonhealing Wound Infections. Surgical Clinics of North America 100(4): 727-732
Jørgensen, E.; Bjarnsholt, T.; Jacobsen, S. 2021: Biofilm and Equine Limb Wounds. Animals: An Open Access Journal from Mdpi 11(10)
Müller, L.Katharina.; Jungbauer, G.; Jungbauer, R.; Wolf, M.; Deschner, J. 2021: Biofilm and Orthodontic Therapy. Monographs in Oral Science 29: 201-213
Quintieri, L.; Fanelli, F.; Zühlke, D.; Caputo, L.; Logrieco, A.F.; Albrecht, D.; Riedel, K. 2020: Biofilm and Pathogenesis-Related Proteins in the Foodborne P. fluorescens ITEM 17298 with Distinctive Phenotypes During Cold Storage. Frontiers in Microbiology 11: 991
Carradori, S.; Di Giacomo, N.; Lobefalo, M.; Luisi, G.; Campestre, C.; Sisto, F. 2020: Biofilm and Quorum Sensing inhibitors: the road so far. Expert Opinion on Therapeutic Patents 2020: 1-14
Wolcott, R. 2021: Biofilm and catheter-related bloodstream infections. British Journal of Nursing 30(8): S4-S9
Boyd, J.D.; Stromberg, A.J.; Miller, C.S.; Grady, M.E. 2021: Biofilm and cell adhesion strength on dental implant surfaces via the laser spallation technique. Dental Materials: Official Publication of the Academy of Dental Materials 37(1): 48-59
Jiang, Y.; Liu, Y.; Zhang, X.; Gao, H.; Mou, L.; Wu, M.; Zhang, W.; Xin, F.; Jiang, M. 2021: Biofilm application in the microbial biochemicals production process. Biotechnology Advances 48: 107724
Wadia, R. 2019: Biofilm as a risk factor in implant treatment. British Dental Journal 227(12): 1041
Redfern, J.; Wallace, J.; van Belkum, A.; Jaillard, M.; Whittard, E.; Ragupathy, R.; Verran, J.; Kelly, P.; Enright, M.C. 2021: Biofilm associated genotypes of multiple antibiotic resistant Pseudomonas aeruginosa. Bmc Genomics 22(1): 572
Novotny, L.A.; Brockman, K.L.; Mokrzan, E.M.; Jurcisek, J.A.; Bakaletz, L.O. 2019: Biofilm biology and vaccine strategies for otitis media due to nontypeable Haemophilus influenzae. Journal of Pediatric Infectious Diseases 14(2): 69-77
Kostrytsia, A.; Papirio, S.; Khodzhaev, M.; Morrison, L.; Collins, G.; Lens, P.N.L.; Ijaz, U.Z.; Esposito, G. 2022: Biofilm carrier type affects biogenic sulfur-driven denitrification performance and microbial community dynamics in moving-bed biofilm reactors. Chemosphere 287(Part 1): 131975
Jiang, R.; Xiang, M.; Chen, W.; Zhang, P.; Wu, X.; Zhu, G.; Tu, T.; Jiang, D.; Yao, X.; Luo, Y.; Yang, Z.; Chen, D.; Wang, Y. 2021: Biofilm characteristics and transcriptomic analysis of Haemophilus parasuis. Veterinary Microbiology 258: 109073
Lee, K.Wei.Kelvin.; Periasamy, S.; Mukherjee, M.; Xie, C.; Kjelleberg, S.; Rice, S.A. 2014: Biofilm development and enhanced stress resistance of a model, mixed-species community biofilm. Isme Journal 8(4): 894-907
Zan, F.; Guo, G.; Zheng, T.; Chen, G. 2021: Biofilm development in a pilot-scale gravity sewer: Physical characteristics, microstructure, and microbial communities. Environmental Research 195: 110838
Tarafdar, A.; Lee, J.-U.; Jeong, J.-E.; Lee, H.; Jung, Y.; Oh, H.B.; Woo, H.Y.; Kwon, J.-H. 2021: Biofilm development of Bacillus siamensis ATKU1 on pristine short chain low-density polyethylene: a case study on microbe-microplastics interaction. Journal of Hazardous Materials 409: 124516
Lim, C.Ping.; Mai, P.Nguyen.Quoc.; Roizman Sade, D.; Lam, Y.Cheong.; Cohen, Y. 2016: Biofilm development of an opportunistic model bacterium analysed at high spatiotemporal resolution in the framework of a precise flow cell. Npj Biofilms and Microbiomes 2: 16023
Wille, J.; Coenye, T. 2020: Biofilm dispersion: the key to biofilm eradication or opening Pandora's box?. Biofilm 2: 100027
Jang, H.; Rusconi, R.; Stocker, R. 2017: Biofilm disruption by an air bubble reveals heterogeneous age-dependent detachment patterns dictated by initial extracellular matrix distribution. Npj Biofilms and Microbiomes 3: 6
Habashi, N.; Marom, T.; Steinberg, D.; Zacks, B.; Tamir, S.O. 2020: Biofilm distribution on tympanostomy tubes: An ex vivo descriptive study. International Journal of Pediatric Otorhinolaryngology 138: 110350
Klopper, K.B.; de Witt, R.N.; Bester, E.; Dicks, L.M.T.; Wolfaardt, G.M. 2020: Biofilm dynamics: linking in situ biofilm biomass and metabolic activity measurements in real-time under continuous flow conditions. Npj Biofilms and Microbiomes 6(1): 42
Paluch, E.; Szperlik, J.; Lamch, Łukasz.; Wilk, K.A.; Obłąk, E. 2021: Biofilm eradication and antifungal mechanism of action against Candida albicans of cationic dicephalic surfactants with a labile linker. Scientific Reports 11(1): 8896
Demoulin, N.; Goffin, E. 2011: Biofilm eradication in catheter-related infection in dialysis patients. Kidney International 80(3): 320
Bowler, P.; Murphy, C.; Wolcott, R. 2020: Biofilm exacerbates antibiotic resistance: Is this a current oversight in antimicrobial stewardship?. Antimicrobial Resistance and Infection Control 9(1): 162
Georgiou, T.; Qureshi, S.H.; Chakrabarty, A.; Noble, B.A. 2002: Biofilm formation and coccal organisms in infectious crystalline keratopathy. Eye 16(1): 89-92
Begić, M.; Josić, D. 2020: Biofilm formation and extracellular microvesicles-The way of foodborne pathogens toward resistance. Electrophoresis 41(20): 1718-1739
Giorgi-Pérez, A.él.M.; Arboleda-Ordoñez, A.M.; Villamizar-Suárez, W.; Cardeñosa-Mendoza, M.; Jaimes-Prada, R.; Rincón-Orozco, B.; Niño-Gómez, M.E. 2021: Biofilm formation and its effects on microbiologically influenced corrosion of carbon steel in oilfield injection water via electrochemical techniques and scanning electron microscopy. Bioelectrochemistry 141: 107868
Tu, C.; Chen, T.; Zhou, Q.; Liu, Y.; Wei, J.; Waniek, J.J.; Luo, Y. 2020: Biofilm formation and its influences on the properties of microplastics as affected by exposure time and depth in the seawater. Science of the Total Environment 734: 139237
Ghaioumy, R.; Tabatabaeifar, F.; Mozafarinia, K.; Mianroodi, A.A.; Isaei, E.; Morones-Ramírez, J.é R.én.; Afshari, S.A.K.; Kalantar-Neyestanaki, D. 2021: Biofilm formation and molecular analysis of intercellular adhesion gene cluster (icaABCD) among Staphylococcus aureus strains isolated from children with adenoiditis. Iranian Journal of Microbiology 13(4): 458-463
Subbiahdoss, G.; Reimhult, E. 2020: Biofilm formation at oil-water interfaces is not a simple function of bacterial hydrophobicity. Colloids and Surfaces. B Biointerfaces 194: 111163
Victoria, V.él.M.ía.; Rocío, C.; Silvina, E.ía.; Inés, E.ía.A.ía.; Lía, P.N. 2021: Biofilm formation by LEE-negative Shiga Toxin-Producing Escherichia coli strains. Microbial Pathogenesis 157: 105006
Ramos-Vivas, Jé.; Chapartegui-González, I.; Fernández-Martínez, M.; González-Rico, C.; Fortún, Jús.; Escudero, R.; Marco, F.; Linares, L.; Montejo, M.; Aranzamendi, M.; Muñoz, P.; Valerio, M.; Aguado, J.María.; Resino, E.; Ahufinger, I.Gracia.; Vega, A.Paz.; Martínez-Martínez, L.; Fariñas, Mía.Carmen.; Ruiz San Millán, J.Carlos.; Rodrigo, E.; Casafont Morencos, F.; Fabrega, E.; Cuadrado, A.; Fariñas-Alvarez, Cón.; Gozalo, Mónica.; Arnaíz de Las Revillas, F.; Martín Dávila, P.; Martínez, A.; Ruíz Garbajosa, P.; Moreno, Aón.; Bodro, M.; Solano, Mía.Fernanda.; Blanco, Mía. 2019: Biofilm formation by multidrug resistant Enterobacteriaceae strains isolated from solid organ transplant recipients. Scientific Reports 9(1): 8928
Da Silva, P.H.R.; de Assunção, E.F.; da Silva Velez, L.; Dos Santos, L.N.; de Souza, E.B.; da Gama, M.A.él.S. 2021: Biofilm formation by strains of Burkholderia cenocepacia lineages IIIA and IIIB and B. gladioli pv. alliicola associated with onion bacterial scale rot. Brazilian Journal of Microbiology: 52(4): 1665-1675
Caro-Astorga, Jín.; Frenzel, E.; Perkins, J.R.; Álvarez-Mena, A.; de Vicente, A.; Ranea, J.A.G.; Kuipers, O.P.; Romero, D. 2020: Biofilm formation displays intrinsic offensive and defensive features of Bacillus cereus. Npj Biofilms and Microbiomes 6: 3
Caro-Astorga, Jín.; Frenzel, E.; Perkins, J.R.; Álvarez-Mena, A.; de Vicente, A.; Ranea, J.A.G.; Kuipers, O.P.; Romero, D. 2020: Biofilm formation displays intrinsic offensive and defensive features of Bacillus cereus. Npj Biofilms and Microbiomes 6(1): 3
Swiontek Brzezinska, M.; Walczak, M.; Kalwasińska, A.; Richert, A.; Świątczak, J.; Deja-Sikora, E.; Burkowska-But, A. 2020: Biofilm formation during biodegradation of polylactide, poly (3,4 hydroxybutyrate) and poly(ε-caprolactone) in activated sludge. International Journal of Biological Macromolecules 159: 539-546
Poornima, P.; Krithikadatta, J.; Ponraj, R.R.; Velmurugan, N.; Kishen, A. 2021: Biofilm formation following chitosan-based varnish or chlorhexidine-fluoride varnish application in patients undergoing fixed orthodontic treatment: a double blinded randomised controlled trial. Bmc Oral Health 21(1): 465
Roudbary, M.; Vahedi-Shahandashti, R.; Santos, Aé.Luis.Souza.Dos.; Roudbar Mohammadi, S.; Aslani, P.; Lass-Flörl, C.; Rodrigues, Célia.F. 2021: Biofilm formation in clinically relevant filamentous fungi: a therapeutic challenge. Critical Reviews in Microbiology 2021: 1-25
Hashem, Y.A.; Amin, H.M.; Essam, T.M.; Yassin, A.S.; Aziz, R.K. 2017: Biofilm formation in enterococci: genotype-phenotype correlations and inhibition by vancomycin. Scientific Reports 7(1): 5733
Keshvardoust, P.; Huron, V.A.A.; Clemson, M.; Constancias, F.; Barraud, N.; Rice, S.A. 2019: Biofilm formation inhibition and dispersal of multi-species communities containing ammonia-oxidising bacteria. Npj Biofilms and Microbiomes 5(1): 22
Keshvardoust, P.; Huron, V.A.A.; Clemson, M.; Constancias, F.; Barraud, N.; Rice, S.A. 2019: Biofilm formation inhibition and dispersal of multi-species communities containing ammonia-oxidising bacteria. Npj Biofilms and Microbiomes 5(1): 22
Wang, Y-Chih.; Huang, T-Wen.; Yang, Y-Sung.; Kuo, S-Chen.; Chen, C-Ting.; Liu, C-Pan.; Liu, Y-Meng.; Chen, T-Li.; Chang, F-Yee.; Wu, S-Hsiung.; How, C-Kuang.; Lee, Y-Tzu. 2018: Biofilm formation is not associated with worse outcome in Acinetobacter baumannii bacteraemic pneumonia. Scientific Reports 8(1): 7289
Leiva-Aravena, E.; Vera, M.A.; Nerenberg, R.; Leiva, E.D.; Vargas, I.T. 2022: Biofilm formation of Ancylobacter sp. TS-1 on different granular materials and its ability for chemolithoautotrophic As(III)-oxidation at high concentrations. Journal of Hazardous Materials 421: 126733
Kıvanç, M.; Er, S. 2020: Biofilm formation of Candida Spp. isolated from the vagina and antibiofilm activities of lactic acid bacteria on the these Candida Isolates. African Health Sciences 20(2): 641-648
Kirchhoff, L.; Olsowski, M.; Zilmans, K.; Dittmer, S.; Haase, G.; Sedlacek, L.; Steinmann, E.; Buer, J.; Rath, P-Michael.; Steinmann, J. 2017: Biofilm formation of the black yeast-like fungus Exophiala dermatitidis and its susceptibility to antiinfective agents. Scientific Reports 7: 42886
Engel, A.-S.; Kranz, H.T.; Schneider, M.; Tietze, J.P.; Piwowarcyk, A.; Kuzius, T.; Arnold, W.; Naumova, E.A. 2020: Biofilm formation on different dental restorative materials in the oral cavity. Bmc Oral Health 20(1): 162
Zeller, B.; Stöckli, S.; Zaugg, L.K.; Astasov-Frauenhoffer, M.; Hauser-Gerspach, I.; Waltimo, T.; Zitzmann, N.U. 2020: Biofilm formation on metal alloys, zirconia and polyetherketoneketone as implant materials in vivo. Clinical Oral Implants Research 31(11): 1078-1086
Thorarinsdottir, H.R.; Kander, T.; Holmberg, A.; Petronis, S.; Klarin, B. 2020: Biofilm formation on three different endotracheal tubes: a prospective clinical trial. Critical Care 24(1): 382
Desch, A.; Freifrau von Maltzahn, N.; Stumpp, N.; Dalton, M.; Yang, I.; Stiesch, M. 2020: Biofilm formation on zirconia and titanium over time-An in vivo model study. Clinical Oral Implants Research 31(9): 865-880
Katongole, P.; Nalubega, F.; Florence, N.C.; Asiimwe, B.; Andia, I. 2020: Biofilm formation, antimicrobial susceptibility and virulence genes of Uropathogenic Escherichia coli isolated from clinical isolates in Uganda. Bmc Infectious Diseases 20(1): 453
Lei, G.; Chen, M.; Li, H.; Niu, J-Ling.; Wu, S.; Mao, L.; Lu, A.; Wang, H.; Chen, W.; Xu, B.; Leng, Q.; Xu, C.; Yang, G.; An, L.; Zhu, L-Ping.; Meng, G. 2013: Biofilm from a clinical strain of Cryptococcus neoformans activates the NLRP3 inflammasome. Cell Research 23(7): 965-968
Bhardwaj, R.G.; Ellepolla, A.; Drobiova, H.; Karched, M. 2020: Biofilm growth and IL-8 and TNF-α-inducing properties of Candida albicans in the presence of oral gram-positive and gram-negative bacteria. Bmc Microbiology 20(1): 156
Semcesen, P.O.; Wells, M.G. 2021: Biofilm growth on buoyant microplastics leads to changes in settling rates: Implications for microplastic retention in the Great Lakes. Marine Pollution Bulletin 170: 112573
Torkzadeh, H.; Cates, E.L. 2021: Biofilm growth under continuous UVC irradiation: Quantitative effects of growth conditions and growth time on intensity response parameters. Water Research 206: 117747
Kanagasundaram, N.S.; Moore, I.; Hoenich, N.A. 2009: Biofilm in bicarbonate-based replacement fluid circuits in CVVH. Kidney International 76(6): 682
Liu, Z.; Adyel, T.M.; Miao, L.; You, G.; Liu, S.; Hou, J. 2021: Biofilm influenced metal accumulation onto plastic debris in different freshwaters. Environmental Pollution 285: 117646
