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List of PDF Full Texts available from EurekaMag Chapter 55388

Chapter 55388 contains a list of PDF Full Texts available from EurekaMag.





Shkolnik, K.; Tadmor, A.; Ben-Dor, S.; Nevo, N.; Galiani, D.; Dekel, N., 2011:
Reactive oxygen species are indispensable in ovulation

Chen, T-Yu.; Chi, K-Hwa.; Wang, J-Shiun.; Chien, C-Liang.; Lin, W-Wan., 2009:
Reactive oxygen species are involved in FasL-induced caspase-independent cell death and inflammatory responses

Xia, X-Jian.; Wang, Y-Jie.; Zhou, Y-Hong.; Tao, Y.; Mao, W-Hua.; Shi, K.; Asami, T.; Chen, Z.; Yu, J-Quan., 2009:
Reactive oxygen species are involved in brassinosteroid-induced stress tolerance in cucumber

Persichini, T.; D.F.ancesco, G.; Capone, C.; Cutone, A.; di Patti, M.Carmela.Bonaccorsi.; Colasanti, M.; Musci, G., 2012:
Reactive oxygen species are involved in ferroportin degradation induced by ceruloplasmin mutant Arg701Trp

Ji, G.; Neugebauer, V., 2011:
Reactive oxygen species are involved in group I mGluR-mediated facilitation of nociceptive processing in amygdala neurons

Tsai, M-Ho.; Jiang, M.Jyh., 2010:
Reactive oxygen species are involved in regulating alpha1-adrenoceptor-activated vascular smooth muscle contraction

Chen, W.; Liu, D-Jun.; Huo, Y-Miao.; Wu, Z-Yong.; Sun, Y-Wei., 2015:
Reactive oxygen species are involved in regulating hypocontractility of mesenteric artery to norepinephrine in cirrhotic rats with portal hypertension

Qi, X-Feng.; Teng, Y-Chien.; Yoon, Y-Suk.; Kim, D-Heui.; Cai, D-Qing.; Lee, K-Jae., 2010 :
Reactive oxygen species are involved in the IFN-γ-stimulated production of Th2 chemokines in HaCaT keratinocytes

Belin de Chantemèle, E.J.; Vessières, E.; Dumont, O.; Guihot, A-Laure.; Toutain, B.; Loufrani, L.; Henrion, D., 2009:
Reactive oxygen species are necessary for high flow (shear stress)-induced diameter enlargement of rat resistance arteries

Morales, A.A.; Gutman, D.; Cejas, P.J.; Lee, K.P.; Boise, L.H., 2009:
Reactive oxygen species are not required for an arsenic trioxide-induced antioxidant response or apoptosis

St-Louis, R.; Parmentier, C.; Grange-Messent, Vérie.; Mhaouty-Kodja, S.; Hardin-Pouzet, Hélène., 2015:
Reactive oxygen species are physiological mediators of the noradrenergic signaling pathway in the mouse supraoptic nucleus

Sarre, A.; Gabrielli, J.; Vial, G.; Leverve, X.M.; Assimacopoulos-Jeannet, Fçoise., 2012:
Reactive oxygen species are produced at low glucose and contribute to the activation of AMPK in insulin-secreting cells

Hernández-Enríquez, B.; Guemez-Gamboa, A.; Morán, J., 2011:
Reactive oxygen species are related to ionic fluxes and volume decrease in apoptotic cerebellar granule neurons: role of NOX enzymes

Kruk, J.S.; Vasefi, M.S.; Heikkila, J.J.; Beazely, M.A., 2014:
Reactive oxygen species are required for 5-HT-induced transactivation of neuronal platelet-derived growth factor and TrkB receptors, but not for ERK1/2 activation

Bocchino, M.; Agnese, S.; Fagone, E.; Svegliati, S.; Grieco, D.; Vancheri, C.; Gabrielli, A.; Sanduzzi, A.; Avvedimento, E.V., 2011:
Reactive oxygen species are required for maintenance and differentiation of primary lung fibroblasts in idiopathic pulmonary fibrosis

St-Louis, R.; Parmentier, C.; Raison, Dèle.; Grange-Messent, Vérie.; Hardin-Pouzet, Hélène., 2012:
Reactive oxygen species are required for the hypothalamic osmoregulatory response

Singh, M.; Moniri, N.H., 2012:
Reactive oxygen species are required for β2 adrenergic receptor-β-arrestin interactions and signaling to ERK1/2

Linley, J.E.; Ooi, L.; Pettinger, L.; Kirton, H.; Boyle, J.P.; Peers, C.; Gamper, N., 2012:
Reactive oxygen species are second messengers of neurokinin signaling in peripheral sensory neurons

Powers, S.K.; Duarte, J.; Kavazis, A.N.; Talbert, E.E., 2010:
Reactive oxygen species are signalling molecules for skeletal muscle adaptation

Kuo, T.B.J.; Yuan, Z.Fan.; Lin, Y.Shuei.; Lin, Y-Ning.; Li, W-Shan.; Yang, C.C.H.; Lai, C.Jung., 2011:
Reactive oxygen species are the cause of the enhanced cardiorespiratory response induced by intermittent hypoxia in conscious rats

Cowley, A.W.; Abe, M.; Mori, T.; O'Connor, P.M.; Ohsaki, Y.; Zheleznova, N.N., 2015:
Reactive oxygen species as important determinants of medullary flow, sodium excretion, and hypertension

Weissenberg, A.; Sydlik, U.; Peuschel, H.; Schroeder, P.; Schneider, M.; Schins, R.P.F.; Abel, J.; Unfried, K., 2011:
Reactive oxygen species as mediators of membrane-dependent signaling induced by ultrafine particles

Hattori, H.; Subramanian, K.K.; Sakai, J.; Luo, H.R., 2010:
Reactive oxygen species as signaling molecules in neutrophil chemotaxis

Khan, S.R., 2013:
Reactive oxygen species as the molecular modulators of calcium oxalate kidney stone formation: evidence from clinical and experimental investigations

Saucedo-García, M.; González-Solís, A.; Rodríguez-Mejía, P.; Olivera-Flores, T.de.Jesús.; Vázquez-Santana, S.; Cahoon, E.B.; Gavilanes-Ruiz, M., 2012:
Reactive oxygen species as transducers of sphinganine-mediated cell death pathway

Cordeiro, R.M., 2014:
Reactive oxygen species at phospholipid bilayers: distribution, mobility and permeation

Harijith, A.; Ebenezer, D.L.; Natarajan, V., 2014:
Reactive oxygen species at the crossroads of inflammasome and inflammation

Huang, W.; Yang, X.; Yao, S.; LwinOo, T.; He, H.; Wang, A.; Li, C.; He, L., 2015:
Reactive oxygen species burst induced by aluminum stress triggers mitochondria-dependent programmed cell death in peanut root tip cells

Chung, I.Sun.; Kim, J.Ae.; Kim, J.A.; Choi, H.Sung.; Lee, J.Jin.; Yang, M.; Ahn, H.Joo.; Lee, S.Min., 2013:
Reactive oxygen species by isoflurane mediates inhibition of nuclear factor κB activation in lipopolysaccharide-induced acute inflammation of the lung

Lu, X.; Guo, X.; Wassall, C.D.; Kemple, M.D.; Unthank, J.L.; Kassab, G.S., 2011:
Reactive oxygen species cause endothelial dysfunction in chronic flow overload

Li, L.; Qiu, P.; Chen, B.; Lu, Y.; Wu, K.; Thakur, C.; Chang, Q.; Sun, J.; Chen, F., 2014:
Reactive oxygen species contribute to arsenic-induced EZH2 phosphorylation in human bronchial epithelial cells and lung cancer cells

Cai, Y.; Lu, J.; Miao, Z.; Lin, L.; Ding, J., 2007:
Reactive oxygen species contribute to cell killing and P-glycoprotein downregulation by salvicine in multidrug resistant K562/A02 cells

Gwak, Y.S.; Hassler, S.E.; Hulsebosch, C.E., 2014:
Reactive oxygen species contribute to neuropathic pain and locomotor dysfunction via activation of CamKII in remote segments following spinal cord contusion injury in rats

Yowtak, J.; Lee, K.Yeop.; Kim, H.Young.; Wang, J.; Kim, H.Kee.; Chung, K.; Chung, J.Mo., 2011:
Reactive oxygen species contribute to neuropathic pain by reducing spinal GABA release

Zeng, M.; Wei, X.; Wu, Z.; Li, W.; Li, B.; Fei, Y.; He, Y.; Chen, J.; Wang, P.; Liu, X., 2014:
Reactive oxygen species contribute to simulated ischemia/reperfusion-induced autophagic cell death in human umbilical vein endothelial cells

Bovo, E.; Lipsius, S.L.; Zima, A.V., 2012:
Reactive oxygen species contribute to the development of arrhythmogenic Ca²⁺ waves during β-adrenergic receptor stimulation in rabbit cardiomyocytes

Sciancalepore, M.; Luin, E.; Parato, G.; Ren, E.; Giniatullin, R.; Fabbretti, E.; Lorenzon, P., 2013:
Reactive oxygen species contribute to the promotion of the ATP-mediated proliferation of mouse skeletal myoblasts

Dasgupta, J.; Kar, S.; Liu, R.; Joseph, J.; Kalyanaraman, B.; Remington, S.James.; Chen, C.; Melendez, J.Andres., 2010:
Reactive oxygen species control senescence-associated matrix metalloproteinase-1 through c-Jun-N-terminal kinase

Ngô, C.; Chéreau, C.; Nicco, C.; Weill, B.; Chapron, C.; Batteux, Fédéric., 2009:
Reactive oxygen species controls endometriosis progression

Rasheed, Z.; Ahmad, R.; Rasheed, N.; Ali, R., 2007:
Reactive oxygen species damaged human serum albumin in patients with hepatocellular carcinoma

Ozgen, N.; Guo, J.; Gertsberg, Z.; Danilo, P.; Rosen, M.R.; Steinberg, S.F., 2009:
Reactive oxygen species decrease cAMP response element binding protein expression in cardiomyocytes via a protein kinase D1-dependent mechanism that does not require Ser133 phosphorylation

Kelkka, T.; Kienhöfer, D.; Hoffmann, M.; Linja, M.; Wing, K.; Sareila, O.; Hultqvist, M.; Laajala, E.; Chen, Z.; Vasconcelos, Júlia.; Neves, E.; Guedes, M.; Marques, L.; Krönke, G.; Helminen, M.; Kainulainen, L.; Olofsson, P.; Jalkanen, S.; Lahesmaa, R.; Souto-Carneiro, M.Margarida.; Holmdahl, R., 2015:
Reactive oxygen species deficiency induces autoimmunity with type 1 interferon signature

Ibi, M.; Matsuno, K.; Shiba, D.; Katsuyama, M.; Iwata, K.; Kakehi, T.; Nakagawa, T.; Sango, K.; Shirai, Y.; Yokoyama, T.; Kaneko, S.; Saito, N.; Yabe-Nishimura, C., 2008:
Reactive oxygen species derived from NOX1/NADPH oxidase enhance inflammatory pain

Mandal, C.C.; Ganapathy, S.; Gorin, Y.; Mahadev, K.; Block, K.; Abboud, H.E.; Harris, S.E.; Ghosh-Choudhury, G.; Ghosh-Choudhury, N., 2011:
Reactive oxygen species derived from Nox4 mediate BMP2 gene transcription and osteoblast differentiation

Miura, E.; Kato, Y.; Sakamoto, W., 2009:
Reactive oxygen species derived from impaired quality control of photosystem II are irrelevant to plasma-membrane NADPH oxidases

Kim, J.; Jung, K-Jin.; Park, K.Moo., 2012:
Reactive oxygen species differently regulate renal tubular epithelial and interstitial cell proliferation after ischemia and reperfusion injury

Soliman, D.; Hamming, K.S.C.; Matemisz, L.C.; Light, P.E., 2009:
Reactive oxygen species directly modify sodium-calcium exchanger activity in a splice variant-dependent manner

Fernandes, R.; Hosoya, K-ichi.; Pereira, P., 2011:
Reactive oxygen species downregulate glucose transport system in retinal endothelial cells

Hu, S.; Sheng, W.S.; Schachtele, S.J.; Lokensgard, J.R., 2012:
Reactive oxygen species drive herpes simplex virus (HSV)-1-induced proinflammatory cytokine production by murine microglia

Patra, C.Ranjan.; Kim, J-Ho.; Pramanik, K.; d'Uscio, L.V.; Patra, S.; Pal, K.; Ramchandran, R.; Strano, M.S.; Mukhopadhyay, D., 2012:
Reactive oxygen species driven angiogenesis by inorganic nanorods

Manta, A.K.; Stravopodis, D.J.; Papassideri, I.S.; Margaritis, L.H., 2014:
Reactive oxygen species elevation and recovery in Drosophila bodies and ovaries following short-term and long-term exposure to DECT base EMF

Kim, D.; Kim, Y.Ju.; Koh, H.Sook.; Jang, T.Yang.; Park, H.Eun.; Kim, J.Young., 2010:
Reactive oxygen species enhance TLR10 expression in the human monocytic cell line THP-1

Ji, A-Ri.; Ku, S-Yup.; Cho, M.Soo.; Kim, Y.Young.; Kim, Y.Jin.; Oh, S.Kyung.; Kim, S.Hyun.; Moon, S.Yong.; Choi, Y.Min., 2010:
Reactive oxygen species enhance differentiation of human embryonic stem cells into mesendodermal lineage

Loh, K.; Deng, H.; Fukushima, A.; Cai, X.; Boivin, B.; Galic, S.; Bruce, C.; Shields, B.J.; Skiba, B.; Ooms, L.M.; Stepto, N.; Wu, B.; Mitchell, C.A.; Tonks, N.K.; Watt, M.J.; Febbraio, M.A.; Crack, P.J.; Andrikopoulos, S.; Tiganis, T., 2010:
Reactive oxygen species enhance insulin sensitivity

Kirby, B.S., 2012:
Reactive oxygen species enter the tug-of-war between metabolic vasodilatation and sympathetic vasoconstriction

Konno, T.; Otsuki, N.; Kurahashi, T.; Kibe, N.; Tsunoda, S.; Iuchi, Y.; Fujii, J., 2014:
Reactive oxygen species exacerbate autoimmune hemolytic anemia in New Zealand Black mice

Lee, H.; Lee, Y.Jeong.; Choi, H.; Ko, E.Hee.; Kim, J-Woo., 2009:
Reactive oxygen species facilitate adipocyte differentiation by accelerating mitotic clonal expansion

Messner, Jürgen.; Graf, Jürg., 2008:
Reactive oxygen species facilitate the insulin-dependent inhibition of glucagon-induced glucose production in the isolated perfused rat liver

Krawczyk, S.A.; Haller, J.F.; Ferrante, T.; Zoeller, R.A.; Corkey, B.E., 2012:
Reactive oxygen species facilitate translocation of hormone sensitive lipase to the lipid droplet during lipolysis in human differentiated adipocytes

