The application of purple non-sulfur bacteria for microbial mixed culture polyhydroxyalkanoates production
Sali, S.; Mackey, H.R.
Reviews in Environmental Science and Bio/Technology 20(4): 959-983
2021
ISSN/ISBN: 1572-9826 Accession: 088671048
Full Text Article emailed within 1 workday: $29.90
Related References
Montiel-Jarillo, G.; Carrera, J.án.; Suárez-Ojeda, M.ía.E. 2017: Enrichment of a mixed microbial culture for polyhydroxyalkanoates production: Effect of pH and N and P concentrations Science of the Total Environment 583: 300-307Honda, R.; Fukushi, K.; Yamamoto, K. 2006: Optimization of wastewater feeding for single-cell protein production in an anaerobic wastewater treatment process utilizing purple non-sulfur bacteria in mixed culture condition Journal of Biotechnology 125(4): 565-573
Colombo, B.; Pepè Sciarria, T.; Reis, M.; Scaglia, B.; Adani, F. 2016: Polyhydroxyalkanoates (PHAs) production from fermented cheese whey by using a mixed microbial culture Bioresource Technology 218: 692-699
Montiel-Corona, V.; Buitrón, Gán. 2021: Polyhydroxyalkanoates from organic waste streams using purple non-sulfur bacteria Bioresource Technology 323: 124610
Filippi, S.; Cinelli, P.; Mezzetta, A.; Carlozzi, P.; Seggiani, M. 2021: Extraction of Polyhydroxyalkanoates from Purple Non-Sulfur Bacteria by Non-Chlorinated Solvents Polymers 13(23)
Lai, Y.-C.; Liang, C.-M.; Hsu, S.-C.; Hsieh, P.-H.; Hung, C.-H. 2017: Polyphosphate metabolism by purple non-sulfur bacteria and its possible application on photo-microbial fuel cell Journal of Bioscience and Bioengineering 123(6): 722-730
Monroy, I.; Buitrón, G.án. 2020: Production of polyhydroxybutyrate by pure and mixed cultures of purple non-sulfur bacteria: a review Journal of Biotechnology 317: 39-47
De Wit, R.; Van den Ende, F.P.; Van Gemerden, H. 1995: Mathematical simulation of the interactions among cyanobacteria, purple sulfur bacteria and chemotrophic sulfur bacteria in microbial mat communities Fems Microbiology Ecology 17(2): 117-136
D.W.t, R.; Van Den Ende, F.P.; Van Gemerden, H. 1995: Mathematical simulation of the interactions among cyanobacteria, purple sulfur bacteria and chemotropic sulfur bacteria in microbial mat communities FEMS Microbiology Ecology 17(2): 117-135
Tamang, P.; Banerjee, R.; Köster, S.; Nogueira, R. 2019: Comparative study of polyhydroxyalkanoates production from acidified and anaerobically treated brewery wastewater using enriched mixed microbial culture Journal of Environmental Sciences 78: 137-146
Villano, M.; Valentino, F.; Barbetta, A.; Martino, L.; Scandola, M.; Majone, M. 2014: Polyhydroxyalkanoates production with mixed microbial cultures: from culture selection to polymer recovery in a high-rate continuous process New Biotechnology 31(4): 289-296
Cerruti, M.; Stevens, B.; Ebrahimi, S.; Alloul, A.; Vlaeminck, S.E.; Weissbrodt, D.G. 2020: Enrichment and Aggregation of Purple Non-sulfur Bacteria in a Mixed-Culture Sequencing-Batch Photobioreactor for Biological Nutrient Removal from Wastewater Frontiers in Bioengineering and Biotechnology 8: 557234
Pardelha, F.; Albuquerque, M.G.E.; Reis, M.A.M.; Dias, J.ão.M.L.; Oliveira, R. 2012: Flux balance analysis of mixed microbial cultures: application to the production of polyhydroxyalkanoates from complex mixtures of volatile fatty acids Journal of Biotechnology 162(2-3): 336-345
Smith, D.A.; Steele, A.; Fogel, M.L. 2015: Pigment production and isotopic fractionations in continuous culture: okenone producing purple sulfur bacteria Part Ii Geobiology 13(3): 292-301
Kilua, A.; Nomata, R.; Nagata, R.; Fukuma, N.; Shimada, K.; Han, K.-H.; Fukushima, M. 2019: Purple Sweet Potato Polyphenols Differentially Influence the Microbial Composition Depending on the Fermentability of Dietary Fiber in a Mixed Culture of Swine Fecal Bacteria Nutrients 11(7)
Allegue, L.D.; Ventura, M.; Melero, J.A.; Puyol, D. 2021: Integrated sustainable process for polyhydroxyalkanoates production from lignocellulosic waste by purple phototrophic bacteria GCB Bioenergy 13(5): 862-875
Guerra-Blanco, P.; Cortes, O.; Poznyak, T.; Chairez, I.; García-Peña, E. 2018: Polyhydroxyalkanoates (PHA) production by photoheterotrophic microbial consortia: Effect of culture conditions over microbial population and biopolymer yield and composition European Polymer Journal 98: 94-104
Rodrigues, A.M.; Franca, R.D.G.ão.; Dionísio, M.; Sevrin, C.; Grandfils, C.; Reis, M.A.M.; Lourenço, N.íd.D. 2022: Polyhydroxyalkanoates from a Mixed Microbial Culture: Extraction Optimization and Polymer Characterization Polymers 14(11)
Reis, M.A.M.; Serafim, L.S.; Lemos, P.C.; Ramos, A.M.; Aguiar, F.R.; Van Loosdrecht, M.C.M. 2003: Production of polyhydroxyalkanoates by mixed microbial cultures Bioprocess and Biosystems Engineering 25(6): 377-385
Wong, A.L.; Chua, H.; Yu, P.H. 2000: Microbial production of polyhydroxyalkanoates by bacteria isolated from oil wastes Applied Biochemistry and Biotechnology 84-86: 843-857