Rathinam, P.; Murari, B.Mohan.; Viswanathan, P. 2021: Biofilm inhibition and antifouling evaluation of sol-gel coated silicone implants with prolonged release of eugenol against Pseudomonas aeruginosa. Biofouling 2021: 1-17
Kapustová, M.én.; Puškárová, A.; Bučková, M.ár.; Granata, G.; Napoli, E.; Annušová, A.; Mesárošová, M.; Kozics, K.ín.; Pangallo, D.; Geraci, C. 2021: Biofilm inhibition by biocompatible poly(ε-caprolactone) nanocapsules loaded with essential oils and their cyto/genotoxicity to human keratinocyte cell line. International Journal of Pharmaceutics 606: 120846
Liu, C.; Yan, B.; Duan, J.; Hou, B. 2020: Biofilm inhibition effect of an ivermectin/silyl acrylate copolymer coating and the colonization dynamics. Science of the Total Environment 736: 139599
Mahajan, S.; Sunsunwal, S.; Gautam, V.; Singh, M.; Ramya, T.N.C. 2021: Biofilm inhibitory effect of alginate lyases on mucoid P. aeruginosa from a cystic fibrosis patient. Biochemistry and Biophysics Reports 26: 101028
Stoodley, P.; Cargo, R.; Rupp, C.J.; Wilson, S.; Klapper, I. 2002: Biofilm material properties as related to shear-induced deformation and detachment phenomena. Journal of Industrial Microbiology and Biotechnology 29(6): 361-367
Gloag, E.S.; Fabbri, S.; Wozniak, D.J.; Stoodley, P. 2020: Biofilm mechanics: Implications in infection and survival. Biofilm 2: 100017
Barathi, S.; Aruljothi, K.N.; Karthik, C.; Padikasan, I.A.; Ashokkumar, V. 2022: Biofilm mediated decolorization and degradation of reactive red 170 dye by the bacterial consortium isolated from the dyeing industry wastewater sediments. Chemosphere 286(Part 3): 131914
Yu, Y.; Kim, Y.H.; Cho, W.H.; Son, B.S.; Yeo, H.J. 2021: Biofilm microbiome in extracorporeal membrane oxygenator catheters. Plos one 16(9): E0257449
Dosler, S.; Hacioglu, M.; Yilmaz, F.N.; Oyardi, O. 2020: Biofilm modelling on the contact lenses and comparison of the in vitro activities of multipurpose lens solutions and antibiotics. Peerj 8: E9419
Garg, A.; Mala, K.; Kamath, P.M. 2021: Biofilm models in endodontics-A narrative review. Journal of Conservative Dentistry: Jcd 24(1): 2-9
Ginter-Kramarczyk, D.; Kruszelnicka, I.; Michałkiewicz, M.ł; Muszyński, P.ła.; Zajchowski, S.ła.; Tomaszewska, J. 2021: Biofilm on the polymer composites - qualitative and quantitative microbiological analysis. Journal of Environmental Health Science and Engineering 19(1): 641-649
Ruhal, R.; Kataria, R. 2021: Biofilm patterns in gram-positive and gram-negative bacteria. Microbiological Research 251: 126829
Alarjani, K.M.; Almutairi, A.M.; Flanet Raj, S.R.; Rajaselvam, J.; Chang, S.W.; Ravindran, B. 2021: Biofilm producing indigenous bacteria isolated from municipal sludge and their nutrient removal ability in moving bed biofilm reactor from the wastewater. Saudi Journal of Biological Sciences 28(9): 4994-5001
Maeda, T.; Fukushima, Y.; Yoshida, H.; Goto, M.; Fujita, T.; Tsuyuki, Y.; Takahashi, T. 2021: Biofilm production ability and associated characteristics of Streptococcus agalactiae isolates from companion animals and humans. Journal of Infection and Chemotherapy: Official Journal of the Japan Society of ChemoTherapy 27(11): 1571-1577
Svensson Malchau, K.; Tillander, J.; Zaborowska, M.; Hoffman, M.; Lasa, I.ñi.; Thomsen, P.; Malchau, H.; Rolfson, O.; Trobos, M. 2021: Biofilm properties in relation to treatment outcome in patients with first-time periprosthetic hip or knee joint infection. Journal of Orthopaedic Translation 30: 31-40
Brill, F.H.H.; Hambach, J.; Utpatel, C.; Mogrovejo, D.C.; Gabriel, H.; Klock, J.-H.; Steinmann, J.; Arndt, A. 2021: Biofilm reduction potential of 0.02% polyhexanide irrigation solution in several types of urethral catheters. Bmc Urology 21(1): 58
Taggart, M.G.; Snelling, W.J.; Naughton, P.J.; La Ragione, R.M.; Dooley, J.S.G.; Ternan, N.G. 2021: Biofilm regulation in Clostridioides difficile: Novel systems linked to hypervirulence. Plos Pathogens 17(9): E1009817
Gaio, V.ân.; Cerca, N. 2020: Biofilm released cells can easily be obtained in a fed-batch system using ica+ but not with ica- isolates. Peerj 8: E9549
Kearns, K.L.; Boyd, J.D.; Grady, M.E. 2020: Biofilm rupture by laser-induced stress waves increases with loading amplitude, independent of location. Acs Applied Bio Materials 3(3): 1426-1433
Das, A.K.; Dudeja, M.; Kohli, S.; Ray, P.; Singh, M.; Kaur, P.S. 2020: Biofilm synthesis and other virulence factors in multidrug-resistant uropathogenic enterococci isolated in Northern India. Indian Journal of Medical Microbiology 38(2): 200-209
Xiao, J.; Hara, A.T.; Kim, D.; Zero, D.T.; Koo, H.; Hwang, G. 2017: Biofilm three-dimensional architecture influences in situ pH distribution pattern on the human enamel surface. International Journal of Oral Science 9(2): 74-79
Mountcastle, S.E.; Vyas, N.; Villapun, V.M.; Cox, S.C.; Jabbari, S.; Sammons, R.L.; Shelton, R.M.; Walmsley, A.Damien.; Kuehne, S.A. 2021: Biofilm viability checker: An open-source tool for automated biofilm viability analysis from confocal microscopy images. Npj Biofilms and Microbiomes 7(1): 44
Nguyen, H.; Ybarra, A.; Başağaoğlu, H.; Shindell, O. 2021: Biofilm viscoelasticity and nutrient source location control biofilm growth rate, migration rate, and morphology in shear flow. Scientific Reports 11(1): 16118
Chen, L.; Wang, X.-D.; Lee, D.-J. 2022: Biofilm with highly heterogeneous interior structure for pollutant removal: Cell distribution and manipulated mass transport. Bioresource Technology 343: 125913
Marek, A.; Pyzik, E.; Stępień-Pyśniak, D.; Dec, M.; Jarosz, Łu.S.; Nowaczek, A.; Sulikowska, M. 2021: Biofilm-Formation Ability and the Presence of Adhesion Genes in Coagulase-Negative Staphylococci Isolates from Chicken Broilers. Animals: An Open Access Journal from Mdpi 11(3)
Chen, S.; Feng, Z.; Sun, H.; Zhang, R.; Qin, T.; Peng, D. 2020: Biofilm-Formation-Related Genes csgD and bcsA Promote the Vertical Transmission of Salmonella Enteritidis in Chicken. Frontiers in Veterinary Science 7: 625049
Kİlİc, T. 2020: Biofilm-Forming Ability and Effect of Sanitation Agents on Biofilm-Control of Thermophile Geobacillus sp. D413 and Geobacillus toebii E134. Polish Journal of Microbiology 69(4): 411-419
Kowalska, J.; MaĆkiw, E.Żb.; Stasiak, M.; Kucharek, K.; Postupolski, J. 2020: Biofilm-Forming Ability of Pathogenic Bacteria Isolated from Retail Food in Poland. Journal of Food Protection 83(12): 2032-2040
Versey, Z.; da Cruz Nizer, W.S.; Russell, E.; Zigic, S.; DeZeeuw, K.G.; Marek, J.E.; Overhage, J.; Cassol, E. 2021: Biofilm-Innate Immune Interface: Contribution to Chronic Wound Formation. Frontiers in Immunology 12: 648554
Gunardi, W.D.; Karuniawati, A.; Umbas, R.; Bardosono, S.; Lydia, A.; Soebandrio, A.; Safari, D. 2021: Biofilm-Producing Bacteria and Risk Factors (Gender and Duration of Catheterization) Characterized as Catheter-Associated Biofilm Formation. International Journal of Microbiology 2021: 8869275
Lamichhane, K.; Adhikari, N.; Bastola, A.; Devkota, L.; Bhandari, P.; Dhungel, B.; Thapa Shrestha, U.; Adhikari, B.; Banjara, M.R.; Rijal, K.R.; Ghimire, P. 2020: Biofilm-Producing Candida Species Causing Oropharyngeal Candidiasis in HIV Patients Attending Sukraraj Tropical and Infectious Diseases Hospital in Kathmandu, Nepal. Hiv/Aids 12: 211-220
Sun, W.; Liu, L.; Yu, Y.; Yu, B.; Liang, C.; Ying, H.; Liu, D.; Chen, Y. 2020: Biofilm-Related, Time-Series Transcriptome and Genome Sequencing in Xylanase-Producing Aspergillus niger SJ1. Acs Omega 5(31): 19737-19746
Ch'ng, J-Hong.; Chong, K.K.L.; Lam, L.Ning.; Wong, J.Jie.; Kline, K.A. 2019: Biofilm-associated infection by enterococci. Nature Reviews. Microbiology 17(2): 82-94
Liang, C.; Ding, S.; Sun, W.; Liu, L.; Zhao, W.; Zhang, D.; Ying, H.; Liu, D.; Chen, Y. 2020: Biofilm-based fermentation: a novel immobilisation strategy for Saccharomyces cerevisiae cell cycle progression during ethanol production. Applied Microbiology and Biotechnology 104(17): 7495-7505
Sauvat, L.éo.; Abdul Hamid, A.I.; Blavignac, C.; Josse, J.ér.ôm.; Lesens, O.; Gueirard, P. 2020: Biofilm-coated microbeads and the mouse ear skin: An innovative model for analysing anti-biofilm immune response in vivo. Plos one 15(12): E0243500
Shi, J.; Ma, Z.; Pan, H.; Liu, Y.; Chu, Y.; Wang, J.; Chen, L. 2020: Biofilm-encapsulated nano drug delivery system for the treatment of colon cancer. Journal of Microencapsulation 37(7): 481-491
Scheik, L.íc.K.; Volcan Maia, D.S.; Würfel, S.d.F.át.R.; Ramires, T.; Kleinubing, N.R.; Haubert, L.; Lopes, G.V.; da Silva, W.P. 2021: Biofilm-forming ability of poultry Campylobacter jejuni strains in the presence and absence of Pseudomonas aeruginosa. Canadian Journal of Microbiology 67(4): 301-309
Han, W.; Zhou, B.; Yang, K.; Xiong, X.; Luan, S.; Wang, Y.; Xu, Z.; Lei, P.; Luo, Z.; Gao, J.; Zhan, Y.; Chen, G.; Liang, L.; Wang, R.; Li, S.; Xu, H. 2020: Biofilm-inspired adhesive and antibacterial hydrogel with tough tissue integration performance for sealing hemostasis and wound healing. Bioactive Materials 5(4): 768-778
Bai, X.; Liu, D.; Xu, L.; Tenguria, S.; Drolia, R.; Gallina, N.L.F.; Cox, A.D.; Koo, O-Kyung.; Bhunia, A.K. 2021: Biofilm-isolated Listeria monocytogenes exhibits reduced systemic dissemination at the early (12-24 h) stage of infection in a mouse model. Npj Biofilms and Microbiomes 7(1): 18
Pais-Correia, A-Monica.; Sachse, M.; Guadagnini, Séphanie.; Robbiati, V.; Lasserre, Rémi.; Gessain, A.; Gout, O.; Alcover, Aés.; Thoulouze, M-Isabel. 2010: Biofilm-like extracellular viral assemblies mediate HTLV-1 cell-to-cell transmission at virological synapses. Nature Medicine 16(1): 83-89
Elder, M.J.; Stapleton, F.; Evans, E.; Dart, J.K. 1995: Biofilm-related infections in ophthalmology. Eye 9: 102-109
Brown, J.L.; Johnston, W.; Delaney, C.; Rajendran, R.; Butcher, J.; Khan, S.; Bradshaw, D.; Ramage, G.; Culshaw, S. 2019: Biofilm-stimulated epithelium modulates the inflammatory responses in co-cultured immune cells. Scientific Reports 9(1): 15779
Von Borowski, R.G.; Trentin, D.S. 2021: Biofilms and Coronavirus Reservoirs: a Perspective Review. Applied and Environmental Microbiology 87(18): E0085921
Manciula, L.-G.; Jeican, I.I.; Tudoran, L.B.; Albu, S. 2020: Biofilms and inflammation in patients with chronic rhinosinusitis. Medicine and Pharmacy Reports 93(4): 374-383
Castillo, C.; Masi, M.F.; Mishko, A.; Sheltzer, A.; Speer, A.; Tran, H.; Vlahovic, T.C. 2021: Biofilms and the Nail Unit. Clinics in Podiatric Medicine and Surgery 38(4): 529-533
Mu, X.; Lv, X.; Liu, W.; Qiu, C.; Ma, Y.; Zhang, S.; Jeppesen, E. 2020: Biofilms attached to Myriophyllum spicatum play a dominant role in nitrogen removal in constructed wetland mesocosms with submersed macrophytes: Evidence from 15N tracking, nitrogen budgets and metagenomics analyses. Environmental Pollution 266(Part 2): 115203
Schulze, A.; Mitterer, F.; Pombo, J.P.; Schild, S. 2021: Biofilms by bacterial human pathogens: Clinical relevance - development, composition and regulation - therapeutical strategies. Microbial Cell 8(2): 28-56
Goodman, S.D.; Obergfell, K.P.; Jurcisek, J.A.; Novotny, L.A.; Downey, J.S.; Ayala, E.A.; Tjokro, N.; Li, B.; Justice, S.S.; Bakaletz, L.O. 2011: Biofilms can be dispersed by focusing the immune system on a common family of bacterial nucleoid-associated proteins. Mucosal Immunology 4(6): 625-637
Amanatidou, E.; Matthews, A.C.; Kuhlicke, U.; Neu, T.R.; McEvoy, J.P.; Raymond, B. 2019: Biofilms facilitate cheating and social exploitation of β-lactam resistance in Escherichia coli. Npj Biofilms and Microbiomes 5(1): 36
Normington, C.; Moura, I.B.; Bryant, J.A.; Ewin, D.J.; Clark, E.V.; Kettle, M.J.; Harris, H.C.; Spittal, W.; Davis, G.; Henn, M.R.; Ford, C.B.; Wilcox, M.H.; Buckley, A.M. 2021: Biofilms harbour Clostridioides difficile, serving as a reservoir for recurrent infection. Npj Biofilms and Microbiomes 7(1): 16
Dahlen, G. 2021: Biofilms in Dental Unit Water Lines. Monographs in Oral Science 29: 12-18
Popović, S.đa.; Krizmanić, J.; Vidaković, D.; Karadžić, V.; Milovanović, Že.; Pećić, M.; Subakov Simić, G. 2020: Biofilms in caves: easy method for the assessment of dominant phototrophic groups/taxa in situ. Environmental Monitoring and Assessment 192(11): 720
Gilbert, P.; Allison, D.G.; McBain, A.J. 2002: Biofilms in vitro and in vivo: do singular mechanisms imply cross-resistance?. Symposium Series 31: 98s
Di Meglio, L.Gabriel.; Busalmen, J.Pablo.; Pegoraro, César.Nicolas.; Nercessian, Débora. 2020: Biofilms of Halobacterium salinarum as a tool for phenanthrene bioremediation. Biofouling 36(5): 564-575
Vega-Dominguez, P.; Peterson, E.; Pan, M.; Di Maio, A.; Singh, S.; Umapathy, S.; Saini, D.K.; Baliga, N.; Bhatt, A. 2020: Biofilms of the non-tuberculous Mycobacterium chelonae form an extracellular matrix and display distinct expression patterns. Cell Surface 6: 100043
Schmalz, G.; Cieplik, F. 2021: Biofilms on Restorative Materials. Monographs in Oral Science 29: 155-194