Lu, Y-Sheng.; Huang, B-Tian.; Huang, Y-Xiong., 2012:
Reactive oxygen species formation and apoptosis in human peripheral blood mononuclear cell induced by 900 MHz mobile phone radiation

Zuo, L.; Nogueira, L.; Hogan, M.C., 2012:
Reactive oxygen species formation during tetanic contractions in single isolated Xenopus myofibers

Brescia, F.; Sarti, M.; Massa, R.; Calabrese, M.L.; Sannino, A.; Scarfì, M.R., 2009:
Reactive oxygen species formation is not enhanced by exposure to UMTS 1950 MHz radiation and co-exposure to ferrous ions in Jurkat cells

Fike, C.D.; Slaughter, J.C.; Kaplowitz, M.R.; Zhang, Y.; Aschner, J.L., 2008:
Reactive oxygen species from NADPH oxidase contribute to altered pulmonary vascular responses in piglets with chronic hypoxia-induced pulmonary hypertension

Chen, S.; Yin, C.; Strasser, R.Jörg.; Govindjee; Yang, C.; Qiang, S., 2013:
Reactive oxygen species from chloroplasts contribute to 3-acetyl-5-isopropyltetramic acid-induced leaf necrosis of Arabidopsis thaliana

Sheng, W.S.; Hu, S.; Feng, A.; Rock, R.Bryan., 2014:
Reactive oxygen species from human astrocytes induced functional impairment and oxidative damage

Hideg, E.; Vitányi, Báta.; Kósa, Aária.; Solymosi, K.; Bóka, Károly.; Won, S.; Inoue, Y.; Ridge, R.W.; Böddi, Béla., 2010:
Reactive oxygen species from type-I photosensitized reactions contribute to the light-induced wilting of dark-grown pea (Pisum sativum) epicotyls

Kim, K.Soon.; Choi, H.Woong.; Yoon, H.Eun.; Kim, I.Young., 2011:
Reactive oxygen species generated by NADPH oxidase 2 and 4 are required for chondrogenic differentiation

Pestana, R.R.F.; Kinjo, E.R.; Hernandes, M.S.; Britto, L.R.G., 2011:
Reactive oxygen species generated by NADPH oxidase are involved in neurodegeneration in the pilocarpine model of temporal lobe epilepsy

Baruah, K.; Norouzitallab, P.; Linayati, L.; Sorgeloos, P.; Bossier, P., 2015:
Reactive oxygen species generated by a heat shock protein (Hsp) inducing product contributes to Hsp70 production and Hsp70-mediated protective immunity in Artemia franciscana against pathogenic vibrios

Kim, J.; Jang, H-Seong.; Park, K.Moo., 2010:
Reactive oxygen species generated by renal ischemia and reperfusion trigger protection against subsequent renal ischemia and reperfusion injury in mice

Sandrini, J.Zomer.; Bianchini, A.; Trindade, G.Santos.; Nery, L.Eduardo.Maia.; Marins, L.Fernando.Fernandes., 2010:
Reactive oxygen species generation and expression of DNA repair-related genes after copper exposure in zebrafish (Danio rerio) ZFL cells

Tripathy, B.Charan.; Oelmüller, R., 2014:
Reactive oxygen species generation and signaling in plants

Crane, F.L.; Low, H., 2008:
Reactive oxygen species generation at the plasma membrane for antibody control

Vasconcelos, E.M.A.; Degasperi, G.R.; de Oliveira, H.C.F.; Vercesi, Aíbal.E.; de Faria, E.C.; Castilho, L.N., 2009:
Reactive oxygen species generation in peripheral blood monocytes and oxidized LDL are increased in hyperlipidemic patients

Qu, K.; Lin, T.; Wang, Z.; Liu, S.; Chang, H.; Xu, X.; Meng, F.; Zhou, L.; Wei, J.; Tai, M.; Dong, Y.; Liu, C., 2015:
Reactive oxygen species generation is essential for cisplatin-induced accelerated senescence in hepatocellular carcinoma

Sloboda, Dée.D.; Brooks, S.V., 2013:
Reactive oxygen species generation is not different during isometric and lengthening contractions of mouse muscle

Nonogawa, M.; Arai, T.; Endo, N.; Pack, S.Pil.; Kodaki, T.; Makino, K., 2008:
Reactive oxygen species generation through NADH oxidation by pterin derivatives

Martínez-Pastor, F.; Aisen, E.; Fernández-Santos, Mía.Rocío.; Esteso, M.C.; Maroto-Morales, A.; García-Alvarez, O.; Garde, J.Julián., 2008:
Reactive oxygen species generators affect quality parameters and apoptosis markers differently in red deer spermatozoa

Miller, G.; Suzuki, N.; Ciftci-Yilmaz, S.; Mittler, R., 2010:
Reactive oxygen species homeostasis and signalling during drought and salinity stresses

Ye, F.; Zhou, F.; Bedolla, R.G.; Jones, T.; Lei, X.; Kang, T.; Guadalupe, M.; Gao, S-Jiang., 2011:
Reactive oxygen species hydrogen peroxide mediates Kaposi's sarcoma-associated herpesvirus reactivation from latency

Akaike, A.; Katsuki, H.; Kume, T.; Maeda, T., 2008:
Reactive oxygen species in NMDA receptor-mediated glutamate neurotoxicity

Morgan, M.J.; Liu, Z-Gang., 2010:
Reactive oxygen species in TNFalpha-induced signaling and cell death

Jaspers, P.; Kangasjärvi, J., 2010:
Reactive oxygen species in abiotic stress signaling

Messenger, D.J.; McLeod, A.R.; Fry, S.C., 2009:
Reactive oxygen species in aerobic methane formation from vegetation

Morado, S.A.; Cetica, P.D.; Beconi, M.T.; Dalvit, G.C., 2009:
Reactive oxygen species in bovine oocyte maturation in vitro

Liou, G-Yarh.; Storz, P., 2010 :
Reactive oxygen species in cancer

Shi, X.; Zhang, Y.; Zheng, J.; Pan, J., 2012:
Reactive oxygen species in cancer stem cells

Muhammad, S.; Bierhaus, A.; Schwaninger, M., 2009:
Reactive oxygen species in diabetes-induced vascular damage, stroke, and Alzheimer's disease

Bondeva, T.; Wolf, G., 2015:
Reactive oxygen species in diabetic nephropathy: friend or foe?

Roth, E.; Jaberansari, M.T., 2001:
Reactive oxygen species in early and delayed cardiac adaptation

Ozyazgan, I.; Tuncer, A.; Yazici, C.; Günay, G.K., 2007:
Reactive oxygen species in experimental ischemic flow-through venous flaps and effects of antioxidants on reactive oxygen species and flap survival

Elizur, S.E.; Lebovitz, O.; Orvieto, R.; Dor, J.; Zan-Bar, T., 2015:
Reactive oxygen species in follicular fluid may serve as biochemical markers to determine ovarian aging and follicular metabolic age

Ciorba, A.; Gasparini, P.; Chicca, M.; Pinamonti, S.; Martini, A., 2010:
Reactive oxygen species in human inner ear perilymph

Oborna, I.; Fingerova, H.; Novotny, J.; Brezinova, J.; Svobodova, M.; Aziz, N., 2009:
Reactive oxygen species in human semen in relation to leukocyte contamination

Mittal, M.; Siddiqui, M.Rizwan.; Tran, K.; Reddy, S.P.; Malik, A.B., 2014:
Reactive oxygen species in inflammation and tissue injury

Sakamoto, M.; Munemura, I.; Tomita, R.; Kobayashi, K., 2009:
Reactive oxygen species in leaf abscission signaling

Braunersreuther, V.; Jaquet, V., 2012:
Reactive oxygen species in myocardial reperfusion injury: from physiopathology to therapeutic approaches

Zhou, D.; Shao, L.; Spitz, D.R., 2015:
Reactive oxygen species in normal and tumor stem cells

Goncharov, N.V.; Avdonin, P.V.; Nadeev, A.D.; Zharkikh, I.L.; Jenkins, R.O., 2015:
Reactive oxygen species in pathogenesis of atherosclerosis

Radwańska-Wala, B.; Buszman, E.; Druzba, D., 2008:
Reactive oxygen species in pathogenesis of central nervous system diseases

Dahiya, P.; Kamal, R.; Gupta, R.; Bhardwaj, R.; Chaudhary, K.; Kaur, S., 2013:
Reactive oxygen species in periodontitis

Vaitkus, M.; Lavinskiene, S.; Barkauskiene, D.; Bieksiene, K.; Jeroch, J.; Sakalauskas, R., 2014:
Reactive oxygen species in peripheral blood and sputum neutrophils during bacterial and nonbacterial acute exacerbation of chronic obstructive pulmonary disease

Robinson, J.M., 2008:
Reactive oxygen species in phagocytic leukocytes

Vegh, R.B.; Solntsev, K.M.; Kuimova, M.K.; Cho, S.; Liang, Y.; Loo, B.L.W.; Tolbert, L.M.; Bommarius, A.S., 2011:
Reactive oxygen species in photochemistry of the red fluorescent protein "Killer Red"

Heller, J.; Tudzynski, P., 2013:
Reactive oxygen species in phytopathogenic fungi: signaling, development, and disease

Daub, M.E.; Herrero, S.; Chung, K-Ren., 2014:
Reactive oxygen species in plant pathogenesis: the role of perylenequinone photosensitizers

Szymańska, R.; Strzałka, K., 2010:
Reactive oxygen species in plants--production, deactivation and role in signal transduction

Aggarwal, S.; Gross, C.M.; Sharma, S.; Fineman, J.R.; Black, S.M., 2013:
Reactive oxygen species in pulmonary vascular remodeling

Kwak, K.H.; Han, C.G.; Lee, S.H.; Jeon, Y.; Park, S.S.; Kim, S.O.; Baek, W.Y.; Hong, J.G.; Lim, D.G., 2009:
Reactive oxygen species in rats with chronic post-ischemia pain

Sroka, J.; Madeja, Z., 2009:
Reactive oxygen species in regulation of cell migration. The role of thioredoxin reductase

Zhong, M-K.; Gao, J.; Zhang, F.; Xu, B.; Fan, Z-D.; Wang, W.; Zhu, G-Q., 2010:
Reactive oxygen species in rostral ventrolateral medulla modulate cardiac sympathetic afferent reflex in rats

Xu, J.; Yang, K-Yeol.; Yoo, S.Jin.; Liu, Y.; Ren, D.; Zhang, S., 2015:
Reactive oxygen species in signalling the transcriptional activation of WIPK expression in tobacco

Barbieri, E.; Sestili, P., 2011:
Reactive oxygen species in skeletal muscle signaling

Son, Y.; Kim, S.; Chung, H-Taeg.; Pae, H-Ock., 2014:
Reactive oxygen species in the activation of MAP kinases

Askoxylaki, M.; Siristatidis, C.; Chrelias, C.; Vogiatzi, P.; Creatsa, M.; Salamalekis, G.; Vrantza, T.; Vrachnis, N.; Kassanos, D., 2014:
Reactive oxygen species in the follicular fluid of subfertile women undergoing In Vitro Fertilization: a short narrative review

Yang, Y.; Bazhin, A.V.; Werner, J.; Karakhanova, S., 2014:
Reactive oxygen species in the immune system

Yoon, C.Jin.; Park, H.Jun.; Park, N.Cheol., 2010:
Reactive oxygen species in the internal spermatic and brachial veins of patients with varicocele-induced infertility

Jaeschke, H.; Ramachandran, A., 2011:
Reactive oxygen species in the normal and acutely injured liver

Han, Y.; Shi, Z.; Zhang, F.; Yu, Y.; Zhong, M-Kui.; Gao, X-Ya.; Wang, W.; Zhu, G-Qing., 2007:
Reactive oxygen species in the paraventricular nucleus mediate the cardiac sympathetic afferent reflex in chronic heart failure rats

Massaad, C.A.; Klann, E., 2011:
Reactive oxygen species in the regulation of synaptic plasticity and memory

Cáp, M.; Váchová, Lše.; Palková, Z., 2012:
Reactive oxygen species in the signaling and adaptation of multicellular microbial communities

Nishikawa, M., 2008:
Reactive oxygen species in tumor metastasis

Donaghy, L.; Kraffe, E.; Le Goïc, N.; Lambert, C.; Volety, A.K.; Soudant, P., 2013:
Reactive oxygen species in unstimulated hemocytes of the pacific oyster Crassostrea gigas: a mitochondrial involvement

Yun, S.Pil.; Lee, S-Jung.; Oh, S.Yub.; Jung, Y.Hyun.; Ryu, J.Min.; Suh, H.Na.; Kim, M.Ok.; Oh, K.Bong.; Han, H.Jae., 2015:
Reactive oxygen species induce MMP12-dependent degradation of collagen 5 and fibronectin to promote the motility of human umbilical cord-derived mesenchymal stem cells

Kim, H.Jik.; Kim, C-Hoon.; Ryu, J-Hwan.; Kim, M-Ji.; Park, C.Yoon.; Lee, J.Myun.; Holtzman, M.J.; Yoon, J-Heon., 2013:
Reactive oxygen species induce antiviral innate immune response through IFN-λ regulation in human nasal epithelial cells

Antognelli, C.; Gambelunghe, A.; Talesa, V.Nicola.; Muzi, G., 2014:
Reactive oxygen species induce apoptosis in bronchial epithelial BEAS-2B cells by inhibiting the antiglycation glyoxalase I defence: involvement of superoxide anion, hydrogen peroxide and NF-κB

Nishida, N.; Arizumi, T.; Takita, M.; Kitai, S.; Yada, N.; Hagiwara, S.; Inoue, T.; Minami, Y.; Ueshima, K.; Sakurai, T.; Kudo, M., 2014:
Reactive oxygen species induce epigenetic instability through the formation of 8-hydroxydeoxyguanosine in human hepatocarcinogenesis

Weitsman, G.E.; Weebadda, W.; Ung, K.; Murphy, L.C., 2008:
Reactive oxygen species induce phosphorylation of serine 118 and 167 on estrogen receptor alpha

Raddant, A.C.; Russo, A.F., 2014:
Reactive oxygen species induce procalcitonin expression in trigeminal ganglia glia

Ke, K.; Sul, O-Joo.; Choi, E-Kyung.; Safdar, A.M.; Kim, E-Sook.; Choi, H-Seon., 2014:
Reactive oxygen species induce the association of SHP-1 with c-Src and the oxidation of both to enhance osteoclast survival

Aikawa, C.; Nozawa, T.; Maruyama, F.; Tsumoto, K.; Hamada, S.; Nakagawa, I., 2010:
Reactive oxygen species induced by Streptococcus pyogenes invasion trigger apoptotic cell death in infected epithelial cells