Smith, H.J.; Schmit, A.; Foster, R.; Littman, S.; Kuypers, M.Mm.; Foreman, C.M. 2016: Biofilms on glacial surfaces: hotspots for biological activity. Npj Biofilms and Microbiomes 2: 16008
Molloy, S. 2012: Biofilms: Biofilms take shape. Nature Reviews. Microbiology 10(3): 162
Vacca, I. 2017: Biofilms: Building up the matrix. Nature Reviews. Microbiology 15(9): 512-513
Starling, S. 2017: Biofilms: Communities in sync. Nature Reviews. Microbiology 15(6): 320-321
Nunes-Alves, Cáudio. 2015: Biofilms: Electrifying long-range signalling. Nature Reviews. Microbiology 13(12): 737
Attar, N. 2016: Biofilms: Have exploding cells blown up MV dogma?. Nature Reviews. Microbiology 14(6): 334-335
York, A. 2018: Biofilms: Naturally modified cellulose in bacterial biofilms. Nature Reviews. Microbiology 16(3): 123
Vacca, I. 2017: Biofilms: New ways for streptococci to settle down. Nature Reviews. Microbiology 15(6): 321
York, A. 2017: Biofilms: Shocking biofilms. Nature Reviews. Microbiology 15(3): 132-133
Du Toit, A. 2015: Biofilms: The T3SS translocon in biofilm formation. Nature Reviews. Microbiology 13(1): 2-3
York, A. 2017: Biofilms: The architect of the biofilm. Nature Reviews. Microbiology 15(11): 642-643
Hofer, U. 2016: Biofilms: Turning tides for quorum sensing. Nature Reviews. Microbiology 14(2): 64
Kåhrström, C.Tobin. 2012: Biofilms: Watching bacteria build their homes. Nature Reviews. Microbiology 10(9): 597
Doherty, R. 2016: Biofilms: What does subgingival plaque look like?. British Dental Journal 221(1): 16
Flemming, H-Curt.; Wingender, J.; Szewzyk, U.; Steinberg, P.; Rice, S.A.; Kjelleberg, S. 2016: Biofilms: an emergent form of bacterial life. Nature Reviews. Microbiology 14(9): 563-575
Molloy, S. 2013: Biofilms: biofilm microanatomy. Nature Reviews. Microbiology 11(5): 300
Kåhrström, C.Tobin. 2013: Biofilms: survival of the wrinkliest. Nature Reviews. Microbiology 11(3): 148
Reyes, J.; Toledo, M.; Michán, C.; Siles, J.A.; Alhama, J.; Martín, M.A. 2020: Biofiltration of butyric acid: Monitoring odor abatement and microbial communities. Environmental Research 190: 110057
Fedrizzi, F.; Cabana, H.; Ndanga, Él.M.; Cabral, A.R. 2018: Biofiltration of methane from cow barns: Effects of climatic conditions and packing bed media acclimatization. Waste Management 78: 669-676
Ru, Z.; Hu, Y.; Huang, S.; Bai, L.; Zhang, K.; Li, Y. 2021: Bioflavonoid Galangin Suppresses Hypertrophic Scar Formation by the TGF- β /Smad Signaling Pathway. Evidence-BasedComplementaryandAlternativeMedicine:Ecam 2021: 2444839
Jamal, M.T.; Broom, M.; Al-Mur, B.A.; Al Harbi, M.; Ghandourah, M.; Al Otaibi, A.; Haque, M.F. 2020: Biofloc Technology: Emerging Microbial Biotechnology for the Improvement of Aquaculture Productivity. Polish Journal of Microbiology 69(4): 401-409
Cai, S.; Wu, H.; Hong, P.; Donde, O.O.; Wang, C.; Fang, T.; Xiao, B.; Wu, X. 2021: Bioflocculation effect of Glyptotendipes tokunagai on different Microcystis species: Interactions between secreted silk and extracellular polymeric substances. Chemosphere 277: 130321
Yu, Z.; Zhao, Y.-Y.; Zhang, Y.; Zhao, L.; Ma, Y.-F.; Li, M.-Y. 2021: Bioflocs attenuate Mn-induced bioaccumulation, immunotoxic and oxidative stress via inhibiting GR-NF-κB signalling pathway in Channa asiatica. Comparative Biochemistry and Physiology. Toxicology and Pharmacology: Cbp 247: 109060
Vermeiren, Y.; Hirschberg, Y.; Mertens, I.; De Deyn, P.P. 2020: Biofluid Markers for Prodromal Parkinson's Disease: Evidence from a Catecholaminergic Perspective. Frontiers in Neurology 11: 595
Pradhan, S.Narayan.; Das, A.; Meena, R.; Nanda, R.Kumar.; Rajamani, P. 2016: Biofluid metabotyping of occupationally exposed subjects to air pollution demonstrates high oxidative stress and deregulated amino acid metabolism. Scientific Reports 6: 35972
Shende, P.; Trivedi, R. 2021: Biofluidic material-based carriers: Potential systems for crossing cellular barriers. Journal of Controlled Release: Official Journal of the Controlled Release Society 329: 858-870
Sancesario, G.M.; Di Lazzaro, G.; Grillo, P.; Biticchi, B.; Giannella, E.; Alwardat, M.; Pieri, M.; Bernardini, S.; Mercuri, N.B.; Pisani, A.; Schirinzi, T. 2021: Biofluids profile of α-Klotho in patients with Parkinson's disease. Parkinsonism and Related Disorders 90: 62-64
Gruber, D.F.; Loew, E.R.; Deheyn, D.D.; Akkaynak, D.; Gaffney, J.P.; Smith, W.Leo.; Davis, M.P.; Stern, J.H.; Pieribone, V.A.; Sparks, J.S. 2016: Biofluorescence in Catsharks (Scyliorhinidae): Fundamental Description and Relevance for Elasmobranch Visual Ecology. Scientific Reports 6: 24751
Singh, G.; Tiwari, A.; Gupta, A.; Kumar, A.; Hariprasad, P.; Sharma, S. 2021: Bioformulation development via valorizing silica-rich spent mushroom substrate with Trichoderma asperellum for plant nutrient and disease management. Journal of Environmental Management 297: 113278
Mhada, M.; Zvinavashe, A.T.; Hazzoumi, Z.; Zeroual, Y.; Marelli, B.; Kouisni, L. 2021: Bioformulation of Silk-Based Coating to Preserve and Deliver Rhizobium tropici to Phaseolus vulgaris Under Saline Environments. Frontiers in Plant Science 12: 700273
Shahzad, R.; Jamil, S.; Ahmad, S.; Nisar, A.; Khan, S.; Amina, Z.; Kanwal, S.; Aslam, H.M.U.; Gill, R.A.; Zhou, W. 2021: Biofortification of Cereals and Pulses Using new Breeding Techniques: Current and Future Perspectives. Frontiers in Nutrition 8: 721728
Newman, R.G.; Moon, Y.; Sams, C.E.; Tou, J.C.; Waterland, N.L. 2021: Biofortification of Sodium Selenate Improves Dietary Mineral Contents and Antioxidant Capacity of Culinary Herb Microgreens. Frontiers in Plant Science 12: 716437
Germ, M.; Stibilj, V.; Šircelj, H.; Jerše, A.; Kroflič, A.; Golob, A.; Maršić, N.K. 2019: Biofortification of common buckwheat microgreens and seeds with different forms of selenium and iodine. Journal of the Science of Food and Agriculture 99(9): 4353-4362
Narayanan, N.; Beyene, G.; Chauhan, R.Deepika.; Gaitán-Solís, E.; Gehan, J.; Butts, P.; Siritunga, D.; Okwuonu, I.; Woll, A.; Jiménez-Aguilar, D.M.; Boy, E.; Grusak, M.A.; Anderson, P.; Taylor, N.J. 2019: Biofortification of field-grown cassava by engineering expression of an iron transporter and ferritin. Nature Biotechnology 37(2): 144-151
Lowe, N.M.; Zaman, M.; Moran, V.H.; Ohly, H.; Sinclair, J.; Fatima, S.; Broadley, M.R.; Joy, E.J.M.; Mahboob, U.; Lark, R.M.; Zia, M.H.; Ander, E.L.; Sharp, P.A.; Bailey, E.H.; Young, S.D.; Khan, M.J. 2020: Biofortification of wheat with zinc for eliminating deficiency in Pakistan: study protocol for a cluster-randomised, double-blind, controlled effectiveness study (BIZIFED2). Bmj Open 10(11): E039231
Sperança, M.A.; Mayorquín-Guevara, J.E.; da Cruz, M.C.P.; de Almeida Teixeira, G.H.; Pereira, F.ío.M.V. 2021: Biofortification quality in bananas monitored by energy-dispersive X-ray fluorescence and chemometrics. Food Chemistry 362: 130172
Ortiz, D.; Lawson, T.; Jarrett, R.; Ring, A.; Scoles, K.L.; Hoverman, L.; Rocheford, E.; Karcher, D.M.; Rocheford, T. 2021: Biofortified orange corn increases xanthophyll density and yolk pigmentation in egg yolks from laying hens. Poultry Science 100(7): 101117
Parracino, M.; Pellacani, P.; Colpo, P.; Ceccone, G.; Valsesia, A.; Rossi, F.ço.; Manso Silvan, M. 2016: Biofouling Properties of Nitroxide-Modified Amorphous Carbon Surfaces. Acs Biomaterials Science and Engineering 2(11): 1976-1982
Peltola, E.; Aarva, A.; Sainio, S.; Heikkinen, J.J.; Wester, N.; Jokinen, V.; Koskinen, J.; Laurila, T. 2020: Biofouling affects the redox kinetics of outer and inner sphere probes on carbon surfaces drastically differently - implications to biosensing. Physical Chemistry Chemical Physics: Pccp 22(29): 16630-16640
Javier, L.; Farhat, N.M.; Desmond, P.; Linares, R.V.; Bucs, S.ár.; Kruithof, J.C.; Vrouwenvelder, J.S. 2020: Biofouling control by phosphorus limitation strongly depends on the assimilable organic carbon concentration. Water Research 183: 116051
Fujioka, T.; Tra Ngo, M.T.; Mochochoko, T.; Boivin, S.; Ohkuma, N.; Yasui, H.; Terashima, M. 2020: Biofouling control of a forward osmosis membrane during single-pass pre-concentration of wastewater. Chemosphere 257: 127263
De Vries, H.J.; Kleibusch, E.; Hermes, G.D.A.; van den Brink, P.; Plugge, C.M. 2021: Biofouling control: the impact of biofilm dispersal and membrane flushing. Water Research 198: 117163
Curtin, A.M.; Buckley, H.L. 2021: Biofouling detection methods that are widely applicable and useful across disciplines: a mini-review. Biofouling 2021: 1-12
Amaral-Zettler, L.A.; Zettler, E.R.; Mincer, T.J.; Klaassen, M.A.; Gallager, S.M. 2021: Biofouling impacts on polyethylene density and sinking in coastal waters: a macro/micro tipping point?. Water Research 201: 117289
Dudley, Q.M.; Cai, Y.-M.; Kallam, K.; Debreyne, H.; Carrasco Lopez, J.A.; Patron, N.J. 2021: Biofoundry-assisted expression and characterization of plant proteins. Synthetic Biology 6(1): Ysab 029
Prema, V.; Prasad, H.; Srichinthu, K.K.; Kumar, S.S.; Rajkumar, K.; Marudhamani, C. 2020: Biofriendly Substitutes for Xylene in Deparaffinization. Journal of Pharmacy and Bioallied Sciences 12(Suppl 1): S623-S630
Andoralov, V.; Falk, M.; Suyatin, D.B.; Granmo, M.; Sotres, J.; Ludwig, R.; Popov, V.O.; Schouenborg, J.; Blum, Z.; Shleev, S. 2013: Biofuel cell based on microscale nanostructured electrodes with inductive coupling to rat brain neurons. Scientific Reports 3: 3270
Ohayon, D.; Nikiforidis, G.; Savva, A.; Giugni, A.; Wustoni, S.; Palanisamy, T.; Chen, X.; Maria, I.Petruta.; Di Fabrizio, E.; Costa, P.M.F.J.; McCulloch, I.; Inal, S. 2020: Biofuel powered glucose detection in bodily fluids with an n-type conjugated polymer. Nature Materials 19(4): 456-463
Williams, P.J.le.B. 2007: Biofuel: microalgae cut the social and ecological costs. Nature 450(7169): 478
Bao, J.; Catucci, G.; Valetti, F. 2020: Biofuels Production from Renewable Resources. Biotechnology and Applied Biochemistry 67(5): 711-713
Shahid, M.K.; Batool, A.; Kashif, A.; Nawaz, M.H.; Aslam, M.; Iqbal, N.; Choi, Y. 2021: Biofuels and biorefineries: Development, application and future perspectives emphasizing the environmental and economic aspects. Journal of Environmental Management 297: 113268
Odling-Smee, L. 2007: Biofuels bandwagon hits a rut. Nature 446(7135): 483
Waltz, E. 2008: Biofuels, take two. Nature Biotechnology 26(7): 722
Rodriguez, L.C.; O'Connell, D. 2011: Biofuels: Balance the blend of food and fuel. Nature 476(7360): 283
Nielsen, J. 2011: Biofuels: chimeric synthetic pathways. Nature Chemical Biology 7(4): 195-196
Badv, M.; Alonso-Cantu, C.; Shakeri, A.; Hosseinidoust, Z.; Weitz, J.I.; Didar, T.F. 2019: Biofunctional Lubricant-Infused Vascular Grafts Functionalized with Silanized Bio-Inks Suppress Thrombin Generation and Promote Endothelialization. Acs Biomaterials Science and Engineering 5(12): 6485-6496
Beltrán, A.M.; Begines, B.én.; Alcudia, A.; Rodríguez-Ortiz, J.é A.; Torres, Y. 2020: Biofunctional and Tribomechanical Behavior of Porous Titanium Substrates Coated with a Bioactive Glass Bilayer (45S5-1393). Acs Applied Materials and Interfaces 12(27): 30170-30180
Pradipta, A.R.; Tanaka, K. 2021: Biofunctional chemistry and reactivity of biogenic acrolein for cancer diagnosis and therapy. Chemical Communications 57(77): 9798-9806
Gao, P.; Fan, B.; Yu, X.; Liu, W.; Wu, J.; Shi, L.; Yang, D.; Tan, L.; Wan, P.; Hao, Y.; Li, S.; Hou, W.; Yang, K.; Li, X.; Guo, Z. 2020: Biofunctional magnesium coated Ti6Al4V scaffold enhances osteogenesis and angiogenesis in vitro and in vivo for orthopedic application. Bioactive Materials 5(3): 680-693
Wei, X.; Tang, Z.; Wu, H.; Zuo, X.; Dong, H.; Tan, L.; Wang, W.; Liu, Y.; Wu, Z.; Shi, L.; Wang, N.; Li, X.; Xiao, X.; Guo, Z. 2021: Biofunctional magnesium-coated Ti6Al4V scaffolds promote autophagy-dependent apoptosis in osteosarcoma by activating the AMPK/mTOR/ULK1 signaling pathway. Materials Today. Bio 12: 100147
Martins, A.; Reis, R.L.; Neves, N.M. 2020: Biofunctional nanostructured systems for regenerative medicine. Nanomedicine 15(16): 1545-1549
Cnops, V.; Chin, J.S.; Milbreta, U.; Chew, S.Y. 2020: Biofunctional scaffolds with high packing density of aligned electrospun fibers support neural regeneration. Journal of Biomedical Materials Research. Part a 108(12): 2473-2483
Chia, J.Y.; Miki, T.; Mihara, H.; Tsutsumi, H. 2021: Biofunctional supramolecular hydrogels fabricated from a short self-assembling peptide modified with bioactive sequences for the 3D culture of breast cancer MCF-7 cells. Bioorganic and Medicinal Chemistry 46: 116345
Mazumder, K.; Rabiul Hossain, M.; Aktar, A.; Dash, R.; Farahnaky, A. 2021: Biofunctionalities of unprocessed and processed flours of Australian lupin cultivars: Antidiabetic and organ protective potential studies. Food Research International 147: 110536
Barthes, J.; Lagarrigue, P.; Riabov, V.; Lutzweiler, G.; Kirsch, J.; Muller, C.; Courtial, E.-J.; Marquette, C.; Projetti, F.; Kzhyskowska, J.; Lavalle, P.; Vrana, N.E.; Dupret-Bories, A. 2021: Biofunctionalization of 3D-printed silicone implants with immunomodulatory hydrogels for controlling the innate immune response: An in vivo model of tracheal defect repair. Biomaterials 268: 120549
Alsharif, N.A.; Merzaban, J.S.; Kosel, J.ür. 2020: Biofunctionalization of Magnetic Nanomaterials. Journal of Visualized Experiments: Jove 2020(161)
Lai, Y.; Xu, Z.; Chen, J.; Zhou, R.; Tian, J.; Cai, Y. 2020: Biofunctionalization of Microgroove Surfaces with Antibacterial Nanocoatings. Biomed Research International 2020: 8387574
Secchi, V.; Franchi, S.; Ciccarelli, D.; Dettin, M.; Zamuner, A.; Serio, A.; Iucci, G.; Battocchio, C. 2019: Biofunctionalization of TiO2 Surfaces with Self-Assembling Layers of Oligopeptides Covalently Grafted to Chitosan. Acs Biomaterials Science and Engineering 5(5): 2190-2199
Sun, H.; Martinez, D.; Li, Z.; Schanze, K.S. 2020: Biofunctionalization of Water-Soluble poly(Phenylene Ethynylene)s. Acs Applied Materials and Interfaces 12(47): 53310-53317
Zheng, J.; Rahman, N.; Li, L.; Zhang, J.; Tan, H.; Xue, Y.; Zhao, Y.; Zhai, J.; Zhao, N.; Xu, F.; Zhang, L.; Shi, R.; Lvov, Y.; Xue, J. 2021: Biofunctionalization of electrospun fiber membranes by LbL-collagen/chondroitin sulfate nanocoating followed by mineralization for bone regeneration. Materials Science and Engineering. C Materials for Biological Applications 128: 112295
Albano, C.S.ão.; Moreira Gomes, A.; da Silva Feltran, G.ór.; da Costa Fernandes, C.él.J.; Trino, L.D.; Zambuzzi, W.F.; Lisboa-Filho, P.N. 2020: Biofunctionalization of titanium surfaces with alendronate and albumin modulates osteoblast performance. Heliyon 6(7): E04455
Chowdhury, A.K.M.Rezaul.Haque.; Tavangar, A.; Tan, B.; Venkatakrishnan, K. 2017: Biofunctionalized 3-D Carbon Nano-Network Platform for Enhanced Fibroblast Cell Adhesion. Scientific Reports 7: 44250
Lima, A.C.áu.; Campos, C.áu.F.; Cunha, C.; Carvalho, A.; Reis, R.L.; Ferreira, H.; Neves, N.M. 2021: Biofunctionalized Liposomes to Monitor Rheumatoid Arthritis Regression Stimulated by Interleukin-23 Neutralization. Advanced Healthcare Materials 10(2): E2001570
Yang, Z.; Li, H.; Tian, Y.; Fu, L.; Gao, C.; Zhao, T.; Cao, F.; Liao, Z.; Yuan, Z.; Liu, S.; Guo, Q. 2021: Biofunctionalized Structure and Ingredient Mimicking Scaffolds Achieving Recruitment and Chondrogenesis for Staged Cartilage Regeneration. Frontiers in Cell and Developmental Biology 9: 655440
Tan, J.; Li, L.; Wang, H.; Wei, L.; Gao, X.; Zeng, Z.; Liu, S.; Fan, Y.; Liu, T.; Chen, J. 2021: Biofunctionalized fibrin gel co-embedded with BMSCs and VEGF for accelerating skin injury repair. Materials Science and Engineering. C Materials for Biological Applications 121: 111749
Kim, D-Hyun.; Rozhkova, E.A.; Ulasov, I.V.; Bader, S.D.; Rajh, T.; Lesniak, M.S.; Novosad, V. 2010: Biofunctionalized magnetic-vortex microdiscs for targeted cancer-cell destruction. Nature Materials 9(2): 165-171
Le Saché, E.; Alvarez Moreno, A.; Reina, T.R. 2021: Biogas Conversion to Syngas Using Advanced Ni-Promoted Pyrochlore Catalysts: Effect of the CH4/CO2 Ratio. Frontiers in Chemistry 9: 672419
Yong, Z.J.; Bashir, M.J.K.; Hassan, M.S. 2021: Biogas and biofertilizer production from organic fraction municipal solid waste for sustainable circular economy and environmental protection in Malaysia. Science of the Total Environment 776: 145961
Wang, Y.; Zhang, Y.; Li, J.; Lin, J.-G.; Zhang, N.; Cao, W. 2021: Biogas energy generated from livestock manure in China: Current situation and future trends. Journal of Environmental Management 297: 113324
Yuan, Z.L.; Gerbens-Leenes, P.W. 2021: Biogas feedstock potentials and related water footprints from residues in China and the European Union. Science of the Total Environment 793: 148340
Asadi, M.; McPhedran, K. 2021: Biogas maximization using data-driven modelling with uncertainty analysis and genetic algorithm for municipal wastewater anaerobic digestion. Journal of Environmental Management 293: 112875
Rahman, M.A.; Shahazi, R.; Nova, S.N.B.; Uddin, M.R.; Hossain, M.S.; Yousuf, A. 2021: Biogas production from anaerobic co-digestion using kitchen waste and poultry manure as substrate-part 1: substrate ratio and effect of temperature. Biomass Conversion and Biorefinery 2021: 1-11
Lin, C.-Y.; Lay, C.-H.; Chew, K.W.; Nomanbhay, S.; Gu, R.-L.; Chang, S.-H.; Kumar, G.; Show, P.L. 2021: Biogas production from beverage factory wastewater in a mobile bioenergy station. Chemosphere 264(Part 2): 128564
Zamanzadeh, M.; Hagen, L.Heldal.; Svensson, K.; Linjordet, R.; Horn, S.Jarle. 2017: Biogas production from food waste via co-digestion and digestion- effects on performance and microbial ecology. Scientific Reports 7(1): 17664
Sonwai, A.; Pholchan, P.; Pholchan, M.K.; Pardang, P.; Nuntaphan, A.; Juangjandee, P.; Totarat, N.; Tippayawong, N. 2021: Biogas production from high solids digestion of Pennisetum purpureum x Pennisetum typhoideum: Suitable conditions and microbial communities. Journal of Environmental Management 299: 113570
Otero, A.; Mendoza, M.; Carreras, R.; Fernández, B. 2021: Biogas production from slaughterhouse waste: Effect of blood content and fat saponification. Waste Management 133: 119-126
Machado, S.L.; Santos, Át.C.; de Fátima Carvalho, M.; Damasceno, L.A.G.óe.; Almeida, L.íc.V.; Dos Santos, A.B. 2021: Biogas production in a tropical landfill: Long-term monitoring results and analysis of variables of influence. Environmental Monitoring and Assessment 193(8): 485
Yoshida, K.; Shimizu, N. 2020: Biogas production management systems with model predictive control of anaerobic digestion processes. Bioprocess and Biosystems Engineering 43(12): 2189-2200
Arias, D.E.; Veluchamy, C.; Habash, M.B.; Gilroyed, B.H. 2021: Biogas production, waste stabilization efficiency, and hygienization potential of a mesophilic anaerobic plug flow reactor processing swine manure and corn stover. Journal of Environmental Management 284: 112027
Tsachidou, B.; Hissler, C.; Noo, A.Ïs.; Lemaigre, S.éb.; Daigneux, B.; Gennen, J.ér.ôm.; Pacaud, S.ép.; George, I.F.; Delfosse, P. 2021: Biogas residues in the battle for terrestrial carbon sequestration: a comparative decomposition study in the grassland soils of the Greater Region. Journal of Environmental Management 286: 112272
Rahaman, M.A.; Zhang, Q.; Shi, Y.; Zhan, X.; Li, G. 2021: Biogas slurry application could potentially reduce N2O emissions and increase crop yield. Science of the Total Environment 778: 146269
Desta, G.A.; Melka, Y.; Sime, G.; Yirga, F.; Marie, M.; Haile, M. 2020: Biogas technology in fuelwood saving and carbon emission reduction in southern Ethiopia. Heliyon 6(10): E04791
Liu, T.; Lim, Z.K.; Chen, H.; Wang, Z.; Hu, S.; Yuan, Z.; Guo, J. 2020: Biogas-driven complete nitrogen removal from wastewater generated in side-stream partial nitritation. Science of the Total Environment 745: 141153
Gurdeep Singh, H.K.; Yusup, S.; Quitain, A.T.; Abdullah, B.; Ameen, M.; Sasaki, M.; Kida, T.; Cheah, K.W. 2020: Biogasoline production from linoleic acid via catalytic cracking over nickel and copper-doped ZSM-5 catalysts. Environmental Research 186: 109616
Osborne, R. 2007: Biogen Idec goes on the auction block. Nature Biotechnology 25(12): 1335-1336
Mitchell, P. 2011: Biogen Idec restructures, sharpens neurology focus. Nature Biotechnology 29(1): 7-8
Sheridan, C. 2016: Biogen and UPenn join forces to commercialize gene therapies. Nature Biotechnology 34(8): 791-793
Ledford, H. 2008: Biogen fights takeover bid. Nature 453(7199): 1149
Newmark, P. 1986: Biogen revives forgotten project. Nature 319(6055): 613
Brower, V. 1997: Biogen wins Euro MS approval, but loses patents. Nature Biotechnology 15(5): 410
Ratner, M. 2015: Biogen's early Alzheimer's data raise hopes, some eyebrows. Nature Biotechnology 33(5): 438
Davidson, S. 2001: Biogen, Serono squabble over MS market. Nature Biotechnology 19(8): 696-697
Takakura, M.; Ishiguro, K.; Akichika, S.; Miyauchi, K.; Suzuki, T. 2019: Biogenesis and functions of aminocarboxypropyluridine in tRNA. Nature Communications 10(1): 5542
Fagan, R.P.; Fairweather, N.F. 2014: Biogenesis and functions of bacterial S-layers. Nature Reviews. Microbiology 12(3): 211-222
Ma, Y.; Xu, Y.; Zhang, J.; Zheng, L. 2020: Biogenesis and functions of circular RNAs and their role in diseases of the female reproductive system. Reproductive Biology and Endocrinology: Rb&e 18(1): 104
Jarvis, P.; López-Juez, E. 2013: Biogenesis and homeostasis of chloroplasts and other plastids. Nature Reviews. Molecular Cell Biology 14(12): 787-802
Zhang, Y.; Wang, C.; Jia, H. 2021: Biogenesis and maintenance of the apicoplast in model apicomplexan parasites. Parasitology International 81: 102270
Shen, S.; Xie, Z.; Cai, D.; Yu, X.; Zhang, H.; Kim, E.S.; Zhou, B.; Hou, J.; Zhang, X.; Huang, Q.; Sun, J.; Guo, H. 2020: Biogenesis and molecular characteristics of serum hepatitis B virus RNA. Plos Pathogens 16(10): E1008945
Cherrak, Y.; Rapisarda, C.; Pellarin, R.; Bouvier, G.; Bardiaux, B.; Allain, F.; Malosse, C.; Rey, M.; Chamot-Rooke, J.; Cascales, E.; Fronzes, Rémi.; Durand, E. 2018: Biogenesis and structure of a type VI secretion baseplate. Nature Microbiology 3(12): 1404-1416
Durand, E.; Nguyen, V.Son.; Zoued, A.; Logger, L.; Péhau-Arnaudet, Gérard.; Aschtgen, M-Stéphanie.; Spinelli, S.; Desmyter, A.; Bardiaux, B.; Dujeancourt, A.; Roussel, A.; Cambillau, C.; Cascales, E.; Fronzes, Rémi. 2015: Biogenesis and structure of a type VI secretion membrane core complex. Nature 523(7562): 555-560
Terasaka, N.; Kimura, S.; Osawa, T.; Numata, T.; Suzuki, T. 2011: Biogenesis of 2-agmatinylcytidine catalyzed by the dual protein and RNA kinase TiaS. Nature Structural and Molecular Biology 18(11): 1268-1274
Overath, P.; Hill, F.F.; Lamnek-Hirsch, I. 1971: Biogenesis of E. coli membrane: evidence for randomization of lipid phase. Nature: new Biology 234(52): 264-267
Kang, T.; Atukorala, I.; Mathivanan, S. 2021: Biogenesis of Extracellular Vesicles. Sub-Cellular Biochemistry 97: 19-43
Shi, R.; Hou, W.; Wang, Z.-Q.; Xu, X. 2021: Biogenesis of Iron-Sulfur Clusters and their Role in DNA Metabolism. Frontiers in Cell and Developmental Biology 9: 735678
Naradasu, D.; Miran, W.; Sharma, S.; Takenawa, S.; Soma, T.; Nomura, N.; Toyofuku, M.; Okamoto, A. 2021: Biogenesis of Outer Membrane Vesicles Concentrates the Unsaturated Fatty Acid of Phosphatidylinositol in Capnocytophaga ochracea. Frontiers in Microbiology 12: 682685
Mbonye, U.; Leskov, K.; Shukla, M.; Valadkhan, S.; Karn, J. 2021: Biogenesis of P-TEFb in CD4+ T cells to reverse HIV latency is mediated by protein kinase C (PKC)-independent signaling pathways. Plos Pathogens 17(9): E1009581
Garrido-Godino, A.I.; Gutiérrez-Santiago, F.; Navarro, F. 2021: Biogenesis of RNA Polymerases in Yeast. Frontiers in Molecular Biosciences 8: 669300
Shoji, M.; Shibata, S.; Sueyoshi, T.; Naito, M.; Nakayama, K. 2020: Biogenesis of Type V pili. Microbiology and Immunology 64(10): 643-656
Seul, A.; Brasilès, S.; Petitpas, I.; Lurz, R.; Campanacci, V.ér.; Cambillau, C.; Weise, F.; Zairi, M.; Tavares, P.; Auzat, I. 2021: Biogenesis of a Bacteriophage Long Non-Contractile Tail. Journal of Molecular Biology 433(18): 167112
Turner, S.R.; Tainer, J.A.; Lynn, W.S. 1975: Biogenesis of chemotactic molecules by the arachidonate lipoxygenase system of platelets. Nature 257(5528): 680-681
Kispal, G.; Sipos, K.; Lange, H.; Fekete, Z.; Bedekovics, T.; Janáky, Tás.; Bassler, J.; Aguilar Netz, D.J.; Balk, J.; Rotte, C.; Lill, R. 2005: Biogenesis of cytosolic ribosomes requires the essential iron-sulphur protein Rli1p and mitochondria. EMBO Journal 24(3): 589-598
Sprayberry, B.A.; Hall, W.C.; Miller, C.S. 1965: Biogenesis of ethylene in Penicillium digitatum. Nature 208(5017): 1322-1323
Kutacek, M.; Prochazka, Z.; Veres, K. 1962: Biogenesis of glucobrassicin, the in vitro precursor of ascorbigen. Nature 194: 393-394
Taylor, E.H.; Ramstad, E. 1960: Biogenesis of lysergic acid in ergot. Nature 188: 494-495
Kuo, S-Lin.; Chen, C-Lin.; Pan, Y-Ru.; Chiu, W-Tai.; Chen, H-Chen. 2018: Biogenesis of podosome rosettes through fission. Scientific Reports 8(1): 524
Mishanina, T.V.; Libiad, M.; Banerjee, R. 2015: Biogenesis of reactive sulfur species for signaling by hydrogen sulfide oxidation pathways. Nature Chemical Biology 11(7): 457-464
Kim, V.Narry.; Han, J.; Siomi, M.C. 2009: Biogenesis of small RNAs in animals. Nature Reviews. Molecular Cell Biology 10(2): 126-139
Zhu, W.; Klinman, J.P. 2020: Biogenesis of the peptide-derived redox cofactor pyrroloquinoline quinone. Current Opinion in Chemical Biology 59: 93-103
Hefendehl, F.W. 1972: Biogenesis of volatile oils. Composition of the volatile oils of Pelargonium tomentosum. Planta Medica 22(4): 378-385
Guo, Z.; Cao, Q.; Zhao, Z.; Song, C. 2020: Biogenesis, Features, Functions, and Disease Relationships of a Specific Circular RNA: CDR1as. Aging and Disease 11(4): 1009-1020
Dong, H.; Zhou, J.; Cheng, Y.; Wang, M.; Wang, S.; Xu, H. 2021: Biogenesis, Functions, and Role of CircRNAs in Lung Cancer. Cancer Management and Research 13: 6651-6671
Gurunathan, S.; Kang, M.-H.; Qasim, M.; Khan, K.; Kim, J.-H. 2021: Biogenesis, Membrane Trafficking, Functions, and Next Generation Nanotherapeutics Medicine of Extracellular Vesicles. International Journal of Nanomedicine 16: 3357-3383