Ferrer, E.; Juan-García, A.; Font, G.; Ruiz, M.J., 2010:
Reactive oxygen species induced by beauvericin, patulin and zearalenone in CHO-K1 cells

Booth, D.M.; Murphy, J.A.; Mukherjee, R.; Awais, M.; Neoptolemos, J.P.; Gerasimenko, O.V.; Tepikin, A.V.; Petersen, O.H.; Sutton, R.; Criddle, D.N., 2011:
Reactive oxygen species induced by bile acid induce apoptosis and protect against necrosis in pancreatic acinar cells

Veeramani, S.; Chou, Y-Wei.; Lin, F.C.; Muniyan, S.; Lin, F-Fen.; Kumar, S.; Xie, Y.; Lele, S.M.; Tu, Y.; Lin, M-Fong., 2012:
Reactive oxygen species induced by p66Shc longevity protein mediate nongenomic androgen action via tyrosine phosphorylation signaling to enhance tumorigenicity of prostate cancer cells

Tarasenko, A.; Krupko, O.; Himmelreich, N., 2013:
Reactive oxygen species induced by presynaptic glutamate receptor activation is involved in [(3)H]GABA release from rat brain cortical nerve terminals

Konttinen, Y.T.; Kemppinen, P.; Segerberg, M.; Sorsa, T.; Saari, H.; Hukkanen, M., 1992:
Reactive oxygen species induced structural alterations of substance P

Song, H.; Cha, M-Ji.; Song, B-Wook.; Kim, I-Kwon.; Chang, W.; Lim, S.; Choi, E.Ju.; Ham, O.; Lee, S-Yeon.; Chung, N.; Jang, Y.; Hwang, K-Chul., 2010:
Reactive oxygen species inhibit adhesion of mesenchymal stem cells implanted into ischemic myocardium via interference of focal adhesion complex

Ito, H.; Tamura, M.; Matsui, H.; Majima, H.J.; Indo, H.P.; Hyodo, I., 2014:
Reactive oxygen species involved cancer cellular specific 5-aminolevulinic acid uptake in gastric epithelial cells

Prosperini, A.; Juan-García, A.; Font, G.; Ruiz, M.J., 2013:
Reactive oxygen species involvement in apoptosis and mitochondrial damage in Caco-2 cells induced by enniatins A, A₁, B and B₁

Zhao, X.; Cao, M.; Liu, J.J.; Zhu, H.; Nelson, D.R.; Liu, C., 2012:
Reactive oxygen species is essential for cycloheximide to sensitize lexatumumab-induced apoptosis in hepatocellular carcinoma cells

Sheng, K-Ching.; Pietersz, G.A.; Tang, C.Kit.; Ramsland, P.A.; Apostolopoulos, V., 2010:
Reactive oxygen species level defines two functionally distinctive stages of inflammatory dendritic cell development from mouse bone marrow

Campisi, A.; Gulino, M.; Acquaviva, R.; Bellia, P.; Raciti, G.; Grasso, R.; Musumeci, F.; Vanella, A.; Triglia, A., 2010:
Reactive oxygen species levels and DNA fragmentation on astrocytes in primary culture after acute exposure to low intensity microwave electromagnetic field

Desai, N.R.; Mahfouz, R.; Sharma, R.; Gupta, S.; Agarwal, A., 2010:
Reactive oxygen species levels are independent of sperm concentration, motility, and abstinence in a normal, healthy, proven fertile man: a longitudinal study

Tuma, R.S., 2007:
Reactive oxygen species may have antitumor activity in metastatic melanoma

Venkatesh, S.; Shamsi, M.B.; Dudeja, S.; Kumar, R.; Dada, R., 2011:
Reactive oxygen species measurement in neat and washed semen: comparative analysis and its significance in male infertility assessment

Sun, L.; Wang, X.; Yao, H.; Li, W.; Son, Y-Ok.; Luo, J.; Liu, J.; Zhang, Z., 2013:
Reactive oxygen species mediate Cr(VI)-induced S phase arrest through p53 in human colon cancer cells

Son, Y-Ok.; Pratheeshkumar, P.; Wang, L.; Wang, X.; Fan, J.; Kim, D-Hern.; Lee, J-Yeon.; Zhang, Z.; Lee, J-Chae.; Shi, X., 2013:
Reactive oxygen species mediate Cr(VI)-induced carcinogenesis through PI3K/AKT-dependent activation of GSK-3β/β-catenin signaling

Huang, S-Yen.; Fang, C-Yeu.; Wu, C-Chun.; Tsai, C-Hwa.; Lin, S-Fang.; Chen, J-Yang., 2014:
Reactive oxygen species mediate Epstein-Barr virus reactivation by N-methyl-N'-nitro-N-nitrosoguanidine

Ko, J.Won.; Lim, S.Young.; Chung, K.Chul.; Lim, J.Weon.; Kim, H., 2015 :
Reactive oxygen species mediate IL-8 expression in Down syndrome candidate region-1-overexpressed cells

Jernigan, N.L.; Walker, B.R.; Resta, T.C., 2008:
Reactive oxygen species mediate RhoA/Rho kinase-induced Ca2+ sensitization in pulmonary vascular smooth muscle following chronic hypoxia

Ma, F.; Zhang, L.; Westlund, K.N., 2009:
Reactive oxygen species mediate TNFR1 increase after TRPV1 activation in mouse DRG neurons

Tavares, A.Filipa.N.; Teixeira, M.; Romão, C.C.; Seixas, Jão.D.; Nobre, Lígia.S.; Saraiva, Lígia.M., 2011:
Reactive oxygen species mediate bactericidal killing elicited by carbon monoxide-releasing molecules

Ozeki, M.; Nagasu, H.; Satoh, M.; Namikoshi, T.; Haruna, Y.; Tomita, N.; Sasaki, T.; Kashihara, N., 2009:
Reactive oxygen species mediate compensatory glomerular hypertrophy in rat uninephrectomized kidney

Acquier, A.B.; Mori Sequeiros García, M.; Gorostizaga, A.B.; Paz, C.; Mendez, C.F., 2013:
Reactive oxygen species mediate dopamine-induced signaling in renal proximal tubule cells

Müller-Schweinitzer, E.; Müller, S.E.; Reineke, D.C.; Kern, T.; Carrel, T.P.; Eckstein, F.S.; Grapow, M.T.R., 2010:
Reactive oxygen species mediate functional differences in human radial and internal thoracic arteries from smokers

Steffens, B.; Steffen-Heins, A.; Sauter, M., 2013:
Reactive oxygen species mediate growth and death in submerged plants

Samuni, Y.; Ishii, H.; Hyodo, F.; Samuni, U.; Krishna, M.C.; Goldstein, S.; Mitchell, J.B., 2010:
Reactive oxygen species mediate hepatotoxicity induced by the Hsp90 inhibitor geldanamycin and its analogs

Rao, G.; Ding, H.G.; Huang, W.; Le, D.; Maxhimer, J.B.; Oosterhof, A.; van Kuppevelt, T.; Lum, H.; Lewis, E.J.; Reddy, V.; Prinz, R.A.; Xu, X., 2011:
Reactive oxygen species mediate high glucose-induced heparanase-1 production and heparan sulphate proteoglycan degradation in human and rat endothelial cells: a potential role in the pathogenesis of atherosclerosis

Bhogal, R.Harminder.; Curbishley, S.M.; Weston, C.J.; Adams, D.H.; Afford, S.C., 2011:
Reactive oxygen species mediate human hepatocyte injury during hypoxia/reoxygenation

Rasul, A.; Di, J.; Millimouno, F.Martin.; Malhi, M.; Tsuji, I.; Ali, M.; Li, J.; Li, X., 2014:
Reactive oxygen species mediate isoalantolactone-induced apoptosis in human prostate cancer cells

Llacuna, L.; Marí, M.; Lluis, J.M.; García-Ruiz, C.; Fernández-Checa, Jé.C.; Morales, A., 2009:
Reactive oxygen species mediate liver injury through parenchymal nuclear factor-kappaB inactivation in prolonged ischemia/reperfusion

Saunders, J.A.; Rogers, L.C.; Klomsiri, C.; Poole, L.B.; Daniel, L.W., 2011:
Reactive oxygen species mediate lysophosphatidic acid induced signaling in ovarian cancer cells

Kumar, M.G.; Patel, N.M.; Nicholson, A.M.; Kalen, A.L.; Sarsour, E.H.; Goswami, P.C., 2012:
Reactive oxygen species mediate microRNA-302 regulation of AT-rich interacting domain 4a and C-C motif ligand 5 expression during transitions between quiescence and proliferation

Mesquita, F.S.; Dyer, S.N.; Heinrich, D.A.; Bulun, S.E.; Marsh, E.E.; Nowak, R.A., 2010:
Reactive oxygen species mediate mitogenic growth factor signaling pathways in human leiomyoma smooth muscle cells

Huang, J.; Wu, L.; Tashiro, S-ichi.; Onodera, S.; Ikejima, T., 2008:
Reactive oxygen species mediate oridonin-induced HepG2 apoptosis through p53, MAPK, and mitochondrial signaling pathways

Lu, T.; Parthasarathy, S.; Hao, H.; Luo, M.; Ahmed, S.; Zhu, J.; Luo, S.; Kuppusamy, P.; Sen, C.K.; Verfaillie, C.M.; Tian, J.; Liu, Z., 2011 :
Reactive oxygen species mediate oxidized low-density lipoprotein-induced inhibition of oct-4 expression and endothelial differentiation of bone marrow stem cells

Cardaci, S.; Filomeni, G.; Rotilio, G.; Ciriolo, M.R., 2008:
Reactive oxygen species mediate p53 activation and apoptosis induced by sodium nitroprusside in SH-SY5Y cells

Lu, W-yi.; Zhao, M-feng.; Chai, X.; Meng, J-xia.; Zhao, N.; Rajbhandary, S.; Xu, X-nü.; Ma, L.; Li, Y-ming., 2014:
Reactive oxygen species mediate the injury and deficient hematopoietic supportive capacity of umbilical cord derived mesenchymal stem cells induced by iron overload

El-Najjar, N.; Chatila, M.; Moukadem, H.; Vuorela, H.; Ocker, M.; Gandesiri, M.; Schneider-Stock, R.; Gali-Muhtasib, H., 2010:
Reactive oxygen species mediate thymoquinone-induced apoptosis and activate ERK and JNK signaling

Dwivedi, S.; Wahab, R.; Khan, F.; Mishra, Y.K.; Musarrat, J.; Al-Khedhairy, A.A., 2015:
Reactive oxygen species mediated bacterial biofilm inhibition via zinc oxide nanoparticles and their statistical determination

Shortt, C.M.; Fredsted, A.; Chow, H.Bing.; Williams, R.; Skelly, J.Richard.; Edge, D.; Bradford, A.; O'Halloran, K.D., 2015:
Reactive oxygen species mediated diaphragm fatigue in a rat model of chronic intermittent hypoxia

Park, H-Min.; Kim, S-Jin.; Kim, J-Shang.; Kang, H-Sub., 2012:
Reactive oxygen species mediated ginsenoside Rg3- and Rh2-induced apoptosis in hepatoma cells through mitochondrial signaling pathways

Baluchamy, S.; Ravichandran, P.; Ramesh, V.; He, Z.; Zhang, Y.; Hall, J.C.; Jejelowo, O.; Gridley, D.S.; Wu, H.; Ramesh, G.T., 2012:
Reactive oxygen species mediated tissue damage in high energy proton irradiated mouse brain

Zhang, Z-chun.; Qiu, B-Sheng., 2008:
Reactive oxygen species metabolism during the cadmium hyperaccumulation of a new hyperaccumulator Sedum alfredii (Crassulaceae)

Whyte, K.A.; Hogg, R.C.; Dyavanapalli, J.; Harper, A.A.; Adams, D.J., 2009:
Reactive oxygen species modulate neuronal excitability in rat intrinsic cardiac ganglia

Singh, A.; Ramnath, R.D.; Foster, R.R.; Wylie, E.C.; Fridén, V.; Dasgupta, I.; Haraldsson, B.; Welsh, G.I.; Mathieson, P.W.; Satchell, S.C., 2013:
Reactive oxygen species modulate the barrier function of the human glomerular endothelial glycocalyx

Chang, H-Ling.; Tseng, Y-Lu.; Ho, K-Lin.; Shie, S-Chiu.; Wu, P-Shan.; Hsu, Y-Ting.; Lee, T-Min., 2014:
Reactive oxygen species modulate the differential expression of methionine sulfoxide reductase genes in Chlamydomonas reinhardtii under high light illumination

Smietana, M.J.; Arruda, E.M.; Faulkner, J.A.; Brooks, S.V.; Larkin, L.M., 2011:
Reactive oxygen species on bone mineral density and mechanics in Cu,Zn superoxide dismutase (Sod1) knockout mice

Liu, M.; Liu, H.; Dudley, S.C., 2010:
Reactive oxygen species originating from mitochondria regulate the cardiac sodium channel

Liu, N.; Xue, Y-ming.; Zhu, B.; Lian, X.; Lu, W., 2013:
Reactive oxygen species participates in low glucose-induced injury of ECV304 cells

Zeng, M.; Xiao, F.; Zhong, X.; Jin, F.; Guan, L.; Wang, A.; Liu, X.; Zhong, C., 2014:
Reactive oxygen species play a central role in hexavalent chromium-induced apoptosis in Hep3B cells without the functional roles of p53 and caspase-3

Yan, W.; Chen, W.; Huang, L., 2008:
Reactive oxygen species play a central role in the activity of cationic liposome based cancer vaccine

Jang, J.Yong.; Min, J.Hyun.; Chae, Y.Hee.; Baek, J.Young.; Wang, S.Bin.; Park, S.Jin.; Oh, G.Taeg.; Lee, S-Hak.; Ho, Y-Shih.; Chang, T-Shin., 2015 :
Reactive oxygen species play a critical role in collagen-induced platelet activation via SHP-2 oxidation

Bernardes, S.Santos.; Guarnier, Fávia.Alessandra.; Marinello, P.Camila.; Armani, Aé.; Simão, Aéa.Name.Colado.; Cecchini, R.; Cecchini, A.Lourenço., 2015:
Reactive oxygen species play a role in muscle wasting during thyrotoxicosis

Handayaningsih, A-Evi.; Iguchi, G.; Fukuoka, H.; Nishizawa, H.; Takahashi, M.; Yamamoto, M.; Herningtyas, E-Henny.; Okimura, Y.; Kaji, H.; Chihara, K.; Seino, S.; Takahashi, Y., 2011:
Reactive oxygen species play an essential role in IGF-I signaling and IGF-I-induced myocyte hypertrophy in C2C12 myocytes

Coddou, C.; Codocedo, J.F.; Li, S.; Lillo, J.G.; Acuña-Castillo, C.; Bull, P.; Stojilkovic, S.S.; Huidobro-Toro, J.Pablo., 2009:
Reactive oxygen species potentiate the P2X2 receptor activity through intracellular Cys430

Kim, H-Ran.; Lee, A.; Choi, E-Jeong.; Hong, M-Pyo.; Kie, J-Hae.; Lim, W.; Lee, H.Kook.; Moon, B-In.; Seoh, J-Young., 2015:
Reactive oxygen species prevent imiquimod-induced psoriatic dermatitis through enhancing regulatory T cell function

Sasabe, E.; Yang, Z.; Ohno, S.; Yamamoto, T., 2010:
Reactive oxygen species produced by the knockdown of manganese-superoxide dismutase up-regulate hypoxia-inducible factor-1alpha expression in oral squamous cell carcinoma cells

Shipounova, I.N.; Svinareva, D.A.; Petrova, T.V.; Lyamzaev, K.G.; Chernyak, B.V.; Drize, N.I.; Skulachev, V.P., 2010:
Reactive oxygen species produced in mitochondria are involved in age-dependent changes of hematopoietic and mesenchymal progenitor cells in mice. A study with the novel mitochondria-targeted antioxidant SkQ1

Zhang, J.; Chen, C.; Zhang, D.; Li, H.; Li, P.; Ma, F., 2015:
Reactive oxygen species produced via plasma membrane NADPH oxidase regulate anthocyanin synthesis in apple peel

Andrews, E.S.; Crain, P.R.; Fu, Y.; Howe, D.K.; Dobson, S.L., 2013:
Reactive oxygen species production and Brugia pahangi survivorship in Aedes polynesiensis with artificial Wolbachia infection types

Chongthammakun, V.; Sanvarinda, Y.; Chongthammakun, S., 2009:
Reactive oxygen species production and MAPK activation are implicated in tetrahydrobiopterin-induced SH-SY5Y cell death

Wiley, L.; Ashok, D.; Martin-Ruiz, C.; Talbot, D.C.S.; Collerton, J.; Kingston, A.; Davies, K.; Chinnery, P.F.; Catt, M.; Jagger, C.; Kirkwood, T.B.L.; von Zglinicki, T., 2016:
Reactive oxygen species production and mitochondrial dysfunction in white blood cells are not valid biomarkers of ageing in the very old

Chen, C.; Ahmed, I.; Fruk, L., 2014:
Reactive oxygen species production by catechol stabilized copper nanoparticles

Selivanov, V.A.; Votyakova, T.V.; Pivtoraiko, V.N.; Zeak, J.; Sukhomlin, T.; Trucco, M.; Roca, J.; Cascante, M., 2011:
Reactive oxygen species production by forward and reverse electron fluxes in the mitochondrial respiratory chain

Lambert, A.J.; Brand, M.D., 2009:
Reactive oxygen species production by mitochondria

Korge, P.; Ping, P.; Weiss, J.N., 2008:
Reactive oxygen species production in energized cardiac mitochondria during hypoxia/reoxygenation: modulation by nitric oxide

Yoshida, A.; Yoshino, F.; Makita, T.; Maehata, Y.; Higashi, K.; Miyamoto, C.; Wada-Takahashi, S.; Takahashi, S-suke.; Takahashi, O.; Lee, M.Chang-il., 2014:
Reactive oxygen species production in mitochondria of human gingival fibroblast induced by blue light irradiation

Hodyc, D.; Johnson, E.; Skoumalová, A.; Tkaczyk, J.; Maxová, H.; Vízek, M.; Herget, J., 2013:
Reactive oxygen species production in the early and later stage of chronic ventilatory hypoxia

Kotsias, F.; Hoffmann, E.; Amigorena, S.; Savina, A., 2013:
Reactive oxygen species production in the phagosome: impact on antigen presentation in dendritic cells

Babourina, O.; Ozturk, L.; Cakmak, I.; Rengel, Z., 2006:
Reactive oxygen species production in wheat roots is not linked with changes in h fluxes during acidic and aluminium stresses

Pérez-Gallardo, R.V.; Briones, L.S.; Díaz-Pérez, A.L.; Gutiérrez, S.; Rodríguez-Zavala, Jé.S.; Campos-García, Jús., 2014:
Reactive oxygen species production induced by ethanol in Saccharomyces cerevisiae increases because of a dysfunctional mitochondrial iron-sulfur cluster assembly system

Degasperi, G.R.; Denis, R.G.P.; Morari, J.; Solon, C.; Geloneze, B.; Stabe, C.; Pareja, Jé.Carlos.; Vercesi, Aíbal.E.; Velloso, Lício.A., 2009:
Reactive oxygen species production is increased in the peripheral blood monocytes of obese patients

Zhao, W.; Zhao, T.; Chen, Y.; Ahokas, R.A.; Sun, Y., 2010:
Reactive oxygen species promote angiogenesis in the infarcted rat heart

Brezniceanu, M-Luise.; Lau, C.J.; Godin, N.; Chénier, I.; Duclos, A.; Ethier, J.; Filep, J.G.; Ingelfinger, J.R.; Zhang, S-Ling.; Chan, J.S.D., 2010:
Reactive oxygen species promote caspase-12 expression and tubular apoptosis in diabetic nephropathy

Szaflik, J.P.; Rusin, P.; Zaleska-Zmijewska, A.; Kowalski, Mł.; Majsterek, I.; Szaflik, J., 2010:
Reactive oxygen species promote localized DNA damage in glaucoma-iris tissues of elderly patients vulnerable to diabetic injury

Wang, Y.; Ma, J.; Shen, H.; Wang, C.; Sun, Y.; Howell, S.B.; Lin, X., 2015:
Reactive oxygen species promote ovarian cancer progression via the HIF-1α/LOX/E-cadherin pathway

Shimokawa, H., 2013:
Reactive oxygen species promote vascular smooth muscle cell proliferation

Sasaki, M.; Kajiya, H.; Ozeki, S.; Okabe, K.; Ikebe, T., 2015:
Reactive oxygen species promotes cellular senescence in normal human epidermal keratinocytes through epigenetic regulation of p16(INK4a.)

Zhang, Z.; Wang, Q.; Ma, J.; Yi, X.; Zhu, Y.; Xi, X.; Feng, Y.; Jin, Z., 2013:
Reactive oxygen species regulate FSH-induced expression of vascular endothelial growth factor via Nrf2 and HIF1α signaling in human epithelial ovarian cancer

Yan, F.; Li, W.; Jono, H.; Li, Q.; Zhang, S.; Li, J-Dong.; Shen, H., 2007:
Reactive oxygen species regulate Pseudomonas aeruginosa lipopolysaccharide-induced MUC5AC mucin expression via PKC-NADPH oxidase-ROS-TGF-alpha signaling pathways in human airway epithelial cells

Kim, J-Sub.; Huang, T.Y.; Bokoch, G.M., 2009:
Reactive oxygen species regulate a slingshot-cofilin activation pathway

Sachan, N.; Rogers, D.T.; Yun, K-Young.; Littleton, J.M.; Falcone, D.L., 2010:
Reactive oxygen species regulate alkaloid metabolism in undifferentiated N. tabacum cells

Lupfer, C.R.; Anand, P.K.; Liu, Z.; Stokes, K.L.; Vogel, P.; Lamkanfi, M.; Kanneganti, T-Devi., 2015:
Reactive oxygen species regulate caspase-11 expression and activation of the non-canonical NLRP3 inflammasome during enteric pathogen infection

Tapryal, N.; Mukhopadhyay, C.; Das, D.; Fox, P.L.; Mukhopadhyay, C.K., 2008:
Reactive oxygen species regulate ceruloplasmin by a novel mRNA decay mechanism involving its 3'-untranslated region: implications in neurodegenerative diseases

Ludin, A.; Gur-Cohen, S.; Golan, K.; Kaufmann, K.B.; Itkin, T.; Medaglia, C.; Lu, X-Jiang.; Ledergor, G.; Kollet, O.; Lapidot, T., 2015:
Reactive oxygen species regulate hematopoietic stem cell self-renewal, migration and development, as well as their bone marrow microenvironment

Qutub, A.A.; Popel, A.S., 2008:
Reactive oxygen species regulate hypoxia-inducible factor 1alpha differentially in cancer and ischemia

Huang, M.; Whang, P.; Chodaparambil, J.V.; Pollyea, D.A.; Kusler, B.; Xu, L.; Felsher, D.W.; Mitchell, B.S., 2011:
Reactive oxygen species regulate nucleostemin oligomerization and protein degradation

Groeger, G.; Doonan, F.; Cotter, T.G.; Donovan, M., 2012:
Reactive oxygen species regulate prosurvival ERK1/2 signaling and bFGF expression in gliosis within the retina

Taulet, N.; Delorme-Walker, V.D.; DerMardirossian, Céline., 2013:
Reactive oxygen species regulate protrusion efficiency by controlling actin dynamics

Lee, K.Hee.; Kim, J.Ryong., 2009:
Reactive oxygen species regulate the generation of urokinase plasminogen activator in human hepatoma cells via MAPK pathways after treatment with hepatocyte growth factor

Damiano, S.; Fusco, R.; Morano, A.; De Mizio, M.; Paternò, R.; De Rosa, A.; Spinelli, R.; Amente, S.; Frunzio, R.; Mondola, P.; Miot, F.; Laccetti, P.; Santillo, M.; Avvedimento, E.Vittorio., 2012:
Reactive oxygen species regulate the levels of dual oxidase (Duox1-2) in human neuroblastoma cells

Song, S-Hwa.; Kim, K.; Park, J.Joo.; Min, K.Hoon.; Suh, W., 2015:
Reactive oxygen species regulate the quiescence of CD34-positive cells derived from human embryonic stem cells

Lee, K.Hee.; Kim, S.Woon.; Kim, J-Ryong., 2009:
Reactive oxygen species regulate urokinase plasminogen activator expression and cell invasion via mitogen-activated protein kinase pathways after treatment with hepatocyte growth factor in stomach cancer cells

Pratap Singh, K.; Zaidi, A.; Anwar, S.; Bimal, S.; Das, P.; Ali, V., 2015:
Reactive oxygen species regulates expression of iron-sulfur cluster assembly protein IscS of Leishmania donovani

Chinta, S.J.; Rane, A.; Yadava, N.; Andersen, J.K.; Nicholls, D.G.; Polster, B.M., 2009:
Reactive oxygen species regulation by AIF- and complex I-depleted brain mitochondria

Rahman, M.; Mofarrahi, M.; Kristof, A.S.; Nkengfac, B.; Harel, S.; Hussain, S.N.A., 2014:
Reactive oxygen species regulation of autophagy in skeletal muscles

Li, J.; Fan, R.; Zhao, S.; Liu, L.; Guo, S.; Wu, N.; Zhang, W.; Chen, P., 2011:
Reactive oxygen species released from hypoxic hepatocytes regulates MMP-2 expression in hepatic stellate cells

Lee, N-Hee.; Lee, Y-Hee.; Bhattari, G.; Lee, I-Kyoung.; Yun, B-Sik.; Jeon, J-Gyu.; Hwang, P-Han.; Yi, H-Keun., 2011:
Reactive oxygen species removal activity of davallialactone reduces lipopolysaccharide-induced pulpal inflammation through inhibition of the extracellular signal-regulated kinase 1/2 and nuclear factor kappa b pathway

Faure, A.M.; Werder, J.; Nyström, L., 2014:
Reactive oxygen species responsible for beta-glucan degradation

Lee, B-Seop.; Amano, T.; Wang, H.Qiang.; Pantoja, J.L.; Yoon, C.Woo.; Hanson, C.J.; Amatya, R.; Yen, A.; Black, K.L.; Yu, J.S., 2013:
Reactive oxygen species responsive nanoprodrug to treat intracranial glioblastoma

Wei, S-sheng.; Liao, X-xue.; Yang, C-tao.; Lin, J-yan.; Yang, Z-li.; Lan, A-ping.; Huang, X.; Wang, L-chun.; Chen, P-xi.; Feng, J-qiang., 2011:
Reactive oxygen species scavenger protects cardiac cells against injuries induced by chemical hypoxia

Fike, C.D.; Aschner, J.L.; Kaplowitz, M.R.; Zhang, Y.; Madden, J.A., 2014:
Reactive oxygen species scavengers improve voltage-gated K(+) channel function in pulmonary arteries of newborn pigs with progressive hypoxia-induced pulmonary hypertension

Qi, X., 2010:
Reactive oxygen species scavenging activities and inhibition on DNA oxidative damage of dimeric compounds from the oxidation of (-)-epigallocatechin-3-O-gallate

Fiorentino, A.; D'Abrosca, B.; Pacifico, S.; Golino, A.; Mastellone, C.; Oriano, P.; Monaco, P., 2007:
Reactive oxygen species scavenging activity of flavone glycosides from Melilotus neapolitana

Wu, J-Hua.; Wang, W-Qing.; Song, S-Quan.; Cheng, H-Yan., 2009:
Reactive oxygen species scavenging enzymes and down-adjustment of metabolism level in mitochondria associated with desiccation-tolerance acquisition of maize embryo

Tsai, Y-Yang.; Oca-Cossio, J.; Lin, S-Min.; Woan, K.; Yu, P-Ching.; Sigmund, W., 2008:
Reactive oxygen species scavenging properties of ZrO2-CeO2 solid solution nanoparticles

Li, W.; Shi, Y-Hui.; Yang, R-Li.; Cui, J.; Xiao, Y.; Le, G-Wei., 2010:
Reactive oxygen species serve as signals mediating glucose-stimulated somatostatin secretion from cultured rat gastric primary D-cells

Akaike, T., 2014:
Reactive oxygen species signaling and redox homeostasis regulated by 8-nitro-cGMP

Lu, T.; Chai, Q.; Yu, L.; d'Uscio, L.V.; Katusic, Z.S.; He, T.; Lee, H-Chi., 2012:
Reactive oxygen species signaling facilitates FOXO-3a/FBXO-dependent vascular BK channel β1 subunit degradation in diabetic mice

Afanas'ev, I., 2012:
Reactive oxygen species signaling in cancer: comparison with aging

Choudhury, S.; Panda, P.; Sahoo, L.; Panda, S.Kumar., 2014:
Reactive oxygen species signaling in plants under abiotic stress

Perez-Vizcaino, F.; Cogolludo, A.; Moreno, L., 2011:
Reactive oxygen species signaling in pulmonary vascular smooth muscle

Valentine, J.Selverstone.; Gralla, E.Butler., 2008:
Reactive oxygen species special feature

Amendola, R.; Cervelli, M.; Fratini, E.; Sallustio, D.E.; Tempera, G.; Ueshima, T.; Mariottini, P.; Agostinelli, E., 2014:
Reactive oxygen species spermine metabolites generated from amine oxidases and radiation represent a therapeutic gain in cancer treatments

Saadeh, M.; Ferrante, T.C.; Kane, A.; Shirihai, O.; Corkey, B.E.; Deeney, J.T., 2012:
Reactive oxygen species stimulate insulin secretion in rat pancreatic islets: studies using mono-oleoyl-glycerol