Fu, Y.; Sun, H. 2021: Biogenesis, cellular effects, and biomarker value of circHIPK3. Cancer Cell International 21(1): 256
Salim, U.; Kumar, A.; Kulshreshtha, R.; Vivekanandan, P. 2022: Biogenesis, characterization, and functions of mirtrons. Wiley Interdisciplinary Reviews. Rna 13(1): E1680
Jayle, M.F. 1948: Biogenesis, intermediate metabolism and elimination of ovarian hormones. Exposes Annuels de Biochimie Medicale 2(8 Ser): 175-205
Chivero, E.T.; Dagur, R.S.; Peeples, E.S.; Sil, S.; Liao, K.; Ma, R.; Chen, L.; Gurumurthy, C.B.; Buch, S.; Hu, G. 2021: Biogenesis, physiological functions and potential applications of extracellular vesicles in substance use disorders. Cellular and Molecular Life Sciences: Cmls 78(11): 4849-4865
Li, Y.; Sun, H.; Yasoob, H.; Tian, Z.; Li, Y.; Li, R.; Zheng, S.; Liu, J.; Zhang, Y. 2021: Biogenetic cantharidin is a promising leading compound to manage insecticide resistance of Mythimna separata (Lepidoptera: Noctuidae). Pesticide Biochemistry and Physiology 172: 104769
Giral Y Pereira, J. 1948: Biogenetic elements in their cycles. REVISTA. Universidad Nacional Mayor de San Marcos. Facultad de Farmacia y Bioquimica 10(37-38): 1-10
Mizoguchi, H.; Oikawa, H.; Oguri, H. 2014: Biogenetically inspired synthesis and skeletal diversification of indole alkaloids. Nature Chemistry 6(1): 57-64
Nie, Z.; Wang, N.; Xia, X.; Xia, J.; Liu, H.; Zhou, Y.; Deng, Y.; Xue, Z. 2020: Biogenic FeS promotes dechlorination and thus de-cytotoxity of trichloroethylene. Bioprocess and Biosystems Engineering 43(10): 1791-1800
Vähätalo, A.V.; Xiao, Y.; Salonen, K. 2021: Biogenic Fenton process - a possible mechanism for the mineralization of organic carbon in fresh waters. Water Research 188: 116483
Li, X.; Liu, J.; Zhang, W.; Wu, Y.; Li, J.; Foda, M.F.; Han, H. 2020: Biogenic Hybrid Nanosheets Activated Photothermal Therapy and Promoted Anti-PD-L1 Efficacy for Synergetic Antitumor Strategy. Acs Applied Materials and Interfaces 12(26): 29122-29132
Da Silva Pedrosa, G.; de Oliveira, D.P.; Bison, J.V.ér.S.; Bugarelli, R.M.; Cruz, L.S.; de Souza, S.R. 2020: Biogenic Volatile Organic Compounds Emission of Brazilian Atlantic Tree Grown Under Elevated Ozone in Ambient Controlled and Field Conditions. Bulletin of Environmental Contamination and Toxicology 105(6): 958-966
Joshi, K.K.; Matlack, T.L.; Pyonteck, S.; Vora, M.; Menzel, R.; Rongo, C. 2021: Biogenic amine neurotransmitters promote eicosanoid production and protein homeostasis. EMBO reports 22(3): e51063
Matsumoto, J. 1981: Biogenic amines and sleep. Tanpakushitsu Kakusan Koso. Protein Nucleic Acid Enzyme 26(11): 1719-1724
Spano, G.; Russo, P.; Lonvaud-Funel, A.; Lucas, P.; Alexandre, H.; Grandvalet, C.; Coton, E.; Coton, M.; Barnavon, L.; Bach, B.; Rattray, F.; Bunte, A.; Magni, C.; Ladero, V.; Alvarez, M.; Fernández, M.; Lopez, P.; de Palencia, P.F.; Corbi, A.; Trip, H.; Lolkema, J.S. 2010: Biogenic amines in fermented foods. European Journal of Clinical Nutrition 64 Suppl. 3: S95-100
Jaguey-Hernández, Y.; Aguilar-Arteaga, K.; Ojeda-Ramirez, D.; Añorve-Morga, J.; González-Olivares, L.G.; Castañeda-Ovando, A. 2021: Biogenic amines levels in food processing: Efforts for their control in foodstuffs. Food Research International 144: 110341
Meyer, K.W.; Petersen, S.V.; Lohmann, K.C.; Blum, J.D.; Washburn, S.J.; Johnson, M.W.; Gleason, J.D.; Kurz, A.Y.; Winkelstern, I.Z. 2019: Biogenic carbonate mercury and marine temperature records reveal global influence of Late Cretaceous Deccan Traps. Nature Communications 10(1): 5356
Krishnan, M.; Subramanian, H.; Dahms, H-Uwe.; Sivanandham, V.; Seeni, P.; Gopalan, S.; Mahalingam, A.; Rathinam, A.James. 2018: Biogenic corrosion inhibitor on mild steel protection in concentrated HCl medium. Scientific Reports 8(1): 2609
Kumar Bachheti, R.; Fikadu, A.; Bachheti, A.; Husen, A. 2020: Biogenic fabrication of nanomaterials from flower-based chemical compounds, characterization and their various applications: a review. Saudi Journal of Biological Sciences 27(10): 2551-2562
Foran, E.; Weiner, S.; Fine, M. 2013: Biogenic fish-gut calcium carbonate is a stable amorphous phase in the gilt-head seabream, Sparus aurata. Scientific Reports 3: 1700
Sharma, B.; Mandani, S.; Sarma, T.K. 2013: Biogenic growth of alloys and core-shell nanostructures using urease as a nanoreactor at ambient conditions. Scientific Reports 3: 2601
Jissin, M.; Vani, C. 2020: Biogenic larvicidal formulation of metabolites from Steinernema saimkayi symbiont Xenorhabdus stockiae KUT6 against dengue vector Aedes aegypti. Tropical Biomedicine 37(3): 791-802
Singh, A.; Kuttippurath, J.; Abbhishek, K.; Mallick, N.; Raj, S.; Chander, G.; Dixit, S. 2021: Biogenic link to the recent increase in atmospheric methane over India. Journal of Environmental Management 289: 112526
Valen, E.; Preker, P.; Andersen, P.Refsing.; Zhao, X.; Chen, Y.; Ender, C.; Dueck, A.; Meister, G.; Sandelin, A.; Jensen, T.Heick. 2011: Biogenic mechanisms and utilization of small RNAs derived from human protein-coding genes. Nature Structural and Molecular Biology 18(9): 1075-1082
Wang, S.; Ardekani, A.M. 2015: Biogenic mixing induced by intermediate Reynolds number swimming in stratified fluids. Scientific Reports 5: 17448
Thapa, R.; Mondal, S.; Riikonen, J.; Rantanen, J.; Näkki, S.; Nissinen, T.; Närvänen, A.; Lehto, V.-P. 2021: Biogenic nanoporous silicon carrier improves the efficacy of buparvaquone against resistant visceral leishmaniasis. Plos Neglected Tropical Diseases 15(6): E0009533
Bhattacharyya, A.; Campbell, K.M.; Kelly, S.D.; Roebbert, Y.; Weyer, S.; Bernier-Latmani, R.; Borch, T. 2017: Biogenic non-crystalline U (IV) revealed as major component in uranium ore deposits. Nature Communications 8: 15538
Ishak, N.A.I.M.; Kamarudin, S.K.; Timmiati, S.N.; Karim, N.A.; Basri, S. 2021: Biogenic platinum from agricultural wastes extract for improved methanol oxidation reaction in direct methanol fuel cell. Journal of Advanced Research 28: 63-75
Rast, A.; Schaffer, M.; Albert, S.; Wan, W.; Pfeffer, S.; Beck, F.; Plitzko, Jürgen.M.; Nickelsen, Jörg.; Engel, B.D. 2019: Biogenic regions of cyanobacterial thylakoids form contact sites with the plasma membrane. Nature Plants 5(4): 436-446
Mahilang, M.; Deb, M.K.; Pervez, S.; Tiwari, S.; Jain, V.K. 2021: Biogenic secondary organic aerosol formation in an urban area of eastern central India: Seasonal variation, size distribution and source characterization. Environmental Research 195: 110802
Mahilang, M.; Deb, M.K.; Pervez, S. 2021: Biogenic secondary organic aerosols: a review on formation mechanism, analytical challenges and environmental impacts. Chemosphere 262: 127771
Li, B.; Li, D.; Jing, W.; Fan, J.; Dahms, H-Uwe.; Lee, S-Chin.; Wang, L. 2017: Biogenic selenium and its hepatoprotective activity. Scientific Reports 7(1): 15627
Zeng, Q.; Wang, Y.; Zan, F.; Khanal, S.K.; Hao, T. 2021: Biogenic sulfide for azo dye decolorization from textile dyeing wastewater. Chemosphere 283: 131158
Raj, S.; Singh, H.; Trivedi, R.; Soni, V. 2020: Biogenic synthesis of AgNPs employing Terminalia arjuna leaf extract and its efficacy towards catalytic degradation of organic dyes. Scientific Reports 10(1): 9616
Li, S.; Yuan, X.; Xu, Y.; Li, Z.; Feng, Z.; Yue, X.; Paoletti, E. 2021: Biogenic volatile organic compound emissions from leaves and fruits of apple and peach trees during fruit development. Journal of Environmental Sciences 108: 152-163
Bergese, P.; Hamad-Schifferli, K.; Montis, C. 2021: Biogenic, hybrid and synthetic vesicles. Biochimica et Biophysica Acta. General Subjects 1865(4): 129779
Hassan, H.M.A.; Alhumaimess, M.S.; Alsohaimi, I.H.; Essawy, A.A.; Hussein, M.F.; Alshammari, H.M.; Aldosari, O.F. 2020: Biogenic-Mediated Synthesis of the Cs2O-MgO/MPC Nanocomposite for Biodiesel Production from Olive Oil. Acs Omega 5(43): 27811-27822
O'Dowd, C.D.; Facchini, M.Cristina.; Cavalli, F.; Ceburnis, D.; Mircea, M.; Decesari, S.; Fuzzi, S.; Yoon, Y.Jun.; Putaud, J-Philippe. 2004: Biogenically driven organic contribution to marine aerosol. Nature 431(7009): 676-680
Fukushi, M.; Mino, S.; Tanaka, H.; Nakagawa, S.; Takai, K.; Sawabe, T. 2020: Biogeochemical Implications of N2O-Reducing Thermophilic Campylobacteria in Deep-Sea Vent Fields, and the Description of Nitratiruptor labii sp. nov. Iscience 23(9): 101462
Łukawska-Matuszewska, K.; Brocławik, O.; Brodecka-Goluch, A.; Rzepa, G.; Manecki, M.; Bolałek, J. 2022: Biogeochemical and mineralogical effects of Fe-P-S dynamics in sediments of continental shelf sea: Impact of salinity, oxygen conditions, and catchment area characteristics. Science of the Total Environment 807(Part 3): 151035
Nevalainen, L.; Rantala, M.V.; Kivilä, E.H.; Lami, A.; Wauthy, M.; Rautio, M.; Luoto, T.P. 2020: Biogeochemical and photobiological responses of subarctic lakes to UV radiation. Journal of Photochemistry and Photobiology. B Biology 209: 111932
Glas, M.S.; Sato, Y.; Ulstrup, K.E.; Bourne, D.G. 2012: Biogeochemical conditions determine virulence of black band disease in corals. Isme Journal 6(8): 1526-1534
Flynn, T.M.; Antonopoulos, D.A.; Skinner, K.A.; Brulc, J.M.; Johnston, E.; Boyanov, M.I.; Kwon, M.J.; Kemner, K.M.; O'Loughlin, E.J. 2021: Biogeochemical dynamics and microbial community development under sulfate- and iron-reducing conditions based on electron shuttle amendment. Plos one 16(5): E0251883
Ljunggren, P. 1959: Biogeochemical enrichment of fission products. Nature 184(Suppl. 12): 912
Nguyen, A.T.; Némery, J.; Gratiot, N.; Garnier, J.; Dao, T.S.; Thieu, V.; Laruelle, G.G. 2021: Biogeochemical functioning of an urbanized tropical estuary: Implementing the generic C-GEM (reactive transport) model. Science of the Total Environment 784: 147261
Seceh, C.; Pinazo, C.; Rodier, M.; Lajaunie-Salla, K.; Mazoyer, C.; Grenz, C.; Le Gendre, R. 2021: Biogeochemical model of nitrogen cycling in Ahe (French Polynesia), a South Pacific coral atoll with pearl farming. Marine Pollution Bulletin 169: 112526
Arroyave Gómez, D.M.; Bartoli, M.; Bresciani, M.; Luciani, G.; Toro-Botero, M. 2021: Biogeochemical modelling of a tropical coastal area undergoing seasonal upwelling and impacted by untreated submarine outfall. Marine Pollution Bulletin 172: 112771
Bogotá-Gregory, J.David.; Lima, Fávio.C.T.; Correa, S.B.; Silva-Oliveira, Cárlison.; Jenkins, D.G.; Ribeiro, F.R.; Lovejoy, N.R.; Reis, R.E.; Crampton, W.G.R. 2020: Biogeochemical water type influences community composition, species richness, and biomass in megadiverse Amazonian fish assemblages. Scientific Reports 10(1): 15349
Tran, P.Q.; Anantharaman, K. 2021: Biogeochemistry Goes Viral: towards a Multifaceted Approach to Study Viruses and Biogeochemical Cycling. Msystems 6(5): E0113821
Manasypov, R.M.; Pokrovsky, O.S.; Shirokova, L.S.; Auda, Y.; Zinner, N.S.; Vorobyev, S.N.; Kirpotin, S.N. 2021: Biogeochemistry of macrophytes, sediments and porewaters in thermokarst lakes of permafrost peatlands, western Siberia. Science of the Total Environment 763: 144201
Turner, B.L.; Haygarth, P.M. 2001: Biogeochemistry. Phosphorus solubilization in rewetted soils. Nature 411(6835): 258
Jørgensen, B.B. 2001: Biogeochemistry. Space for hydrogen. Nature 412(6844): 286-7 289
Kasting, J.F.; Siefert, J.L. 2001: Biogeochemistry. The nitrogen fix. Nature 412(6842): 26-27
Pancost, R.D.; Badger, M.P.S.; Reinfelder, J. 2013: Biogeochemistry: Ancient algae crossed a threshold. Nature 500(7464): 532-533
Hurtgen, M.T. 2003: Biogeochemistry: Ancient oceans and oxygen. Nature 423(6940): 592-593
Shotyk, W. 2017: Biogeochemistry: Arctic plants take up mercury vapour. Nature 547(7662): 167-168
Still, C. 2013: Biogeochemistry: As different as night and day. Nature 501(7465): 39-40
Arthur, M.A. 2009: Biogeochemistry: Carbonate rocks deconstructed. Nature 460(7256): 698-699
Goddéris, Y.; Donnadieu, Y. 2009: Biogeochemistry: Climatic plant power. Nature 460(7251): 40-41
Wehrli, B. 2013: Biogeochemistry: Conduits of the carbon cycle. Nature 503(7476): 346-347
Brocks, J.J.; Butterfield, N.J. 2009: Biogeochemistry: Early animals out in the cold. Nature 457(7230): 672-673
Knoll, A.H. 2017: Biogeochemistry: Food for early animal evolution. Nature 548(7669): 528-530
Misumi, K. 2015: Biogeochemistry: Iron's voyage from the abyss. Nature 523(7559): 160-161
Saito, M.A. 2009: Biogeochemistry: Less nickel for more oxygen. Nature 458(7239): 714-715
Fischer, W.W. 2008: Biogeochemistry: Life before the rise of oxygen. Nature 455(7216): 1051-1052
Zona, D. 2016: Biogeochemistry: Long-term effects of permafrost thaw. Nature 537(7622): 625-626
Sunderland, E.M.; Schartup, A.T. 2016: Biogeochemistry: Mercury methylation on ice. Nature Microbiology 1(10): 16165
Hoehler, T.M.; Alperin, M.J. 2014: Biogeochemistry: Methane minimalism. Nature 507(7493): 436-437
Tranter, M. 2014: Biogeochemistry: Microbes eat rock under ice. Nature 512(7514): 256-257
Oremland, R.S. 2010: Biogeochemistry: NO connection with methane. Nature 464(7288): 500-501
Anthony, K.Walter.; MacIntyre, S. 2016: Biogeochemistry: Nocturnal escape route for marsh gas. Nature 535(7612): 363-365