Mao, W.; You, T.; Ye, B.; Li, X.; Dong, H.H.; Hill, J.A.; Li, F.; Xu, H., 2012:
Reactive oxygen species suppress cardiac NaV1.5 expression through Foxo1

Tsutsumi, Y.M.; Yokoyama, T.; Horikawa, Y.; Roth, D.M.; Patel, H.H., 2007:
Reactive oxygen species trigger ischemic and pharmacological postconditioning: in vivo and in vitro characterization

Roy, A.; Jana, A.; Yatish, K.; Freidt, M.B.; Fung, Y.K.; Martinson, J.A.; Pahan, K., 2008:
Reactive oxygen species up-regulate CD11b in microglia via nitric oxide: Implications for neurodegenerative diseases

Lee, D-Hee.; Rhee, J.G.; Lee, Y.J., 2010:
Reactive oxygen species up-regulate p53 and Puma; a possible mechanism for apoptosis during combined treatment with TRAIL and wogonin

Okoh, V.O.; Felty, Q.; Parkash, J.; Poppiti, R.; Roy, D., 2013:
Reactive oxygen species via redox signaling to PI3K/AKT pathway contribute to the malignant growth of 4-hydroxy estradiol-transformed mammary epithelial cells

Mackeh, R.; Lorin, Séverine.; Ratier, A.; Mejdoubi-Charef, N.; Baillet, A.; Bruneel, A.; Hamaï, A.; Codogno, P.; Poüs, C.; Perdiz, D., 2014:
Reactive oxygen species, AMP-activated protein kinase, and the transcription cofactor p300 regulate α-tubulin acetyltransferase-1 (αTAT-1/MEC-17)-dependent microtubule hyperacetylation during cell stress

Cassano, S.; Agnese, S.; D'Amato, V.; Papale, M.; Garbi, C.; Castagnola, P.; Ruocco, M.Rosaria.; Castellano, I.; De Vendittis, E.; Santillo, M.; Amente, S.; Porcellini, A.; Avvedimento, E.Vittorio., 2010:
Reactive oxygen species, Ki-Ras, and mitochondrial superoxide dismutase cooperate in nerve growth factor-induced differentiation of PC12 cells

Datla, S.Raju.; Griendling, K.K., 2010:
Reactive oxygen species, NADPH oxidases, and hypertension

Wilkinson-Berka, J.L.; Rana, I.; Armani, R.; Agrotis, A., 2013:
Reactive oxygen species, Nox and angiotensin II in angiogenesis: implications for retinopathy

Xia, L.; Wang, H.; Munk, S.; Frecker, H.; Goldberg, H.J.; Fantus, I.George.; Whiteside, C.I., 2007:
Reactive oxygen species, PKC-beta1, and PKC-zeta mediate high-glucose-induced vascular endothelial growth factor expression in mesangial cells

El-Maarouf-Bouteau, H.; Sajjad, Y.; Bazin, Jérémie.; Langlade, N.; Cristescu, S.M.; Balzergue, S.; Baudouin, E.; Bailly, C., 2015:
Reactive oxygen species, abscisic acid and ethylene interact to regulate sunflower seed germination

Ludovico, P.; Burhans, W.C., 2015:
Reactive oxygen species, ageing and the hormesis police

Vaidya, A.D.B.; Vaidya, R., 2012:
Reactive oxygen species, anti-oxidant enzymes and smoldering chronic inflammation: Relevance to diabetes mellitus, atherosclerosis, and menopausal metabolic syndrome

Stojnev, S.; Ristić-Petrović, A.; Janković-Velicković, L., 2014:
Reactive oxygen species, apoptosis and cancer

Vokurkova, M.; Xu, S.; Touyz, R.M., 2007:
Reactive oxygen species, cell growth, cell cycle progression and vascular remodeling in hypertension

Circu, M.L.; Aw, T.Yee., 2010:
Reactive oxygen species, cellular redox systems, and apoptosis

Engler, I.; Atzmüeller, C.; Donic, V.; Steinhäusler, F., 2010:
Reactive oxygen species, especially O2+* in cancer mechanisms

Slimen, I.Belhadj.; Najar, T.; Ghram, A.; Dabbebi, H.; Ben Mrad, M.; Abdrabbah, M., 2015:
Reactive oxygen species, heat stress and oxidative-induced mitochondrial damage. A review

Khan, S.R., 2014:
Reactive oxygen species, inflammation and calcium oxalate nephrolithiasis

Shchepinov, M.S., 2007:
Reactive oxygen species, isotope effect, essential nutrients, and enhanced longevity

Quinzii, C.M.; López, L.C.; Gilkerson, R.W.; Dorado, B.; Coku, J.; Naini, A.B.; Lagier-Tourenne, C.; Schuelke, M.; Salviati, L.; Carrozzo, R.; Santorelli, F.; Rahman, S.; Tazir, M.; Koenig, M.; DiMauro, S.; Hirano, M., 2010:
Reactive oxygen species, oxidative stress, and cell death correlate with level of CoQ10 deficiency

Singh, P.P.; Mahadi, F.; Roy, A.; Sharma, P., 2009:
Reactive oxygen species, reactive nitrogen species and antioxidants in etiopathogenesis of diabetes mellitus type-2

Montezano, A.C.; Touyz, R.M., 2014:
Reactive oxygen species, vascular Noxs, and hypertension: focus on translational and clinical research

Soriani, A.; Iannitto, M.Luisa.; Ricci, B.; Fionda, C.; Malgarini, G.; Morrone, S.; Peruzzi, G.; Ricciardi, M.Rosaria.; Petrucci, M.Teresa.; Cippitelli, M.; Santoni, A., 2014:
Reactive oxygen species- and DNA damage response-dependent NK cell activating ligand upregulation occurs at transcriptional levels and requires the transcriptional factor E2F1

Pan, J.; Chang, Q.; Wang, X.; Son, Y.; Zhang, Z.; Chen, G.; Luo, J.; Bi, Y.; Chen, F.; Shi, X., 2010:
Reactive oxygen species-activated Akt/ASK1/p38 signaling pathway in nickel compound-induced apoptosis in BEAS 2B cells

Wagner, S.; Ruff, H.M.; Weber, S.L.; Bellmann, S.; Sowa, T.; Schulte, T.; Anderson, M.E.; Grandi, E.; Bers, D.M.; Backs, J.; Belardinelli, L.; Maier, L.S., 2011:
Reactive oxygen species-activated Ca/calmodulin kinase IIδ is required for late I(Na) augmentation leading to cellular Na and Ca overload

Clond, M.A.; Lee, B-Seop.; Yu, J.J.; Singer, M.B.; Amano, T.; Lamb, A.W.; Drazin, D.; Kateb, B.; Ley, E.J.; Yu, J.S., 2013:
Reactive oxygen species-activated nanoprodrug of Ibuprofen for targeting traumatic brain injury in mice

Méndez-Samperio, P.; Pérez, A.; Alba, L., 2011:
Reactive oxygen species-activated p38/ERK 1/2 MAPK signaling pathway in the Mycobacterium bovis bacillus Calmette Guérin (BCG)-induced CCL2 secretion in human monocytic cell line THP-1

Alluri, H.; Stagg, H.W.; Wilson, R.L.; Clayton, R.P.; Sawant, D.A.; Koneru, M.; Beeram, M.R.; Davis, M.L.; Tharakan, B., 2015:
Reactive oxygen species-caspase-3 relationship in mediating blood-brain barrier endothelial cell hyperpermeability following oxygen-glucose deprivation and reoxygenation

Zhao, D.; Wang, C.; Tang, S.; Zhang, C.; Zhang, S.; Zhou, Y.; Xiao, X., 2016:
Reactive oxygen species-dependent JNK downregulated olaquindox-induced autophagy in HepG2 cells

Kondrikov, D.; Caldwell, R.B.; Dong, Z.; Su, Y., 2011:
Reactive oxygen species-dependent RhoA activation mediates collagen synthesis in hyperoxic lung fibrosis

Byun, J-Yun.; Kim, M-Jung.; Eum, D-Young.; Yoon, C-Hwan.; Seo, W-Duck.; Park, K.Hun.; Hyun, J-Won.; Lee, Y-Sil.; Lee, J-Seong.; Yoon, M-Young.; Lee, S-Jae., 2009:
Reactive oxygen species-dependent activation of Bax and poly(ADP-ribose) polymerase-1 is required for mitochondrial cell death induced by triterpenoid pristimerin in human cervical cancer cells

Xiao, D.; Zeng, Y.; Prakash, L.; Badmaev, V.; Majeed, M.; Singh, S.V., 2011:
Reactive oxygen species-dependent apoptosis by gugulipid extract of Ayurvedic medicine plant Commiphora mukul in human prostate cancer cells is regulated by c-Jun N-terminal kinase

Surachetpong, W.; Pakpour, N.; Cheung, K.Wai.; Luckhart, S., 2011:
Reactive oxygen species-dependent cell signaling regulates the mosquito immune response to Plasmodium falciparum

Kim, S-Jung.; Jung, H-Joo.; Lim, C-Jin., 2014:
Reactive oxygen species-dependent down-regulation of tumor suppressor genes PTEN, USP28, DRAM, TIGAR, and CYLD under oxidative stress

Song, K-J.; Jang, Y.S.; Lee, Y.A.; Kim, K.A.; Lee, S.K.; Shin, M.H., 2011:
Reactive oxygen species-dependent necroptosis in Jurkat T cells induced by pathogenic free-living Naegleria fowleri

Shen, S-Chuan.; Wu, M-Shun.; Lin, H-Yi.; Yang, L-Yo.; Chen, Y-Hsuan.; Chen, Y-Chou., 2014:
Reactive oxygen species-dependent nitric oxide production in reciprocal interactions of glioma and microglial cells

Weinberg, F.; Chandel, N.S., 2009:
Reactive oxygen species-dependent signaling regulates cancer

Suzuki, N.; Mittler, R., 2014:
Reactive oxygen species-dependent wound responses in animals and plants

Pucciariello, C.; Parlanti, S.; Banti, V.; Novi, G.; Perata, P., 2012 :
Reactive oxygen species-driven transcription in Arabidopsis under oxygen deprivation

Koshikawa, N.; Hayashi, J-Ichi.; Nakagawara, A.; Takenaga, K., 2010:
Reactive oxygen species-generating mitochondrial DNA mutation up-regulates hypoxia-inducible factor-1alpha gene transcription via phosphatidylinositol 3-kinase-Akt/protein kinase C/histone deacetylase pathway

van de Veerdonk, F.L.; Smeekens, S.P.; Joosten, L.A.B.; Kullberg, B.Jan.; Dinarello, C.A.; van der Meer, J.W.M.; Netea, M.G., 2010:
Reactive oxygen species-independent activation of the IL-1beta inflammasome in cells from patients with chronic granulomatous disease

Bernuzzi, F.; Recalcati, S.; Alberghini, A.; Cairo, G., 2009:
Reactive oxygen species-independent apoptosis in doxorubicin-treated H9c2 cardiomyocytes: role for heme oxygenase-1 down-modulation

Muniyappa, H.; Song, S.; Mathews, C.K.; Das, K.C., 2009:
Reactive oxygen species-independent oxidation of thioredoxin in hypoxia: inactivation of ribonucleotide reductase and redox-mediated checkpoint control

Sakai, J.; Li, J.; Subramanian, K.K.; Mondal, S.; Bajrami, B.; Hattori, H.; Jia, Y.; Dickinson, B.C.; Zhong, J.; Ye, K.; Chang, C.J.; Ho, Y-Shih.; Zhou, J.; Luo, H.R., 2013:
Reactive oxygen species-induced actin glutathionylation controls actin dynamics in neutrophils

Keshari, R.S.; Verma, A.; Barthwal, M.K.; Dikshit, M., 2013:
Reactive oxygen species-induced activation of ERK and p38 MAPK mediates PMA-induced NETs release from human neutrophils

Lu, Z.; Abe, J-ichi.; Taunton, J.; Lu, Y.; Shishido, T.; McClain, C.; Yan, C.; Xu, S.Ping.; Spangenberg, T.M.; Xu, H., 2008:
Reactive oxygen species-induced activation of p90 ribosomal S6 kinase prolongs cardiac repolarization through inhibiting outward K+ channel activity

Tsugawa, H.; Suzuki, H.; Saya, H.; Hatakeyama, M.; Hirayama, T.; Hirata, K.; Nagano, O.; Matsuzaki, J.; Hibi, T., 2013:
Reactive oxygen species-induced autophagic degradation of Helicobacter pylori CagA is specifically suppressed in cancer stem-like cells

Wang, C-Chun.; Fang, K-Min.; Yang, C-Shi.; Tzeng, S-Fen., 2009:
Reactive oxygen species-induced cell death of rat primary astrocytes through mitochondria-mediated mechanism

Guo, D.; Bi, H.; Liu, B.; Wu, Q.; Wang, D.; Cui, Y., 2013:
Reactive oxygen species-induced cytotoxic effects of zinc oxide nanoparticles in rat retinal ganglion cells

Yeh-Siang, L.; Subramaniam, G.; Hadi, A.Hamid.A.; Murugan, D.; Mustafa, M.Rais., 2011:
Reactive oxygen species-induced impairment of endothelium-dependent relaxations in rat aortic rings: protection by methanolic extracts of Phoebe grandis

Parsons, H.T.; Fry, S.C., 2010:
Reactive oxygen species-induced release of intracellular ascorbate in plant cell-suspension cultures and evidence for pulsing of net release rate

Lyng, F.M.; Howe, O.L.; McClean, B., 2011:
Reactive oxygen species-induced release of signalling factors in irradiated cells triggers membrane signalling and calcium influx in bystander cells

Lamberts, R.R.; Onderwater, G.; Hamdani, N.; Vreden, M.Jumoke.A.; Steenhuisen, J.; Eringa, E.C.; Loer, S.A.; Stienen, G.J.M.; Bouwman, R.Arthur., 2009:
Reactive oxygen species-induced stimulation of 5'AMP-activated protein kinase mediates sevoflurane-induced cardioprotection

Masloboeva, N.; Reutimann, L.; Stiefel, P.; Follador, R.; Leimer, N.; Hennecke, H.; Mesa, S.; Fischer, H-Martin., 2013:
Reactive oxygen species-inducible ECF σ factors of Bradyrhizobium japonicum

Delattin, N.; Cammue, B.P.A.; Thevissen, K., 2014:
Reactive oxygen species-inducing antifungal agents and their activity against fungal biofilms

Björkblom, B.; Maple-Grødem, J.; Puno, M.Rhyan.; Odell, M.; Larsen, J.Petter.; Møller, S.Geir., 2014:
Reactive oxygen species-mediated DJ-1 monomerization modulates intracellular trafficking involving karyopherin β2