Sambrotto, R.N. 2010: Biogeochemistry: Ocean biomes blended. Nature 467(7315): 538-539
Fennel, K. 2017: Biogeochemistry: Ocean hotspots of nitrogen loss. Nature 551(7680): 305-306
Sleep, N.H. 2001: Biogeochemistry: Oxygenating the atmosphere. Nature 410(6826): 317-319
Allen, G. 2016: Biogeochemistry: Rebalancing the global methane budget. Nature 538(7623): 46-48
Pan, Y.; Schimel, D. 2016: Biogeochemistry: Synergy of a warm spring and dry summer. Nature 534(7608): 483-484
Voss, M.; Hietanen, S. 2013: Biogeochemistry: The depths of nitrogen cycling. Nature 493(7434): 616-618
Buesseler, K.O. 2012: Biogeochemistry: The great iron dump. Nature 487(7407): 305-306
Shields-Zhou, G. 2011: Biogeochemistry: Toxic Cambrian oceans. Nature 469(7328): 42-43
Pearson, A. 2008: Biogeochemistry: Who lives in the sea floor?. Nature 454(7207): 952-953
Hayes, J.M. 2002: Biogeochemistry: a lowdown on oxygen. Nature 417(6885): 127-128
MacBean, N.; Peylin, P. 2014: Biogeochemistry: agriculture and the global carbon cycle. Nature 515(7527): 351-352
Schmidt, M.W.I. 2004: Biogeochemistry: carbon budget in the black. Nature 427(6972): 305-307
Medlyn, B.; De Kauwe, M. 2013: Biogeochemistry: carbon dioxide and water use in forests. Nature 499(7458): 287-289
Beukes, N. 2004: Biogeochemistry: early options in photosynthesis. Nature 431(7008): 522-523
Boyd, P.W. 2007: Biogeochemistry: iron findings. Nature 446(7139): 989-991
Thauer, R.K.; Shima, S. 2006: Biogeochemistry: methane and microbes. Nature 440(7086): 878-879
Billings, S.A. 2008: Biogeochemistry: nitrous oxide in flux. Nature 456(7224): 888-889
Hedin, L.O. 2015: Biogeochemistry: signs of saturation in the tropical carbon sink. Nature 519(7543): 295-296
Gee, H. 2002: Biogeochemistry: that's life?. Nature 416(6876): 28
Winkelmann, A. 2020: Biogeographic Ancestry Cannot be Unequivocally Determined. Deutsches Arzteblatt International 117(15): 269
Sun, S.-H.; Chen, J.; Wang, P.-F.; Wang, C.; Wang, X.; Miao, L.-Z.; Liu, S.; Yuan, Q.-S. 2020: Biogeographic Distribution Patterns of Diatoms in Lancang River and their Key Drivers. Huan Jing Ke Xue= Huanjing Kexue 41(12): 5458-5469
Zhang, H.; Zong, R.; He, H.; Liu, K.; Yan, M.; Miao, Y.; Ma, B.; Huang, X. 2021: Biogeographic distribution patterns of algal community in different urban lakes in China: Insights into the dynamics and co-existence. Journal of Environmental Sciences 100: 216-227
Esquivel-Muelbert, A.; Galbraith, D.; Dexter, K.G.; Baker, T.R.; Lewis, S.L.; Meir, P.; Rowland, L.; Costa, A.Carlos.Lola.da.; Nepstad, D.; Phillips, O.L. 2017: Biogeographic distributions of neotropical trees reflect their directly measured drought tolerances. Scientific Reports 7(1): 8334
Xiang, K.-L.; Erst, A.S.; Yang, J.; Peng, H.-W.; Ortiz, R.D.C.; Jabbour, F.; Erst, T.V.; Wang, W. 2021: Biogeographic diversification of Eranthis (Ranunculaceae) reflects the geological history of the three great Asian plateaus. PROCEEDINGS. Biological Sciences 288(1948): 20210281
Chen, X.-H.; Xiang, K.-L.; Lian, L.; Peng, H.-W.; Erst, A.S.; Xiang, X.-G.; Chen, Z.-D.; Wang, W. 2020: Biogeographic diversification of Mahonia (Berberidaceae): Implications for the origin and evolution of East Asian subtropical evergreen broadleaved forests. Molecular Phylogenetics and Evolution 151: 106910
Martín-Hernanz, S.; Albaladejo, R.G.; Lavergne, S.éb.; Rubio, E.ón.; Grall, A.él.; Aparicio, A. 2021: Biogeographic history and environmental niche evolution in the palearctic genus Helianthemum (Cistaceae). Molecular Phylogenetics and Evolution 163: 107238
Campos-Soto, R.; Díaz-Campusano, G.; Rives-Blanchard, N.; Cianferoni, F.; Torres-Pérez, F. 2020: Biogeographic origin and phylogenetic relationships of Mepraia (Hemiptera, Reduviidae) on islands of northern Chile. Plos one 15(6): E0234056
Moiloa, N.A.; Mesbah, M.; Nylinder, S.; Manning, J.; Forest, F.él.; de Boer, H.J.; Bacon, C.D.; Oxelman, B. 2021: Biogeographic origins of southern African Silene (Caryophyllaceae). Molecular Phylogenetics and Evolution 162: 107199
Pimsler, M.L.; Oyen, K.J.; Herndon, J.D.; Jackson, J.M.; Strange, J.P.; Dillon, M.E.; Lozier, J.D. 2020: Biogeographic parallels in thermal tolerance and gene expression variation under temperature stress in a widespread bumble bee. Scientific Reports 10(1): 17063
Mo, Y.; Zhang, W.; Yang, J.; Lin, Y.; Yu, Z.; Lin, S. 2018: Biogeographic patterns of abundant and rare bacterioplankton in three subtropical bays resulting from selective and neutral processes. Isme Journal 12(9): 2198-2210
Lehours, A-Catherine.; Enault, Fçois.; Boeuf, D.; Jeanthon, C. 2018: Biogeographic patterns of aerobic anoxygenic phototrophic bacteria reveal an ecological consistency of phylogenetic clades in different oceanic biomes. Scientific Reports 8(1): 4105
Monsimet, J.ér.ém.; Colinet, H.é; Devineau, O.; Lafage, D.; Pétillon, J. 2021: Biogeographic position and body size jointly set lower thermal limits of wandering spiders. Ecology and Evolution 11(7): 3347-3356
Mychajliw, A.M.; Rick, T.C.; Dagtas, N.D.; Erlandson, J.M.; Culleton, B.J.; Kennett, D.J.; Buckley, M.; Hofman, C.A. 2020: Biogeographic problem-solving reveals the Late Pleistocene translocation of a short-faced bear to the California Channel Islands. Scientific Reports 10(1): 15172
Flores-Tolentino, M.; Beltrán-Rodríguez, L.; Morales-Linares, J.; Ramírez Rodríguez, J.R.; Ibarra-Manríquez, G.; Dorado, Ós.; Villaseñor, J.é L. 2021: Biogeographic regionalization by spatial and environmental components: Numerical proposal. Plos one 16(6): E0253152
Teng, Z.-J.; Qin, Q.-L.; Zhang, W.; Li, J.; Fu, H.-H.; Wang, P.; Lan, M.; Luo, G.; He, J.; McMinn, A.; Wang, M.; Chen, X.-L.; Zhang, Y.-Z.; Chen, Y.; Li, C.-Y. 2021: Biogeographic traits of dimethyl sulfide and dimethylsulfoniopropionate cycling in polar oceans. Microbiome 9(1): 207
Senji Laxme, R.R.; Khochare, S.; Attarde, S.; Suranse, V.; Iyer, A.; Casewell, N.R.; Whitaker, R.; Martin, G.; Sunagar, K. 2021: Biogeographic venom variation in Russell's viper (Daboia russelii) and the preclinical inefficacy of antivenom therapy in snakebite hotspots. Plos Neglected Tropical Diseases 15(3): E0009247
Yeoman, C.J.; Ishaq, S.L.; Bichi, E.; Olivo, S.K.; Lowe, J.; Aldridge, B.M. 2018: Biogeographical Differences in the Influence of Maternal Microbial Sources on the Early Successional Development of the Bovine Neonatal Gastrointestinal tract. Scientific Reports 8(1): 3197
Chalvantzi, I.; Banilas, G.; Tassou, C.; Nisiotou, A. 2021: Biogeographical Regionalization of Wine Yeast Communities in Greece and Environmental Drivers of Species Distribution at a Local Scale. Frontiers in Microbiology 12: 705001
Garrigan, H.; Ifantides, C.; Prashanthi, G.Sai.; Das, A.Vipin. 2020: Biogeographical and Altitudinal Distribution of Cataract: A Nine-Year Experience Using Electronic Medical Record-Driven Big Data Analytics in India. Ophthalmic Epidemiology 2020: 1-8
Jordana, R.; Greenslade, P. 2020: Biogeographical and ecological insights from Australasian faunas: the megadiverse collembolan genus, Entomobrya (Entomobryidae). Zootaxa 4770(1)
Ponpetch, K.; Erko, B.; Bekana, T.; Richards, L.; Liang, S. 2021: Biogeographical characteristics of Schistosoma mansoni endemic areas in Ethiopia: a systematic review and meta analysis. Infectious Diseases of Poverty 10(1): 83
Torres, M.ía.E.; Rojas, H.L.; Alatorre, L.C.; Bravo, L.C.; Uc, M.I.án.; González, M.O.; Wiebe, L.C.; Granados, A. 2020: Biogeographical factors determining Triatoma recurva distribution in Chihuahua, México, 2014. Biomedica: Revista del Instituto Nacional de Salud 40(3): 516-527
Esperón-Moldes, U.S.; Pardo-Seco, J.; Montalván-Suárez, M.; Fachal, L.; Ginarte, M.; Rodríguez-Pazos, L.; Gómez-Carballa, A.; Moscoso, F.; Ugalde-Noritz, N.; Ordóñez-Ugalde, A.; Tettamanti-Miranda, D.; Ruiz, J.C.; Salas, A.; Vega, A. 2019: Biogeographical origin and timing of the founder ichthyosis TGM1 c.1187G > A mutation in an isolated Ecuadorian population. Scientific Reports 9(1): 7175
Li, Y.; Hu, C. 2021: Biogeographical patterns and mechanisms of microbial community assembly that underlie successional biocrusts across northern China. Npj Biofilms and Microbiomes 7(1): 15
Shimai, H.; Setoguchi, H.; Roberts, D.L.; Sun, M. 2021: Biogeographical patterns and speciation of the genus Pinguicula (Lentibulariaceae) inferred by phylogenetic analyses. Plos one 16(6): E0252581
Kertész, Kán.; Piszter, Gábor.; Bálint, Z.; Biró, László.P. 2019: Biogeographical patterns in the structural blue of male Polyommatus icarus butterflies. Scientific Reports 9(1): 2338
Zhang, H.; Wang, K.; Xu, X.; Song, T.; Xu, Y.; Zeng, F. 2015: Biogeographical patterns of biomass allocation in leaves, stems, and roots in China's forests. Scientific Reports 5: 15997
He, L.; Mukai, T.; Hou Chu, K.; Ma, Q.; Zhang, J. 2015: Biogeographical role of the Kuroshio Current in the amphibious mudskipper Periophthalmus modestus indicated by mitochondrial DNA data. Scientific Reports 5: 15645
MacLaren, J.A. 2021: Biogeography a key influence on distal forelimb variation in horses through the Cenozoic. PROCEEDINGS. Biological Sciences 288(1942): 20202465
Organ, C. 2018: Biogeography across the ages. Nature Ecology and Evolution 2(3): 412-413
Zhao, F.; Qin, Y-Hua.; Zheng, X.; Zhao, H-Wei.; Chai, D-Yan.; Li, W.; Pu, M-Xiang.; Zuo, X-Sheng.; Qian, W.; Ni, P.; Zhang, Y.; Mei, H.; He, S-Tao. 2016: Biogeography and Adaptive evolution of Streptomyces Strains from saline environments. Scientific Reports 6: 32718
Feng, J.-W.; Liu, W.-T.; Chen, J.-J.; Zhang, C.-L. 2021: Biogeography and Ecology of Magnaporthales: a Case Study. Frontiers in Microbiology 12: 654380
Gjesfjeld, E.; Etnier, M.A.; Takase, K.; Brown, W.A.; Fitzhugh, B. 2019: Biogeography and adaptation in the Kuril Islands, Northeast Asia. World Archaeology 51(3): 429-453
Biard, T.; Bigeard, E.; Audic, Séphane.; Poulain, J.; Gutierrez-Rodriguez, A.; Pesant, Séphane.; Stemmann, L.; Not, F. 2017: Biogeography and diversity of Collodaria (Radiolaria) in the global ocean. Isme Journal 11(6): 1331-1344
Gemery, L.; Cronin, T.M.; Cooper, L.W.; Dowsett, H.J.; Grebmeier, J.M. 2021: Biogeography and ecology of Ostracoda in the U.S. northern Bering, Chukchi, and Beaufort Seas. Plos one 16(5): E0251164
Oh, J.; Byrd, A.L.; Deming, C.; Conlan, S.; Kong, H.H.; Segre, J.A.; Barnabas, B.; Blakesley, R.; Bouffard, G.; Brooks, S.; Coleman, H.; Dekhtyar, M.; Gregory, M.; Guan, X.; Gupta, J.; Han, J.; Ho, S-ling.; Legaspi, R.; Maduro, Q.; Masiello, C.; Maskeri, B.; McDowell, J.; Montemayor, C.; Mullikin, J.; Park, M.; Riebow, N.; Schandler, K.; Schmidt, B.; Sison, C.; Stantripop, M.; Thomas, J.; Thomas, P.; Vemulapalli, M.; Young, A. 2014: Biogeography and individuality shape function in the human skin metagenome. Nature 514(7520): 59-64
Brinkhoff, T.; Fischer, D.; Vollmers, J.; Voget, S.; Beardsley, C.; Thole, S.; Mussmann, M.; Kunze, B.; Wagner-Döbler, I.; Daniel, R.; Simon, M. 2012: Biogeography and phylogenetic diversity of a cluster of exclusively marine myxobacteria. Isme Journal 6(6): 1260-1272
Oliveira, U.; Vasconcelos, M.F.; Santos, A.J. 2017: Biogeography of Amazon birds: rivers limit species composition, but not areas of endemism. Scientific Reports 7(1): 2992
Stubbendieck, R.M.; Zelasko, S.E.; Safdar, N.; Currie, C.R. 2021: Biogeography of Bacterial Communities and Specialized Metabolism in Human Aerodigestive Tract Microbiomes. Microbiology Spectrum 9(2): E0166921
Schmitt, T.; Fritz, U.; Delfino, M.; Ulrich, W.; Habel, J.C. 2021: Biogeography of Italy revisited: genetic lineages confirm major phylogeographic patterns and a pre-Pleistocene origin of its biota. Frontiers in Zoology 18(1): 34
Dietrich, M.; Gomard, Y.; Lagadec, E.; Ramasindrazana, B.; Le Minter, G.; Guernier, V.; Benlali, A.; Rocamora, G.; Markotter, W.; Goodman, S.M.; Dellagi, K.; Tortosa, P. 2018: Biogeography of Leptospira in wild animal communities inhabiting the insular ecosystem of the western Indian Ocean islands and neighboring Africa. Emerging Microbes and Infections 7(1): 57
He, S-Tao.; Zhi, X-Yang.; Jiang, H.; Yang, L-Ling.; Wu, J-Yuan.; Zhang, Y-Guang.; Hozzein, W.N.; Li, W-Jun. 2015: Biogeography of Nocardiopsis strains from hypersaline environments of Yunnan and Xinjiang Provinces, western China. Scientific Reports 5: 13323
Engelhardt, T.; Sahlberg, M.; Cypionka, H.; Engelen, B. 2013: Biogeography of Rhizobium radiobacter and distribution of associated temperate phages in deep subseafloor sediments. Isme Journal 7(1): 199-209
Di Iorio, L.; Audax, M.; Deter, J.; Holon, F.; Lossent, J.; Gervaise, Cédric.; Boissery, P. 2021: Biogeography of acoustic biodiversity of NW Mediterranean coralligenous reefs. Scientific Reports 11(1): 16991
Logares, R.; Lindström, E.S.; Langenheder, S.; Logue, Jürg.B.; Paterson, H.; Laybourn-Parry, J.; Rengefors, K.; Tranvik, L.; Bertilsson, S. 2013: Biogeography of bacterial communities exposed to progressive long-term environmental change. Isme Journal 7(5): 937-948
Hwang, C.-C.; Zhou, W.-C.; Ger, M.-J.; Guo, Y.; Qian, Z.-X.; Wang, Y.-C.; Tsai, C.-L.; Wu, S.-P. 2021: Biogeography of land snail genus Acusta (Gastropoda: Camaenidae): Diversification on East Asian islands. Molecular Phylogenetics and Evolution 155: 106999
Endo, H.; Blanc-Mathieu, R.; Li, Y.; Salazar, G.; Henry, N.; Labadie, K.; de Vargas, C.; Sullivan, M.B.; Bowler, C.; Wincker, P.; Karp-Boss, L.; Sunagawa, S.; Ogata, H. 2020: Biogeography of marine giant viruses reveals their interplay with eukaryotes and ecological functions. Nature Ecology and Evolution 4(12): 1639-1649
Marion, S.; Desharnais, L.; Studer, N.; Dong, Y.; Notter, M.D.; Poudel, S.; Menin, L.; Janowczyk, A.; Hettich, R.L.; Hapfelmeier, S.; Bernier-Latmani, R. 2020: Biogeography of microbial bile acid transformations along the murine gut. Journal of Lipid Research 61(11): 1450-1463
Rose, J.M.; Blanchette, C.A.; Chan, F.; Gouhier, T.C.; Raimondi, P.T.; Sanford, E.; Menge, B.A. 2020: Biogeography of ocean acidification: Differential field performance of transplanted mussels to upwelling-driven variation in carbonate chemistry. Plos one 15(7): E0234075
Jones, D.S.; Schaperdoth, I.; Macalady, J.L. 2016: Biogeography of sulfur-oxidizing Acidithiobacillus populations in extremely acidic cave biofilms. Isme Journal 10(12): 2879-2891
Čandek, K.; Agnarsson, I.; Binford, G.J.; Kuntner, Mž. 2019: Biogeography of the Caribbean Cyrtognatha spiders. Scientific Reports 9(1): 397
Fricke, H.; Hissmann, K.; Schauer, J.; Erdmann, M.; Moosa, M.K.; Plante, R. 2000: Biogeography of the Indonesian coelacanths. Nature 403(6765): 38
Vereshchaka, A.; Musaeva, E.; Lunina, A. 2021: Biogeography of the Southern Ocean: environmental factors driving mesoplankton distribution South of Africa. Peerj 9: E11411
Rodriguez-Silva, R.; Schlupp, I. 2021: Biogeography of the West Indies: a complex scenario for species radiations in terrestrial and aquatic habitats. Ecology and Evolution 11(6): 2416-2430
Maltsev, Y.; Maltseva, S.; Kociolek, J.Patrick.; Jahn, R.; Kulikovskiy, M. 2021: Biogeography of the cosmopolitan terrestrial diatom Hantzschia amphioxys sensu lato based on molecular and morphological data. Scientific Reports 11(1): 4266
Lemopoulos, A.; Covain, R.ël. 2019: Biogeography of the freshwater fishes of the Guianas using a partitioned parsimony analysis of endemicity with reappraisal of ecoregional boundaries. Cladistics: the International Journal of the Willi Hennig Society 35(1): 106-124
Martin, K.R.; Johnson, P.T.J.; Bowerman, J.; Li, J. 2020: Biogeography of the freshwater gastropod, Planorbella trivolvis, in the western United States. Plos one 15(7): E0235989
Birch, J.L.; Kocyan, A. 2021: Biogeography of the monocotyledon astelioid clade (Asparagales): a history of long-distance dispersal and diversification with emerging habitats. Molecular Phylogenetics and Evolution 163: 107203
Rodríguez-Martínez, R.; Rocap, G.; Salazar, G.; Massana, R. 2013: Biogeography of the uncultured marine picoeukaryote MAST-4: temperature-driven distribution patterns. Isme Journal 7(8): 1531-1543
Coons, A.K.; Busch, K.; Lenz, M.; Hentschel, U.; Borchert, E. 2021: Biogeography rather than substrate type determines bacterial colonization dynamics of marine plastics. Peerj 9: E12135
Padilla-González, G.F.; Diazgranados, M.; Da Costa, F.B. 2017: Biogeography shaped the metabolome of the genus Espeletia: a phytochemical perspective on an Andean adaptive radiation. Scientific Reports 7(1): 8835
Zhang, Z.-F.; Pan, J.; Pan, Y.-P.; Li, M. 2021: Biogeography, Assembly Patterns, Driving Factors, and Interactions of Archaeal Community in Mangrove Sediments. Msystems 6(3): E0138120
Lörz, A.-N.; Kaiser, S.; Oldeland, J.; Stolter, C.; Kürzel, K.; Brix, S. 2021: Biogeography, diversity and environmental relationships of shelf and deep-sea benthic Amphipoda around Iceland. Peerj 9: E11898
Grinblat, M.; Cooke, I.; Shlesinger, T.; Ben-Zvi, O.; Loya, Y.; Miller, D.J.; Cowman, P.F. 2021: Biogeography, reproductive biology and phylogenetic divergence within the Fungiidae (mushroom corals). Molecular Phylogenetics and Evolution 164: 107265
Barber, P.H.; Palumbi, S.R.; Erdmann, M.V.; Moosa, M.K. 2000: Biogeography. A marine Wallace's line?. Nature 406(6797): 692-693
Moore, P.D. 2000: Biogeography. Chile refuges. Nature 408(6812): 532-533
Lincoln, T. 2007: Biogeography: Bounty beneath the Nullarbor. Nature 445(7126): 377
Antonelli, A. 2017: Biogeography: Drivers of bioregionalization. Nature Ecology and Evolution 1(4): 114
Xu, X. 2010: Biogeography: Horned dinosaurs venture abroad. Nature 465(7297): 431-432
Krause, D.W. 2010: Biogeography: Washed up in Madagascar. Nature 463(7281): 613-614
Moore, P.D. 2002: Biogeography: baffled over bison. Nature 416(6880): 488-489
Gittenberger, E.; Groenenberg, D.S.J.; Kokshoorn, B.; Preece, R.C. 2006: Biogeography: molecular trails from hitch-hiking snails. Nature 439(7075): 409
Hedges, S.Blair. 2003: Biogeography: the coelacanth of frogs. Nature 425(6959): 669-670
Hazen, R.M.; Roedder, E. 2001: Biogeology. How old are bacteria from the Permian age?. Nature 411(6834): 155-156
Jauhiainen, J.S. 2020: Biogeopolitics of COVID-19: Asylum-Related Migrants at the European Union Borderlands. Tijdschrift Voor Economische en Sociale Geografie 111(3): 260-274
Mbow, C. 2014: Biogeoscience: Africa's greenhouse-gas budget is in the red. Nature 508(7495): 192-193
Yan, L.; Li, H.; Xia, W. 2020: Bioglass could increase cell membrane fluidity with ion products to develop its bioactivity. Cell Proliferation 53(11): E12906
Wu, Z.; He, D.; Li, H. 2021: Bioglass enhances the production of exosomes and improves their capability of promoting vascularization. Bioactive Materials 6(3): 823-835
Ferreira, S.A.; Young, G.; Jones, J.R.; Rankin, S. 2021: Bioglass/carbonate apatite/collagen composite scaffold dissolution products promote human osteoblast differentiation. Materials Science and Engineering. C Materials for Biological Applications 118: 111393
McAdam, A.J. 2021: Biographical Feature: Andrew B. Onderdonk, Ph.D. Journal of Clinical Microbiology 59(11): E0150521
Somford, M.P.; Nieuwe Weme, R.A.; Hoornenborg, Dël.; Wiegerinck, J.I.; van Raay, J.J.A.M.; Brouwer, R.W.; Williams, A.; Gerdy, P.Nicolas.; Pellegrini, A.; Stieda, E.Julius.Karl.Paul.Alfred.; Segond, P.Ferdinand.; Hoffa, A. 2018: Biographical background and origin of common eponymous terms in orthopedic surgery: anatomy and fractures in knee surgery. European Journal of Orthopaedic Surgery and Traumatology: Orthopedie Traumatologie 28(1): 79-84
Francis, E.R.; Smith, J.G.; Qayyum, M.; Lee, J.; Woodgate, P.; Lawrence, R.M. 2020: Biographical films as a person-centered approach to reduce neuropsychiatric symptoms of dementia in residential care: A feasibility study. Journal of Clinical Psychology 76(1): 137-145
Rahman, A.; Zulkifle, M.; Rasool, A. 2022: Biographical review of Ibn Rushd (Averroes) - a physician of 12th CE. Journal of Medical Biography 30(4): 214-216
Urbanek, B. 2002: Biographies of 20th century Polish medical scientists. Slownik Biograficzny Polskich Nauk Medycznych Xx Wieku 2(4): 1-137
Desjardins, E. 1978: Biographies of Quebec physicians. L'Union Medicale du Canada 107(9): 873-878
Desjardins, E. 1978: Biographies of Quebec physicians. L'Union Medicale du Canada 107(12): 1185-1186
Caldeira, A.S.P.; Mbiakop, U.C.; Pádua, R.M.; van de Venter, M.; Matsabisa, M.G.; Campana, P.R.V.; Cortes, S.F.; Braga, F.ão.C. 2021: Bioguided chemical characterization of pequi (Caryocar brasiliense) fruit peels towards an anti-diabetic activity. Food Chemistry 345: 128734
Tegasne, C.; Kapche, G.Deccaux.Wabo.Fotso.; Mawabo, I.Kamga.; Talla, R.Mangoua.; Jouda, J-Bosco.; Happi, G.Mouthé.; Lenta, B.Ndjakou.; Frese, M.; Abegaz, B.Molah.; Sewald, N. 2020: Bioguided chemical study of Boswellia dalzielii Hutch. (Burseraceae) for antibacterial agents and a new glucopyranoxylmethoxybenzyle. Natural Product Research 2020: 1-10
Okoduwa, S.I.R.; Umar, I'ila.A.; James, D.B.; Inuwa, H.M.; Habila, J.D.; Venditti, A. 2020: Bioguided fractionation of hypoglycaemic component in methanol extract of Vernonia amygdalina: an in vivo study. Natural Product Research 2020: 1-5
Zhu, M.; Wang, Z-Jie.; He, Y-Jie.; Qin, Y.; Zhou, Y.; Qi, Z-Heng.; Zhou, Z-Shun.; Zhu, Y-Yan.; Jin, D-Ni.; Chen, S-Shan.; Luo, X-Dong. 2021: Bioguided isolation, identification and bioactivity evaluation of anti-MRSA constituents from Morus alba Linn. Journal of Ethnopharmacology 281:: 114542
Ledford, H. 2015: Biohackers gear up for genome editing. Nature 524(7566): 398-399
Gangadharbatla, H. 2020: Biohacking: An exploratory study to understand the factors influencing the adoption of embedded technologies within the human body. Heliyon 6(5): E03931
Athar, M.H.; Zubair, U.B.; Zakir, U. 2020: Biohazards of Prolonged N95 Use: Effects on Arterial Blood Gases, Peak Expiratory Flow Rate and General Well-being of Healthcare Professionals during COVID-19 Pandemic. Journal of the College of Physicians and Surgeons--Pakistan: Jcpsp 30(10): 134-135
Anwar, S.; Naseem, S.; Karimi, S.; Asi, M.R.; Akrem, A.; Ali, Z. 2021: Bioherbicidal Activity and Metabolic Profiling of Potent Allelopathic Plant Fractions Against Major Weeds of Wheat-Way Forward to Lower the Risk of Synthetic Herbicides. Frontiers in Plant Science 12: 632390
Anwar, T.; Qureshi, H.; Mahnashi, M.H.; Kabir, F.; Parveen, N.; Ahmed, D.; Afzal, U.; Batool, S.; Awais, M.; Ahmed Alyami, S.; Ahmed Alhaider, H. 2021: Bioherbicidal ability and weed management of allelopathic methyl esters from Lantana camara. Saudi Journal of Biological Sciences 28(8): 4365-4374
Silva, E.R.; Igartuburu, J.é M.; Overbeck, G.E.; Soares, G.L.G.; Macías, F.A. 2020: Bioherbicide Potential of Eucalyptus saligna Leaf Litter Essential Oil. Chemistry and Biodiversity 17(9): E2000407
Hasebe, A.; Suematsu, Y.; Takeoka, S.; Mazzocchi, T.; Vannozzi, L.; Ricotti, L.; Fujie, T. 2019: Biohybrid Actuators Based on Skeletal Muscle-Powered Microgrooved Ultrathin Films Consisting of Poly(styrene-block-butadiene-block-styrene). Acs Biomaterials Science and Engineering 5(11): 5734-5743
Zhou, X.; Lv, F.; Huang, Y.; Liu, L.; Wang, S. 2020: Biohybrid Conjugated Polymer Materials for Augmenting Energy Conversion of Bioelectrochemical Systems. Chemistry 26(66): 15065-15073
Fontana, F.; Bartolo, R.él.; Santos, H.él.A. 2021: Biohybrid Nanosystems for Cancer Treatment: Merging the Best of two Worlds. Advances in Experimental Medicine and Biology 1295: 135-162
Sun, L.; Yu, Y.; Chen, Z.; Bian, F.; Ye, F.; Sun, L.; Zhao, Y. 2020: Biohybrid robotics with living cell actuation. Chemical Society Reviews 49(12): 4043-4069
Mestre, R.; Patiño, T.; Sánchez, S. 2021: Biohybrid robotics: from the nanoscale to the macroscale. Wiley Interdisciplinary Reviews. Nanomedicine and Nanobiotechnology 13(5): E1703
Fan, G.; Wasuwanich, P.; Furst, A.L. 2021: Biohybrid Systems for Improved Bioinspired, Energy-Relevant Catalysis. Chembiochem: a European Journal of Chemical Biology 22(14): 2353-2367
Policastro, G.; Luongo, V.; Fabbricino, M. 2020: Biohydrogen and poly-β-hydroxybutyrate production by winery wastewater photofermentation: Effect of substrate concentration and nitrogen source. Journal of Environmental Management 271: 111006
Saravanan, A.; Senthil Kumar, P.; Khoo, K.S.; Show, P.-L.; Femina Carolin, C.; Fetcia Jackulin, C.; Jeevanantham, S.; Karishma, S.; Show, K.-Y.; Lee, D.-J.; Chang, J.-S. 2021: Biohydrogen from organic wastes as a clean and environment-friendly energy source: Production pathways, feedstock types, and future prospects. Bioresource Technology 342: 126021
Ergal, İpek.; Gräf, O.; Hasibar, B.; Steiner, M.; Vukotić, S.; Bochmann, Günther.; Fuchs, W.; Rittmann, S.K-M.R. 2020: Biohydrogen production beyond the Thauer limit by precision design of artificial microbial consortia. Communications Biology 3(1): 443
Yang, G.; Wang, J. 2021: Biohydrogen production by co-fermentation of antibiotic fermentation residue and fallen leaves: Insights into the microbial community and functional genes. Bioresource Technology 337: 125380
Han, W.; Yan, Y.; Shi, Y.; Gu, J.; Tang, J.; Zhao, H. 2016: Biohydrogen production from enzymatic hydrolysis of food waste in batch and continuous systems. Scientific Reports 6: 38395
Nagarajan, D.; Dong, C.-D.; Chen, C.-Y.; Lee, D.-J.; Chang, J.-S. 2021: Biohydrogen production from microalgae-Major bottlenecks and future research perspectives. Biotechnology Journal 16(5): E2000124
Srivastava, N.; Srivastava, M.; Abd Allah, E.F.; Singh, R.; Hashem, A.; Gupta, V.K. 2021: Biohydrogen production using kitchen waste as the potential substrate: a sustainable approach. Chemosphere 271: 129537
Huang, C.T.; Levine, M.M.; Woodward, W.E.; Gopalakrishna, G.S.; Nalin, D.R.; Hornick, R.B.; Nochols, B.L. 1981: Biohydrogenation of cholesterol as an index of bacterial 7 alpha-dehydroxylase activity. Lipids 16(9): 670-676
Woodis, C.B.; Ghassemi, E.; McLendon, A.N. 2021: Bioidentical Oral 17β-Estradiol and Progesterone for the Treatment of Moderate to Severe Vasomotor Symptoms of Menopause. Annals of PharmacoTherapy 55(9): 1153-1158
Boquet-Pujadas, A.; Olivo-Marin, J.-C.; Guillén, N. 2021: Bioimage Analysis and Cell Motility. Patterns 2(1): 100170