Alarifi, S.; Ali, D.; Alakhtani, S.; Al Suhaibani, E.S.; Al-Qahtani, A.A., 2014:
Reactive oxygen species-mediated DNA damage and apoptosis in human skin epidermal cells after exposure to nickel nanoparticles

Ding, Y.; Winters, A.; Ding, M.; Graham, S.; Akopova, I.; Muallem, S.; Wang, Y.; Hong, J.Hee.; Gryczynski, Z.; Yang, S-Hua.; Birnbaumer, L.; Ma, R., 2011:
Reactive oxygen species-mediated TRPC6 protein activation in vascular myocytes, a mechanism for vasoconstrictor-regulated vascular tone

Hou, J.; Cui, A.; Song, P.; Hua, H.; Luo, T.; Jiang, Y., 2015:
Reactive oxygen species-mediated activation of the Src-epidermal growth factor receptor-Akt signaling cascade prevents bortezomib-induced apoptosis in hepatocellular carcinoma cells

Wang, Q.; Zheng, X-lian.; Yang, L.; Shi, F.; Gao, L-bo.; Zhong, Y-jia.; Sun, H.; He, F.; Lin, Y.; Wang, X., 2011:
Reactive oxygen species-mediated apoptosis contributes to chemosensitization effect of saikosaponins on cisplatin-induced cytotoxicity in cancer cells

Yoboue, E.D.; Devin, A., 2012:
Reactive oxygen species-mediated control of mitochondrial biogenesis

Lim, J-Hong.; Lee, Y-Mi.; Chun, Y-Sook.; Park, J-Wan., 2008:
Reactive oxygen species-mediated cyclin D1 degradation mediates tumor growth retardation in hypoxia, independently of p21cip1 and hypoxia-inducible factor

Scarpino, S.; Marchitti, S.; Stanzione, R.; Evangelista, A.; Di Castro, S.; Savoia, C.; Quarta, G.; Sciarretta, S.; Ruco, L.; Volpe, M.; Rubattu, S., 2009:
Reactive oxygen species-mediated effects on vascular remodeling induced by human atrial natriuretic peptide T2238C molecular variant in endothelial cells in vitro

Quan, Z.; Gu, J.; Dong, P.; Lu, J.; Wu, X.; Wu, W.; Fei, X.; Li, S.; Wang, Y.; Wang, J.; Liu, Y., 2010:
Reactive oxygen species-mediated endoplasmic reticulum stress and mitochondrial dysfunction contribute to cirsimaritin-induced apoptosis in human gallbladder carcinoma GBC-SD cells

Liu, H.; Zhao, S.; Zhang, Y.; Wu, J.; Peng, H.; Fan, J.; Liao, J., 2012:
Reactive oxygen species-mediated endoplasmic reticulum stress and mitochondrial dysfunction contribute to polydatin-induced apoptosis in human nasopharyngeal carcinoma CNE cells

Ding, W.; Yang, L.; Zhang, M.; Gu, Y., 2012:
Reactive oxygen species-mediated endoplasmic reticulum stress contributes to aldosterone-induced apoptosis in tubular epithelial cells

Diaz-Albiter, H.; Sant'Anna, M.R.V.; Genta, F.A.; Dillon, R.J., 2012:
Reactive oxygen species-mediated immunity against Leishmania mexicana and Serratia marcescens in the sand phlebotomine fly Lutzomyia longipalpis

Kavian, N.; Marut, W.; Servettaz, Aélie.; Nicco, C.; Chéreau, C.; Lemaréchal, Hé.; Borderie, D.; Dupin, N.; Weill, B.; Batteux, Fédéric., 2013:
Reactive oxygen species-mediated killing of activated fibroblasts by arsenic trioxide ameliorates fibrosis in a murine model of systemic sclerosis

Lee, W.Y.W.; Liu, K.W.K.; Yeung, J.H.K., 2009:
Reactive oxygen species-mediated kinase activation by dihydrotanshinone in tanshinones-induced apoptosis in HepG2 cells

Liu, H.; Peng, H.; Ji, Z.; Zhao, S.; Zhang, Y.; Wu, J.; Fan, J.; Liao, J., 2012:
Reactive oxygen species-mediated mitochondrial dysfunction is involved in apoptosis in human nasopharyngeal carcinoma CNE cells induced by Selaginella doederleinii extract

Yang, L.; Zhu, L.; Dong, W.; Cao, Y.; Lin, L.; Rong, Z.; Zhang, Z.; Wu, G., 2013:
Reactive oxygen species-mediated mitochondrial dysfunction plays a critical role in high glucose-induced nucleus pulposus cell injury

Azad, N.; Iyer, A.Krishnan.V.; Wang, L.; Liu, Y.; Lu, Y.; Rojanasakul, Y., 2013:
Reactive oxygen species-mediated p38 MAPK regulates carbon nanotube-induced fibrogenic and angiogenic responses

Gogna, R.; Madan, E.; Kuppusamy, P.; Pati, U., 2012:
Reactive oxygen species-mediated p53 core-domain modifications determine apoptotic or necrotic death in cancer cells

Chevtzoff, C.; Yoboue, E.D.; Galinier, A.; Casteilla, L.; Daignan-Fornier, B.; Rigoulet, M.; Devin, A., 2010:
Reactive oxygen species-mediated regulation of mitochondrial biogenesis in the yeast Saccharomyces cerevisiae

Yang, Z.; Qiang, L.; Wu, T.; Chen, F-Hong.; Yang, H-Ying.; Zhao, Q.; Zou, M-Juan.; Sun, Y-Jing.; Li, Z-Yu.; Guo, Q-Long., 2012:
Reactive oxygen species-mitochondria pathway involved in FV-429-induced apoptosis in human hepatocellular carcinoma HepG2 cells

Chen, F-Hong.; Zhang, L-Bo.; Qiang, L.; Yang, Z.; Wu, T.; Zou, M-Juan.; Tao, L.; You, Q-Dong.; Li, Z-Yu.; Yang, Y.; Guo, Q-Long., 2010:
Reactive oxygen species-mitochondria pathway involved in LYG-202-induced apoptosis in human hepatocellular carcinoma HepG(2) cells

Omatsu, T.; Naito, Y.; Handa, O.; Mizushima, K.; Hayashi, N.; Qin, Y.; Harusato, A.; Hirata, I.; Kishimoto, E.; Okada, H.; Uchiyama, K.; Ishikawa, T.; Takagi, T.; Yagi, N.; Kokura, S.; Ichikawa, H.; Yoshikawa, T., 2010:
Reactive oxygen species-quenching and anti-apoptotic effect of polaprezinc on indomethacin-induced small intestinal epithelial cell injury

Fike, C.D.; Dikalova, A.; Slaughter, J.C.; Kaplowitz, M.R.; Zhang, Y.; Aschner, J.L., 2013:
Reactive oxygen species-reducing strategies improve pulmonary arterial responses to nitric oxide in piglets with chronic hypoxia-induced pulmonary hypertension

Wang, C-Yun.; Yang, T-Tzu.; Chen, C-Ling.; Lin, W-Chieh.; Lin, C-Feng., 2014:
Reactive oxygen species-regulated glycogen synthase kinase-3β activation contributes to all-trans retinoic acid-induced apoptosis in granulocyte-differentiated HL60 cells

Wu, H.; Yin, J-Jie.; Wamer, W.G.; Zeng, M.; Lo, Y.Martin., 2014:
Reactive oxygen species-related activities of nano-iron metal and nano-iron oxides

Wang, M.; Sun, S.; Neufeld, C.I.; Perez-Ramirez, B.; Xu, Q., 2015:
Reactive oxygen species-responsive protein modification and its intracellular delivery for targeted cancer therapy

Yoshitomi, T.; Nagasaki, Y., 2015:
Reactive oxygen species-scavenging nanomedicines for the treatment of oxidative stress injuries

Sovari, A.A.; Dudley, S.C., 2012:
Reactive oxygen species-targeted therapeutic interventions for atrial fibrillation

Xu, X.; Liu, T.; Zhang, A.; Huo, X.; Luo, Q.; Chen, Z.; Yu, L.; Li, Q.; Liu, L.; Lun, Z-rong.; Shen, J., 2012:
Reactive oxygen species-triggered trophoblast apoptosis is initiated by endoplasmic reticulum stress via activation of caspase-12, CHOP, and the JNK pathway in Toxoplasma gondii infection in mice

Kim, J.; Seok, Y.Mi.; Jung, K-Jin.; Park, K.Moo., 2009:
Reactive oxygen species/oxidative stress contributes to progression of kidney fibrosis following transient ischemic injury in mice

Hernández-García, D.; Wood, C.D.; Castro-Obregón, S.; Covarrubias, L., 2011:
Reactive oxygen species: A radical role in development?

Pan, J-Shui.; Hong, M-Zhu.; Ren, J-Lin., 2009:
Reactive oxygen species: a double-edged sword in oncogenesis

Fruehauf, J.P.; Trapp, V., 2008:
Reactive oxygen species: an Achilles' heel of melanoma?

Sardina, Jé.L.; López-Ruano, G.; Sánchez-Sánchez, B.; Llanillo, M.; Hernández-Hernández, A., 2012:
Reactive oxygen species: are they important for haematopoiesis?

Bartosz, G., 2009:
Reactive oxygen species: destroyers or messengers?

Morrell, C.N., 2008:
Reactive oxygen species: finding the right balance

Retta, S.Francesco.; Chiarugi, P.; Trabalzini, L.; Pinton, P.; Belkin, A.M., 2012:
Reactive oxygen species: friends and foes of signal transduction

Brieger, K.; Schiavone, S.; Miller, F.J.; Krause, K-H., 2013:
Reactive oxygen species: from health to disease

Powers, S.K.; Ji, L.Li.; Kavazis, A.N.; Jackson, M.J., 2013:
Reactive oxygen species: impact on skeletal muscle

Vara, D.; Pula, G., 2015:
Reactive oxygen species: physiological roles in the regulation of vascular cells

Schmitt, F-Josef.; Renger, G.; Friedrich, T.; Kreslavski, V.D.; Zharmukhamedov, S.K.; Los, D.A.; Kuznetsov, V.V.; Allakhverdiev, S.I., 2014:
Reactive oxygen species: re-evaluation of generation, monitoring and role in stress-signaling in phototrophic organisms

Patten, D.A.; Germain, M.; Kelly, M.A.; Slack, R.S., 2010:
Reactive oxygen species: stuck in the middle of neurodegeneration

Li, D.; Xie, G.; Wang, W., 2013:
Reactive oxygen species: the 2-edged sword of osteoarthritis

Cui, X., 2012:
Reactive oxygen species: the achilles' heel of cancer cells?

Ji, P-Feng.; Yao, C-Luan.; Wang, Z-Yong., 2011:
Reactive oxygen system plays an important role in shrimp Litopenaeus vannamei defense against Vibrio parahaemolyticus and WSSV infection

Shi, Y.; Vanhoutte, P.Michel., 2011:
Reactive oxygen-derived free radicals are key to the endothelial dysfunction of diabetes

de Lamirande, E.; Lamothe, Gève., 2009:
Reactive oxygen-induced reactive oxygen formation during human sperm capacitation

Kuster, G.M.; Häuselmann, Séphanie.P.; Rosc-Schlüter, B.I.; Lorenz, V.; Pfister, O., 2011:
Reactive oxygen/nitrogen species and the myocardial cell homeostasis: an ambiguous relationship

Reid, S.A.; Nyambo, S.; Kalume, A.; Uhler, B.; Karshenas, C.; Muzangwa, L., 2013:
Reactive pathways in the chlorobenzene-ammonia dimer cation radical: new insights from experiment and theory

Swanson, J.W.; Colombani, P.M., 2008:
Reactive pectus carinatum in patients treated for pectus excavatum

Salhi, A.; Heid, E.; Grosshans, E.; Cribier, B., 2012:
Reactive perforating collagenosis

Suzuki, Y.; Yamamoto, T., 2012:
Reactive perforating collagenosis during erlotinib therapy

Bansal, M.; Manchanda, K.; Kumar, A., 2014:
Reactive perforating collagenosis in two siblings

Bhatt, A.D.; Joshi, A.; Jain, J.; Gupta, O., 2011:
Reactive perforating collagenosis masquerading as rheumatoid arthritis

Ghorpade, A.Krishnarao., 2012:
Reactive perforating collagenosis with a giant lesion at the site of healed herpes zoster

Ghorpade, A., 2014:
Reactive perforating leprosy: pustular erythema nodosum leprosum with epidermal perforation and liberation of Mycobacterium leprae

Blázquez Cañamero, Mía.Ángeles.; Sifuentes Giraldo, W.Alberto.; Bachiller Corral, J., 2016:
Reactive periostitis of the hand

al Housari, F.; Vione, D.; Chiron, S.; Barbati, Séphane., 2010:
Reactive photoinduced species in estuarine waters. Characterization of hydroxyl radical, singlet oxygen and dissolved organic matter triplet state in natural oxidation processes

Li, X.; Peng, L.; Cui, J.; Li, W.; Lin, C.; Xu, D.; Tian, T.; Zhang, G.; Zhang, D.; Li, G., 2012:
Reactive photonic film for label-free and selective sensing of cyanide

Mills, N.J.W.; Wong, S.Choong.; Sabin, M.A.; Hewitt, J.K., 2013:
Reactive pituitary hyperplasia associated with paediatric primary hypothyroidism

Smith, B.N., 2012:
Reactive plasticity with a kainate receptor twist: rhythmic firing in granule cells breaks down the gate?

Shen, Y.; Zhao, L.; Qi, L.; Qiao, J.; Mao, L.; Chen, Y., 2013:
Reactive polymer as a versatile toolbox for construction of multifunctional superparamagnetic nanocomposites

Wu, J-Ting.; Huang, C-Hui.; Liang, W-Chieh.; Wu, Y-Lin.; Yu, J.; Chen, H-Yeh., 2012:
Reactive polymer coatings: a general route to thiol-ene and thiol-yne click reactions

Devaraj, N.K.; Thurber, G.M.; Keliher, E.J.; Marinelli, B.; Weissleder, R., 2012:
Reactive polymer enables efficient in vivo bioorthogonal chemistry

Bechler, S.L.; Lynn, D.M., 2012:
Reactive polymer multilayers fabricated by covalent layer-by-layer assembly: 1,4-conjugate addition-based approaches to the design of functional biointerfaces

Ulbrich, K.; Laga, R.; Subr, V., 2007:
Reactive polymers for modification of biologically active molecules and gene delivery vectors

Verdejo, R.; Jell, G.; Safinia, L.; Bismarck, A.; Stevens, M.M.; Shaffer, M.S.P., 2008:
Reactive polyurethane carbon nanotube foams and their interactions with osteoblasts

Agrawal, N.; Siddani, P.S.V., 2012:
Reactive positioning of pathologically migrated tooth following non-surgical periodontal therapy

Mariano, F.Viviane.; Gondak, Rério.Oliveira.; Santos-Silva, A.Roger.; Corrêa, M.Brum.; Almeida, O.Paes.de.; Lopes, Márcio.Ajudarte., 2014:
Reactive post-radiotherapy bone formation in the maxilla

Lin, Y-Hui.; Tang, P-Fang.; Wang, Y-Hung.; Eng, J.J.; Lin, K-Chung.; Lu, L.; Jeng, J-Shing.; Chen, S-Ching., 2014:
Reactive postural control deficits in patients with posterior parietal cortex lesions after stroke and the influence of auditory cueing

Seshadri, S.R., 2009:
Reactive power in the full Gaussian light wave

Maity, D.; Kumar, V.; Govindaraju, T., 2013:
Reactive probes for ratiometric detection of Co2+ and Cu+ based on excited-state intramolecular proton transfer mechanism

Aguilar, J.; Lucas, J.M.; de Andrés, J.; Albertí, M.; Bassi, D.; Aguilar, A., 2011:
Reactive processes in gas phase Na(+)-iso-C3H7Cl collisions: experimental guided-ion-beam and ab initio studies of the reactions on the ground singlet potential surface of the system up to 12.00 eV

Yasuda, M.; Okada, E.; Nagai, Y.; Tamura, A.; Ishikawa, O., 2010:
Reactive proliferation of endothelial cells and pericytes associated with arteriovenous malformation

Di Naro, N.; Puliga, G.; Olla, L.; Tolu, G.A., 2012:
Reactive pseudo-glandular mesothelial hyperplasia in testis tunica vaginalis: a case report

Sáez-Rodríguez, M.; Rodríguez-Martín, M.; Carnerero-Rodríguez, A.; Sidro-Sarto, M.; Pérez-Robayna, N.; García-Bustínduy, M.; Herrera, A.Martín.; Cabrera, A.Noda., 2008:
Reactive pseudotumoural papular mucinosis: a new clinicopathological presentation?

Agostoni, P.; Sciomer, S.; Farina, S., 2015:
Reactive pulmonary hypertension in heart failure is another disease identified by cardiopulmonary exercise test

Batista, C.; Carneiro, J.; Ribeiro, R.M.; Teixeira, V., 2012:
Reactive pulsed-DC sputtered Nb-doped VO2 coatings for smart thermochromic windows with active solar control

Lehman, J.H.; Bertrand, J.L.; Stephenson, T.A.; Lester, M.I., 2011:
Reactive quenching of OD A 2Σ+ by H2: translational energy distributions for H- and D-atom product channels

Lehman, J.H.; Lester, M.I.; Yarkony, D.R., 2012:
Reactive quenching of OH A 2Σ+ by O2 and CO: experimental and nonadiabatic theoretical studies of H- and O-atom product channels

Suárez-Pellicioni, M.; Núñez-Peña, Mía.Isabel.; Colomé, Àngels., 2015:
Reactive recruitment of attentional control in math anxiety: an ERP study of numeric conflict monitoring and adaptation

Kumar, V.; S, A.; Thomas, C.Mary., 2009:
Reactive repositioning of pathologically migrated teeth following periodontal therapy

Molloy, S., 2011:
Reactive resistance

von Horsten, H.Frank.; Clary, D.C., 2011:
Reactive resonances in the F + CHD3 reaction--a quantum dynamics study

Ling, C.; Yamashita, M.; Zhang, J.; Bless, D.M.; Welham, N.V., 2011:
Reactive response of fibrocytes to vocal fold mucosal injury in rat

Shields, J.A.; Shields, C.L., 2013:
Reactive retinal astrocytic tumors (so-called vasoproliferative tumors): histopathologic, immunohistochemical, and genetic studies of four cases

Fischer, A.J.; Zelinka, C.; Milani-Nejad, N., 2015:
Reactive retinal microglia, neuronal survival, and the formation of retinal folds and detachments

Kozlov, M.; Nudler, E.; Nikiforov, V.; Mustaev, A., 2013:
Reactive rifampicin derivative able to damage transcription complex

Charmoy, A.; Würzner, Gégoire.; Ruffieux, C.; Hasler, C.; Cachat, Fçois.; Waeber, B.; Burnier, M., 2007:
Reactive rise in blood pressure upon cuff inflation: cuff inflation at the arm causes a greater rise in pressure than at the wrist in hypertensive patients

Eyles, C.J.; Leibscher, M., 2013:
Reactive scattering dynamics of rotational wavepackets: a case study using the model H+H2 and F+H2 reactions with aligned and anti-aligned H2

Wang, D.; Jaquet, R., 2013:
Reactive scattering for different isotopologues of the H3(-) system: comparison of different potential energy surfaces

Sementa, L.; Wijzenbroek, M.; van Kolck, B.J.; Somers, M.F.; Al-Halabi, A.; Busnengo, H.F.; Olsen, R.A.; Kroes, G.J.; Rutkowski, M.; Thewes, C.; Kleimeier, N.F.; Zacharias, H., 2013:
Reactive scattering of H2 from Cu(100): comparison of dynamics calculations based on the specific reaction parameter approach to density functional theory with experiment

Wrede, E.; Schnieder, L.; Seekamp-Schnieder, K.; Niederjohann, B.; Welge, K.H., 2005:
Reactive scattering of rydberg atoms: H* + D2 --> HD + D*

Kuppermann, A., 2009:
Reactive scattering with row-orthonormal hyperspherical coordinates. 3. Hamiltonian and transformation properties for pentaatomic systems

Kuppermann, A., 2011:
Reactive scattering with row-orthonormal hyperspherical coordinates. 4. Four-dimensional-space Wigner rotation function for pentaatomic systems

Voges, N.; Chaffiol, A.; Lucas, P.; Martinez, D., 2015:
Reactive searching and infotaxis in odor source localization

Baker, K.A.; Karp, J.H.; Tremblay, E.J.; Hallas, J.M.; Ford, J.E., 2012:
Reactive self-tracking solar concentrators: concept, design, and initial materials characterization

Jennings, T.L.; Becker-Catania, S.G.; Triulzi, R.C.; Tao, G.; Scott, B.; Sapsford, K.E.; Spindel, S.; Oh, E.; Jain, V.; Delehanty, J.B.; Prasuhn, D.E.; Boeneman, K.; Algar, W.Russ.; Medintz, I.L., 2011:
Reactive semiconductor nanocrystals for chemoselective biolabeling and multiplexed analysis

Smaldone, R.A.; Moore, J.S., 2008:
Reactive sieving with foldamers: inspiration from nature and directions for the future

Walker, S.Brett.; Lewis, J.A., 2012:
Reactive silver inks for patterning high-conductivity features at mild temperatures

Kagan, M.; Lockwood, G.K.; Garofalini, S.H., 2014:
Reactive simulations of the activation barrier to dissolution of amorphous silica in water

Eren, M.; Gleaves, L.A.; Atkinson, J.B.; King, L.E.; Declerck, P.J.; Vaughan, D.E., 2007:
Reactive site-dependent phenotypic alterations in plasminogen activator inhibitor-1 transgenic mice

Wang, Q.; Wang, H.; Wei, L.; Yang, S-Wang.; Chen, Y., 2012:
Reactive sites for chiral selective growth of single-walled carbon nanotubes: a DFT study of Ni55-C(n) complexes

Sun, Z.; Zhou, Q.; Fan, L-Shih., 2012:
Reactive solid surface morphology variation via ionic diffusion

Tang, R.; Li, Q.; Ding, L.; Cui, H.; Zhai, J., 2012:
Reactive sorption of mercury(II) on to poly(m-phenylenediamine) microparticles

Lonkar, P.; Dedon, P.C., 2011:
Reactive species and DNA damage in chronic inflammation: reconciling chemical mechanisms and biological fates

Pérez-Matute, P.; Zulet, M.Angeles.; Martínez, J.Alfredo., 2010:
Reactive species and diabetes: counteracting oxidative stress to improve health

Roede, J.R.; Jones, D.P., 2010:
Reactive species and mitochondrial dysfunction: mechanistic significance of 4-hydroxynonenal

O'Hare Doig, R.L.; Bartlett, C.A.; Maghzal, G.J.; Lam, M.; Archer, M.; Stocker, R.; Fitzgerald, M., 2014:
Reactive species and oxidative stress in optic nerve vulnerable to secondary degeneration

Iles, K.E.; Song, W.; Miller, D.W.; Dickinson, D.A.; Matalon, S., 2010:
Reactive species and pulmonary edema

Fridlyand, L.E.; Philipson, L.H., 2008:
Reactive species, cellular repair and risk factors in the onset of type 2 diabetes mellitus: review and hypothesis

Goetz, M.E.; Luch, A., 2008:
Reactive species: a cell damaging rout assisting to chemical carcinogens

Ayitou, A.Jean-Luc.; Sivaguru, J., 2011:
Reactive spin state dependent enantiospecific photocyclization of axially chiral α-substituted acrylanilides

Aita, C.Rubin., 2008:
Reactive sputter deposition of metal oxide nanolaminates

Bürgi, J.; Neuenschwander, R.; Kellermann, G.; García Molleja, J.; Craievich, A.F.; Feugeas, J., 2013:
Reactive sputter magnetron reactor for preparation of thin films and simultaneous in situ structural study by X-ray diffraction

Carty, C.P.; Cronin, N.J.; Nicholson, D.; Lichtwark, G.A.; Mills, P.M.; Kerr, G.; Cresswell, A.G.; Barrett, R.S., 2015:
Reactive stepping behaviour in response to forward loss of balance predicts future falls in community-dwelling older adults

Andradóttir, Sún.; Chiu, W.; Goldsman, D.; Lee, M.Lim.; Tsui, K-Leung.; Sander, B.; Fisman, D.N.; Nizam, A., 2012:
Reactive strategies for containing developing outbreaks of pandemic influenza

Bertoni-Freddari, C.; Fattoretti, P.; Casoli, T.; Di Stefano, G.; Solazzi, M.; Perna, E.; De Angelis, C., 2007:
Reactive structural dynamics of synaptic mitochondria in ischemic delayed neuronal death

Brannan, R.G., 2010:
Reactive sulfur species act as prooxidants in liposomal and skeletal muscle model systems

Lemma, K.; Ashby, M.T., 2008:
Reactive sulfur species: kinetics and mechanism of the equilibrium between cysteine sulfenyl thiocyanate and cysteine thiosulfinate ester in acidic aqueous solution

Ueki, H.; Chapman, G.; Ashby, M.T., 2009:
Reactive sulfur species: kinetics and mechanism of the oxidation of aryl sulfinates with hypochlorous acid

Lemma, K.; Ashby, M.T., 2009:
Reactive sulfur species: kinetics and mechanism of the reaction of hypothiocyanous acid with cyanide to give dicyanosulfide in aqueous solution

Wang, X.; Ashby, M.T., 2008:
Reactive sulfur species: kinetics and mechanism of the reaction of thiocarbamate-S-oxide with cysteine

Nagy, Péter.; Ashby, M.T., 2007:
Reactive sulfur species: kinetics and mechanisms of the oxidation of cysteine by hypohalous acid to give cysteine sulfenic acid

Sugiyama, J.; Mukai, K.; Harada, M.; Nozaki, H.; Miwa, K.; Shiotsuki, T.; Shindo, Y.; Giblin, S.R.; Lord, J.S., 2013:
Reactive surface area of the Li(x)(Co(1/3)Ni(1/3)Mn(1/3))O2 electrode determined by μ(+)SR and electrochemical measurements

Kessler, D.; Roth, P.J.; Theato, P., 2009:
Reactive surface coatings based on polysilsesquioxanes: controlled functionalization for specific protein immobilization

Kessler, D.; Theato, P., 2009:
Reactive surface coatings based on polysilsesquioxanes: defined adjustment of surface wettability

Kessler, D.; Jochum, F.D.; Choi, J.; Char, K.; Theato, P., 2011:
Reactive surface coatings based on polysilsesquioxanes: universal method toward light-responsive surfaces

Peacock, A.; Say, J.; Lawrence, T., 2008:
Reactive synovitis following hip resurfacing: a case presentation

Zhang, J.; Liu, X.; Zhang, L.; Cao, B.; Wu, S., 2013:
Reactive template synthesis of polypyrrole nanotubes for fabricating metal/conducting polymer nanocomposites

Liang, Y.; Fu, R.; Wu, D., 2013:
Reactive template-induced self-assembly to ordered mesoporous polymeric and carbonaceous materials

Murray, B.S.; Jackson, A.W.; Mahon, C.S.; Fulton, D.A., 2011:
Reactive thermoresponsive copolymer scaffolds

Beyan, C.; Kaptan, Kürşat., 2014:
Reactive thrombocytosis accompanying subclinical hypothyroidism due to Hashimoto's thyroiditis

Ho, K.M.; Yip, C.B.; Duff, O., 2013:
Reactive thrombocytosis and risk of subsequent venous thromboembolism: a cohort study

Samra, T.; Pawar, M., 2012:
Reactive thrombocytosis in H1N1 infection

Özcan, C.; Şaylı, Tülin.Revide.; Koşan-Çulha, V., 2014:
Reactive thrombocytosis in children

Haidopoulou, K.; Goutaki, M.; Lemonaki, M.; Kavga, M.; Papa, A., 2012:
Reactive thrombocytosis in children with viral respiratory tract infections

Fouzas, S.; Mantagou, L.; Skylogianni, E.; Varvarigou, A., 2011:
Reactive thrombocytosis in febrile young infants with serious bacterial infection

Aundhakar, S.C.; Mahajan, S.K.; Mane, M.B.; Lakhotiya, A.N., 2014:
Reactive thrombocytosis leading to acute myocardial infarction

Bano, Z.; Ahsan, T., 2009:
Reactive thrombocytosis with digital gangrene

Pérez Ferrer, A.; Gredilla Díaz, E.; de Vicente Sánchez, J.; Laporta Báez, Y., 2010:
Reactive thrombocytosis: on the importance of hemostasis monitoring

Tian, L.; Cai, P-Qiang.; Cui, C-Yan.; Mo, Y-Xian.; Gong, X.; Fan, W., 2016:
Reactive thymic hyperplasia following chemotherapy for children with lymphoma: computed tomography may be able to provide valuable information to avoid over-treatment

Zhang, C.; Chaudhary, N.; Gemmete, J.J.; Thompson, B.Gregory.; Xi, G.; Pandey, A.S., 2015:
Reactive tissue proliferation and damage of elastic lamina caused by hydrogel coated coils in experimental rat aneurysms

Hosokai, R.; Imai, C.; Takachi, T.; Yoshida, S.; Iwabuchi, H.; Imamura, M.; Uchiyama, M., 2011:
Reactive tonsillar enlargement with strong 18F-FDG uptake after chemotherapy for tonsillar diffuse large B-cell lymphoma

Kunkel, U.; Radke, M., 2011:
Reactive tracer test to evaluate the fate of pharmaceuticals in rivers