Paul-Gilloteaux, P.; Tosi, S.éb.; Hériché, J.-K.; Gaignard, A.; Ménager, H.é; Marée, R.ël.; Baecker, V.; Klemm, A.; Kalaš, M.úš; Zhang, C.; Miura, K.; Colombelli, J. 2021: Bioimage analysis workflows: community resources to navigate through a complex ecosystem. F1000research 10: 320
Arsic, M.; Le Tougaard, S.; Persson, D.P.; Martens, H.J.; Doolette, C.L.; Lombi, E.; Schjoerring, J.K.; Husted, S.ør. 2020: Bioimaging Techniques Reveal Foliar Phosphate Uptake Pathways and Leaf Phosphorus Status. Plant Physiology 183(4): 1472-1483
Arsic, M.; Le Tougaard, S.; Persson, D.Pergament.; Martens, H.Juel.; Doolette, C.L.; Lombi, E.; Schjoerring, J.Kofod.; Husted, Søren. 2020: Bioimaging Techniques Reveal Foliar Phosphate Uptake Pathways and Leaf Phosphorus Status. Plant Physiology 183(4): 1472-1483
Kalomoiri, P.; Rodríguez-Rodríguez, C.; Sørensen, K.K.; Bergamo, M.; Saatchi, K.; Häfeli, U.O.; Jensen, K.J. 2020: Bioimaging and Biodistribution of the Metal-Ion-Controlled Self-Assembly of PYY3-36 Studied by SPECT/CT. Chembiochem: a European Journal of Chemical Biology 21(23): 3338-3348
Ferreira, L.ís.P.; Gaspar, V.ít.M.; Mano, J.ão.F. 2021: Bioimaging of Mesenchymal Stem Cells Spatial Distribution and Interactions with 3D in Vitro Tumor Spheroids. Methods in Molecular Biology 2269: 49-61
Zhang, X.-Y.; Geng, L.-P.; Gao, P.-P.; Dong, J.-W.; Zhou, C.; Li, H.-B.; Chen, M.-M.; Xue, P.-Y.; Liu, W.-J. 2022: Bioimaging of Pb by LA-ICP-MS and Pb isotopic compositions reveal distributions and origins of Pb in wheat grain. Science of the Total Environment 802: 149729
Iwama, T.; Inoue, K.Y.; Abe, H.; Matsue, T.; Shiku, H. 2020: Bioimaging using bipolar electrochemical microscopy with improved spatial resolution. Analyst 145(21): 6895-6900
Kotov, N. 2011: Bioimaging: The only way is up. Nature Materials 10(12): 903-904
Zagorovsky, K.; Chan, W.C.W. 2013: Bioimaging: illuminating the deep. Nature Materials 12(4): 285-287
Smith, A.M.; Mancini, M.C.; Nie, S. 2009: Bioimaging: second window for in vivo imaging. Nature Nanotechnology 4(11): 710-711
Jokerst, J.V. 2014: Bioimaging: sensed at the gut level. Nature Nanotechnology 9(8): 569-570
Bae, S.H.; Kim, W.J.; Seo, Y.J.; Kim, J.; Jeon, J.Y. 2020: Bioimpedance Analysis for Predicting Outcomes of Complex Decongestive Therapy for Gynecological Cancer Related Lymphedema: a Feasibility Study. Annals of Rehabilitation Medicine 44(3): 238-245
Devaraj, H.; Murphy, E.K.; Halter, R.J. 2020: Bioimpedance Sensing Surgical Drill - Computational Modelling and Experimental Validation. Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference 2020: 3977-3980
Forte, A.J.; Huayllani, M.T.; Boczar, D.; Ciudad, P.; Lu, X.; Kassis, S.; Parker, A.S.; Moore, P.A.; McLaughlin, S.A. 2020: Bioimpedance Spectroscopy for Assessment of Breast Cancer-Related Lymphedema: a Systematic Review. Plastic Surgical Nursing: Official Journal of the American Society of Plastic and Reconstructive Surgical Nurses 40(2): 86-90
Ho, L.T.; Kushner, R.F.; Schoeller, D.A.; Gudivaka, R.; Spiegel, D.M. 1994: Bioimpedance analysis of total body water in hemodialysis patients. Kidney International 46(5): 1438-1442
Doesch, C.; Suselbeck, T.; Leweling, H.; Fluechter, S.; Haghi, D.; Schoenberg, S.O.; Borggrefe, M.; Papavassiliu, T. 2010: Bioimpedance analysis parameters and epicardial adipose tissue assessed by cardiac magnetic resonance imaging in patients with heart failure. Obesity 18(12): 2326-2332
Andersen, J.-H.; Bjerke, O.; Blakaj, F.; Flugsrud, V.M.; Jacobsen, F.A.; Jonsson, M.; Kosaka, E.N.; Langstrand, P.A.é; Martinsen, Øy.G.; Moen, A.S.; Moen, E.Q.Z.; Nystad, Øy.K.; Olesen, E.; Qureshi, M.; Risopatron, V.J.Øs.; Ruud, S.K.; Stensø, N.; Winje, F.L.; Winness, E.V.; Abie, S.; Joten, V.M.; Tronstad, C.; Elvebakk, O.; Martinsen, Ør.G.øt. 2019: Bioimpedance and NIR for Non-invasive Assessment of Blood Glucose. Journal of Electrical Bioimpedance 10(1): 133-138
Strain, G.W.; Wang, J.; Gagner, M.; Pomp, A.; Inabnet, W.B.; Heymsfield, S.B. 2008: Bioimpedance for severe obesity: comparing research methods for total body water and resting energy expenditure. Obesity 16(8): 1953-1956
Kekonen, A.; Bergelin, M.; Eriksson, J.-E.; Vaalasti, A.; Ylänen, H.; Kielosto, S.; Viik, J. 2021: Bioimpedance method for monitoring venous ulcers: Clinical proof-of-concept study. Biosensors and Bioelectronics 178: 112974
Chertow, G.M.; Lazarus, J.M.; Lew, N.L.; Ma, L.; Lowrie, E.G. 1997: Bioimpedance norms for the hemodialysis population. Kidney International 52(6): 1617-1621
Beberashvili, I.; Azar, A.; Sinuani, I.; Shapiro, G.; Feldman, L.; Stav, K.; Sandbank, J.; Averbukh, Z. 2014: Bioimpedance phase angle predicts muscle function, quality of life and clinical outcome in maintenance hemodialysis patients. European Journal of Clinical Nutrition 68(6): 683-689
Rush, E.C.; Bristow, S.; Plank, L.D.; Rowan, J. 2013: Bioimpedance prediction of fat-free mass from dual-energy X-ray absorptiometry in a multi-ethnic group of 2-year-old children. European Journal of Clinical Nutrition 67(2): 214-217
Ashoorirad, M.; Baghbani, R.; Ghalamboran, M.R. 2021: Bioimpedance sensor to detect water content in milk based on van der Pauw method. Iet Nanobiotechnology 15(7): 611-618
Cavezzi, A.; Urso, S.U.; Paccasassi, S.; Mosti, G.; Campana, F.; Colucci, R. 2020: Bioimpedance spectroscopy and volumetry in the immediate/short-term monitoring of intensive complex decongestive treatment of lymphedema. Phlebology 35(9): 715-723
Schwaiger, E.; Simon, A.; Wabel, P.; Schairer, B.; Berner, C.; Signorini, L.; Ernstbrunner, Mäus.; Evstatiev, R.; Schwabl, P.; Hinterholzer, G.; Frommlet, F.; Vychytil, A.; Müller, C.J.; Hecking, M. 2020: Bioimpedance spectroscopy for fluid status assessment in patients with decompensated liver cirrhosis: Implications for peritoneal dialysis. Scientific Reports 10(1): 2869
Gridneva, Z.; Hepworth, A.R.; Ward, L.C.; Lai, C.T.; Hartmann, P.E.; Geddes, D.T. 2016: Bioimpedance spectroscopy in the infant: effect of milk intake and extracellular fluid reservoirs on resistance measurements in term breastfed infants. European Journal of Clinical Nutrition 70(7): 865
Bernal-Ceballos, F.; Wacher-Rodarte, N.H.; Orea-Tejeda, A.; Hernández-Gilsoul, T.; Castillo-Martínez, L. 2021: Bioimpedance vector analysis in stable chronic heart failure patients: Level of agreement between single and multiple frequency devices. Clinical Nutrition Espen 43: 206-211
Tabinor, M.; Elphick, E.; Dudson, M.; Kwok, C.Shing.; Lambie, M.; Davies, S.J. 2018: Bioimpedance-defined overhydration predicts survival in end stage kidney failure (ESKF): systematic review and subgroup meta-analysis. Scientific Reports 8(1): 4441
Parekh, A.; Das, D.; Das, S.; Dhara, S.; Biswas, K.; Mandal, M.; Das, S. 2018: Bioimpedimetric analysis in conjunction with growth dynamics to differentiate aggressiveness of cancer cells. Scientific Reports 8(1): 783
Pelle, M.; Das, A.A.K.; Madden, L.A.; Paunov, V.N. 2020: Bioimprint Mediated Label-Free Isolation of Pancreatic Tumor Cells from a Healthy Peripheral Blood Cell Population. Advanced Biosystems 4(11): E2000054
Rodrigues, D.A.; Sales, J.d.F.át.; Vasconcelos Filho, S.ão.C.; Rodrigues, A.A.; Guimarães Teles, E.M.; Costa, A.C.; Reis, E.L.áz.; Andrade de Carvalho Silva, T.; Müller, C. 2020: Bioindicator potential of Ricinus communis to simulated rainfall containing potassium fluoride. Peerj 8: E9445
Xu, S.; Tang, L.; Liu, Z.; Yang, K.; Cheng, Q. 2021: Bioinformatic Analyses Identify a Prognostic Autophagy-Related Long Non-coding RNA Signature Associated with Immune Microenvironment in Diffuse Gliomas. Frontiers in Cell and Developmental Biology 9: 694633
Suthar, S.K.; Alam, M.M.; Lee, J.; Monga, J.; Joseph, A.; Lee, S.-Y. 2021: Bioinformatic Analyses of Canonical Pathways of TSPOAP1 and its Roles in Human Diseases. Frontiers in Molecular Biosciences 8: 667947
Han, Y.; Li, X.; Yan, J.; Ma, C.; Wang, X.; Pan, H.; Zheng, X.; Zhang, Z.; Gao, B.; Ji, X.-Y. 2020: Bioinformatic Analysis Identifies Potential Key Genes in the Pathogenesis of Melanoma. Frontiers in Oncology 10: 581985
Lachota, M.; Lennikov, A.; Malmberg, K.-J.; Zagozdzon, R. 2021: Bioinformatic Analysis Reveals Central Role for Tumor-Infiltrating Immune Cells in Uveal Melanoma Progression. Journal of Immunology Research 2021: 9920234
Ye, Z.; Zhang, Z.; Fang, L.; Tian, D.; Liu, X. 2019: Bioinformatic Analysis Reveals GSG2 as a Potential Target for Breast Cancer Therapy. Open Life Sciences 14: 688-698
Páez-Pérez, E.D.; Llamas-García, M.L.; Benítez-Cardoza, C.G.; Montero-Morán, G.M.; Lara-González, S. 2020: Bioinformatic Analysis and Biophysical Characterization Reveal Structural Disorder in G0S2 Protein. Acs Omega 5(40): 25841-25847
Li, C.; Liu, Z. 2021: Bioinformatic Analysis for Potential Biomarkers and Therapeutic Targets of T2DM-related Mi. International Journal of General Medicine 14: 4337-4347
Gaffo, E.; Buratin, A.; Dal Molin, A.; Bortoluzzi, S. 2021: Bioinformatic Analysis of Circular RNA Expression. Methods in Molecular Biology 2348: 343-370
Huang, X.; He, C.; Hua, X.; Kan, A.; Sun, S.; Wang, J.; Li, S. 2020: Bioinformatic Analysis of Correlation between Immune Infiltration and COVID-19 in Cancer Patients. International Journal of Biological Sciences 16(13): 2464-2476
Du, C.; Shen, L.; Ma, Z.; Du, J.; Jin, S. 2021: Bioinformatic Analysis of Crosstalk Between circRNA, miRNA, and Target Gene Network in NAFLD. Frontiers in Genetics 12: 671523
Li, W.; Nie, A.; Li, Q.; Cao, H.; Song, Y.; Ling, Y.; Xie, N.; Liang, G. 2020: Bioinformatic Analysis of Differentially Expressed Genes and Screening of Hub Genes in Uveal Melanoma Cells with BRCA1-Associated Protein 1 Related Protein 1 Depletion. Journal of Biomedical Nanotechnology 16(8): 1205-1218
Wang, Y.; Zhang, M.; Gong, Y.; Wu, Q.; Zhang, L.; Jiao, S. 2021: Bioinformatic Analysis of Hepatocellular Carcinoma Cell Lines to the Efficacy of Nimotuzumab. International Journal of General Medicine 14: 2611-2621
Bi, S.; Liu, R.; Wu, B.; He, L.; Gu, J. 2021: Bioinformatic Analysis of Key Genes and Pathways Related to Keloids. Biomed Research International 2021: 5897907
Barro, S.G.; Bance, F.; Dicko, A.; Gomgnibou, M.; Staccini, P. 2021: Bioinformatic Analysis of MIRU-VNTR Repeats of Mycobacterium Tuberculosis Strains from Lagos, Nigeria. Studies in Health Technology and Informatics 281: 1120-1121
Yu, H.; Liu, Y.; Li, C.; Wang, J.; Yu, B.; Wu, Q.; Xiang, Z.; Feng, S. 2020: Bioinformatic Analysis of Neuroimmune Mechanism of Neuropathic Pain. Biomed Research International 2020: 4516349
Li, Z.; Hu, C.; Yang, Z.; Yang, M.; Fang, J.; Zhou, X. 2021: Bioinformatic Analysis of Prognostic and Immune-Related Genes in Pancreatic Cancer. Computational and Mathematical Methods in Medicine 2021: 5549298
Collombet, S.; Pérez-Rico, Y.A.; Ancelin, K.; Servant, N.; Heard, E. 2021: Bioinformatic Analysis of Single-Cell Hi-C Data from Early Mouse Embryo. Methods in Molecular Biology 2214: 295-316
Rahmatbakhsh, M.; Gagarinova, A.; Babu, M. 2021: Bioinformatic Analysis of Temporal and Spatial Proteome Alternations During Infections. Frontiers in Genetics 12: 667936
Robinson, L.; Liaw, J.; Omole, Z.; Xia, D.; van Vliet, A.H.M.; Corcionivoschi, N.; Hachani, A.; Gundogdu, O. 2021: Bioinformatic Analysis of the Campylobacter jejuni Type Vi Secretion System and Effector Prediction. Frontiers in Microbiology 12: 694824
Wu, C.; Yu, J.; Xu, G.; Gao, H.; Sun, Y.; Huang, J.; Sun, L.; Zhang, X.; Cui, Z. 2021: Bioinformatic Analysis of the Proteome in Exosomes Derived from Plasma: Exosomes Involved in Cholesterol Metabolism Process of Patients with Spinal Cord Injury in the Acute Phase. Frontiers in Neuroinformatics 15: 662967
Hartman, E.; Wallblom, K.; van der Plas, M.J.A.; Petrlova, J.; Cai, J.; Saleh, K.; Kjellström, S.; Schmidtchen, A. 2020: Bioinformatic Analysis of the Wound Peptidome Reveals Potential Biomarkers and Antimicrobial Peptides. Frontiers in Immunology 11: 620707
Liu, L.; Wang, B.; Han, Q.; Zhen, C.; Li, J.; Qu, X.; Wang, F.; Kong, X.; Zheng, L. 2020: Bioinformatic Analysis to Identify a Multi-mRNA Signature for the Prediction of Metastasis in Hepatocellular Carcinoma. Dna and Cell Biology 39(11): 2028-2039
Kiihl, S.F. 2021: Bioinformatic Estimation of DNA Methylation and Hydroxymethylation Proportions. Methods in Molecular Biology 2272: 141-162
Kim, S.-J.; Lee, J.-H.; Park, W.-J.; Kim, S. 2021: Bioinformatic Exploration for Prognostic Significance of Sphingolipid Metabolism-Related Genes in Invasive Ductal Carcinoma Using the Cancer Genome Atlas Cohort. International Journal of General Medicine 14: 4423-4434
Lei, X.; Jing, J.; Zhang, M.; Guan, B.; Dong, Z.; Wang, C. 2020: Bioinformatic Identification of Hub Genes and Analysis of Prognostic Values in Colorectal Cancer. Nutrition and Cancer 2020: 1-11
Wang, Y.; Luo, H.; Cao, J.; Ma, C. 2020: Bioinformatic Identification of Neuroblastoma Microenvironment-Associated Biomarkers with Prognostic Value. Journal of Oncology 2020: 5943014
Liu, X.; McKenna, S.; Welch, L.R.; Showalter, A.M. 2020: Bioinformatic Identification of Plant Hydroxyproline-Rich Glycoproteins. Methods in Molecular Biology 2149: 463-481