Varloteaux, Cément.; Vu, M.Tan.; Békri, S.; Adler, P.M., 2013:
Reactive transport in porous media: pore-network model approach compared to pore-scale model

Jamieson-Hanes, J.H.; Amos, R.T.; Blowes, D.W., 2013:
Reactive transport modeling of chromium isotope fractionation during Cr(VI) reduction

Bonte, M.; Stuyfzand, P.J.; Breukelen, B.M.van., 2016:
Reactive transport modeling of thermal column experiments to investigate the impacts of aquifer thermal energy storage on groundwater quality

Yin, J.; Jeen, S-Wook.; Lee, D.R.; Mayer, K.Ulrich., 2015:
Reactive transport modeling of ⁹⁰Sr sorption in reactive sandpacks

Giménez, J.; de Pablo, J.; Martínez, M.; Rovira, M.; Valderrama, César., 2010:
Reactive transport of arsenic(III) and arsenic(V) on natural hematite: experimental and modeling

Engelhardt, I.; Prommer, H.; Schulz, M.; Vanderborght, J.; Schüth, C.; Ternes, T.A., 2015:
Reactive transport of iomeprol during stream-groundwater interactions

Ustinov, A.V.; Shmanai, V.V.; Patel, K.; Stepanova, I.A.; Prokhorenko, I.A.; Astakhova, I.V.; Malakhov, A.D.; Skorobogatyi, M.V.; Bernad, P.L.; Khan, S.; Shahgholi, M.; Southern, E.M.; Korshun, V.A.; Shchepinov, M.S., 2008:
Reactive trityl derivatives: stabilised carbocation mass-tags for life sciences applications

Wang, C.; Chu, P.; Duggan, M.A., 2013:
Reactive tubal epithelium mimicking Mullerian serous carcinoma: pitfalls in the evaluation of pelvic wash specimens

Yao, K.; Fu, Y.; Shi, L.; Wan, W.; You, X.; Yu, F., 2007:
Reactive two-dimensional layered material with regular chlorine groups

Nguyen, T.B.; Coggon, M.M.; Flagan, R.C.; Seinfeld, J.H., 2014:
Reactive uptake and photo-Fenton oxidation of glycolaldehyde in aerosol liquid water

Xiao, S.; Bertram, A.K., 2011:
Reactive uptake kinetics of NO3 on multicomponent and multiphase organic mixtures containing unsaturated and saturated organics

El Zein, A.; Bedjanian, Y., 2012:
Reactive uptake of HONO to TiO2 surface: "dark" reaction

Griffiths, P.T.; Badger, C.L.; Cox, R.Anthony.; Folkers, M.; Henk, H.H.; Mentel, T.F., 2009:
Reactive uptake of N2O5 by aerosols containing dicarboxylic acids. Effect of particle phase, composition, and nitrate content

Cosman, L.M.; Bertram, A.K., 2008:
Reactive uptake of N2O5 on aqueous H2SO4 solutions coated with 1-component and 2-component monolayers

Zhao, Z.; Husainy, S.; Stoudemayer, C.T.; Smith, G.D., 2012:
Reactive uptake of NO3 radicals by unsaturated fatty acid particles

Gross, S.; Bertram, A.K., 2008:
Reactive uptake of NO3, N2O5, NO2, HNO3, and O3 on three types of polycyclic aromatic hydrocarbon surfaces

Prince, A.Preszler.; Kleiber, P.D.; Grassian, V.H.; Young, M.A., 2007:
Reactive uptake of acetic acid on calcite and nitric acid reacted calcite aerosol in an environmental reaction chamber

Gaston, C.J.; Riedel, T.P.; Zhang, Z.; Gold, A.; Surratt, J.D.; Thornton, J.A., 2015:
Reactive uptake of an isoprene-derived epoxydiol to submicron aerosol particles

Lloyd, J.A.; Heaton, K.J.; Johnston, M.V., 2009:
Reactive uptake of trimethylamine into ammonium nitrate particles

Gross, S.; Iannone, R.; Xiao, S.; Bertram, A.K., 2009:
Reactive uptake studies of NO3 and N2O5 on alkenoic acid, alkanoate, and polyalcohol substrates to probe nighttime aerosol chemistry

Alberti, K.P.; King, L.A.; Burny, M-Eve.; Ilunga, B.Kebela.; Grais, R.F., 2010:
Reactive vaccination as an effective tool for measles outbreak control in measles mortality reduction settings, Democratic Republic of Congo, 2005-2006

Azman, A.S.; Lessler, J., 2015:
Reactive vaccination in the presence of disease hotspots

Hong, S-Kwon.; Lee, H-Jae.; Seo, J-Keun.; Lee, D.; Hwang, S-Wook.; Sung, H-Suk., 2010:
Reactive vascular lesions treated using ethanolamine oleate sclerotherapy

Osborne, C.A.; Ulrich, L.K.; Nwaokorie, E.E., 2013:
Reactive versus empathic listening: what is the difference?

Sloan, C.D.; Gebretsadik, T.; Wu, P.; Mitchel, E.F.; Hartert, T.V., 2013:
Reactive versus proactive patterns of inhaled corticosteroid use

Cho, C.; Valverde, L.; Ozin, G.A.; Zacharia, N.S., 2010:
Reactive wet stamping for patterning of polyelectrolyte multilayers

Yin, L.; Murray, B.T.; Su, S.; Sun, Y.; Efraim, Y.; Taitelbaum, H.; Singler, T.J., 2009:
Reactive wetting in metal-metal systems

Satyanarayan; Prabhu, K.N., 2011:
Reactive wetting, evolution of interfacial and bulk IMCs and their effect on mechanical properties of eutectic Sn-Cu solder alloy

Spruell, J.M.; Wolffs, M.; Leibfarth, F.A.; Stahl, B.C.; Heo, J.; Connal, L.A.; Hu, J.; Hawker, C.J., 2012:
Reactive, multifunctional polymer films through thermal cross-linking of orthogonal click groups

Afanas'ev, V.V.; Striuk, R.I.; Arutiunian, S.E.; Eliseeva, L.V.; Bychkov, R.A., 2011:
Reactive-dystrophic processes in salivary glands (sialoadenoses) running on the background of metabolic syndrome

Peng, I.X.; Ogorzalek Loo, R.R.; Shiea, J.; Loo, J.A., 2008:
Reactive-electrospray-assisted laser desorption/ionization for characterization of peptides and proteins

Zilberberg, L.; Asscher, M., 2012:
Reactive-layer-assisted deposition mechanism and characterization of titanium oxide films

Liu, T-Tong.; Liu, Y-Jun.; Wang, Q.; Yang, X-Gai.; Wang, K., 2012:
Reactive-oxygen-species-mediated Cdc25C degradation results in differential antiproliferative activities of vanadate, tungstate, and molybdate in the PC-3 human prostate cancer cell line

Cifani, N.; Pompili, B.; Anile, M.; Patella, M.; Diso, D.; Venuta, F.; Cimino, G.; Quattrucci, S.; Di Domenico, E.Gino.; Ascenzioni, F.; Del Porto, P., 2014:
Reactive-oxygen-species-mediated P. aeruginosa killing is functional in human cystic fibrosis macrophages

Lim, N.H.; Kashiwagi, M.; Visse, R.; Jones, J.; Enghild, J.J.; Brew, K.; Nagase, H., 2010:
Reactive-site mutants of N-TIMP-3 that selectively inhibit ADAMTS-4 and ADAMTS-5: biological and structural implications

Zhang, J.; Guo, J.; Xu, H.; Cao, B., 2014:
Reactive-template fabrication of porous SnO2 nanotubes and their remarkable gas-sensing performance

Heitmann, W., 1973:
Reactively evaporated films of scandia and yttria

Hull, C.L., 2011:
Reactively heterogeneous compound trial-and-error learning with distributed trials and terminal reinforcement

Gladstone, A.I., 1948:
Reactively homogeneous compound trial and error learning with distributed trials and serial reinforcement

Sprow, A.J., 2011:
Reactively homogeneous compound trial-and-error learning with distributed trials and terminal reinforcement

Xu, L.; Porter, N.A., 2015:
Reactivities and products of free radical oxidation of cholestadienols

Chakraborty, S.; Bardelli, F.; Charlet, L., 2010:
Reactivities of Fe(II) on calcite: selenium reduction

Fiedler, A.T.; Que, L., 2010:
Reactivities of Fe(IV) complexes with oxo, hydroxo, and alkylperoxo ligands: an experimental and computational study

Chan, B.; O'Reilly, R.J.; Easton, C.J.; Radom, L., 2013:
Reactivities of amino acid derivatives toward hydrogen abstraction by Cl• and OH•

Cho, H.Mo.; Lim, Y.Mook.; Lee, M.Euy., 2011:
Reactivities of chlorotrisylsilylenoid with ketones

Voudrias, E.A.; Reinhard, M., 1988:
Reactivities of hypochlorous and hypobromous acid, chlorine monoxide, hypobromous acidium ion, chlorine, bromine, and bromine chloride in electrophilic aromatic substitution reactions with p-xylene in water

Watanabe, Y.; Nakajima, H.; Ueno, T., 2007:
Reactivities of oxo and peroxo intermediates studied by hemoprotein mutants

Rosselin, M.; Choteau, F.; Zéamari, K.; Nash, K.M.; Das, A.; Lauricella, R.; Lojou, E.; Tuccio, Béatrice.; Villamena, F.A.; Durand, Gégory., 2014:
Reactivities of substituted α-phenyl-N-tert-butyl nitrones

Kim, S-U.; Villamena, F.A., 2012:
Reactivities of superoxide and hydroperoxyl radicals with disubstituted cyclic nitrones: a DFT study

Fokin, A.A.; Tkachenko, B.A.; Fokina, N.A.; Hausmann, H.; Serafin, M.; Dahl, J.E.P.; Carlson, R.M.K.; Schreiner, P.R., 2009:
Reactivities of the prism-shaped diamondoids [1(2)3]tetramantane and [12312]hexamantane (cyclohexamantane)

Tadema, H.; Kallenberg, C.G.M.; Stegeman, C.A.; Heeringa, P., 2011:
Reactivity against complementary proteinase-3 is not increased in patients with PR3-ANCA-associated vasculitis

Lewis, R.A.; Smiles, D.E.; Darmon, J.M.; Stieber, S.Chantal.E.; Wu, G.; Hayton, T.W., 2014:
Reactivity and Mössbauer spectroscopic characterization of an Fe(IV) ketimide complex and reinvestigation of an Fe(IV) norbornyl complex

Buriez, O.; Heldt, J.Martin.; Labbé, E.; Vessières, A.; Jaouen, G.; Amatore, C., 2008:
Reactivity and antiproliferative activity of ferrocenyl-tamoxifen adducts with cyclodextrins against hormone-independent breast-cancer cell lines

Selvam, T.; Inayat, A.; Schwieger, W., 2014:
Reactivity and applications of layered silicates and layered double hydroxides

Bich, C.; Maedler, S.; Chiesa, K.; DeGiacomo, F.; Bogliotti, N.; Zenobi, R., 2010:
Reactivity and applications of new amine reactive cross-linkers for mass spectrometric detection of protein-protein complexes

Bajot, F.; Cronin, M.T.D.; Roberts, D.W.; Schultz, T.W., 2011:
Reactivity and aquatic toxicity of aromatic compounds transformable to quinone-type Michael acceptors

Dutta, B.Jyoti.; Bhattacharyya, P.Kr., 2015:
Reactivity and aromaticity of nucleobases are sensitive toward external electric field

Sladić, D.; Gasić, M.J., 2007:
Reactivity and biological activity of the marine sesquiterpene hydroquinone avarol and related compounds from sponges of the order Dictyoceratida

Messori, L.; Cubo, L.; Gabbiani, C.; Álvarez-Valdés, A.; Michelucci, E.; Pieraccini, G.; Ríos-Luci, C.; León, L.G.; Padrón, Jé.M.; Navarro-Ranninger, C.; Casini, A.; Quiroga, Aón.G., 2012:
Reactivity and biological properties of a series of cytotoxic PtI2(amine)2 complexes, either cis or trans configured

Chaplin, A.B.; Dyson, P.J., 2007:
Reactivity and catalytic activity of a robust ruthenium(II)-triphos complex

Less, R.J.; Simmonds, H.R.; Wright, D.S., 2014:
Reactivity and catalytic activity of tert-butoxy-aluminium hydride reagents

Hong, X.; Stevens, M.C.; Liu, P.; Wender, P.A.; Houk, K.N., 2015:
Reactivity and chemoselectivity of allenes in Rh(I)-catalyzed intermolecular (5 + 2) cycloadditions with vinylcyclopropanes: allene-mediated rhodacycle formation can poison Rh(I)-catalyzed cycloadditions

Victorri-Vigneau, C.; Marais, M.; Veyrac, Gëlle.; Chaslerie, A.; Pivette, J.; Jolliet, P., 2008:
Reactivity and communication of Health Authorities toward health professionals: a public health priority

Bukowski, W.M.; Schwartzman, A.; Santo, J.; Bagwell, C.; Adams, R., 2010:
Reactivity and distortions in the self: narcissism, types of aggression, and the functioning of the hypothalamic-pituitary-adrenal axis during early adolescence

Ramos-Alvarez, C.; Yoo, B-Kuk.; Pietri, R.; Lamarre, I.; Martin, J-Louis.; Lopez-Garriga, J.; Negrerie, M., 2014:
Reactivity and dynamics of H2S, NO, and O2 interacting with hemoglobins from Lucina pectinata

Baena-Nogueras, R.María.; Rojas-Ojeda, P.; Sanz, Jé.Luis.; González-Mazo, E.; Lara-Martín, P.A., 2014:
Reactivity and fate of secondary alkane sulfonates (SAS) in marine sediments

Niu, L.; Liu, X.; Shi, Y., 2011:
Reactivity and function of cysteine residues in imidase from Pseudomonas putida YZ-26

Caschera, F.; Stano, P.; Luisi, P.Luigi., 2013:
Reactivity and fusion between cationic vesicles and fatty acid anionic vesicles

Bush, M.F.; Saykally, R.J.; Williams, E.R., 2008:
Reactivity and infrared spectroscopy of gaseous hydrated trivalent metal ions

Kirkpatrick, S.I.; Midthune, D.; Dodd, K.W.; Potischman, N.; Subar, A.F.; Thompson, F.E., 2012:
Reactivity and its association with body mass index across days on food checklists

Quagraine, E.K.; Georgakaki, I.; Coucouvanis, D., 2008:
Reactivity and kinetic studies of (NH4)2(MoS4) in acidic aqueous solution: possible relevance to the angiostatic function of the MoS4(2-) ligand

Zhang, J.; Wayland, B.B.; Yun, L.; Li, S.; Fu, X., 2009:
Reactivity and kinetic-mechanistic studies of regioselective reactions of rhodium porphyrins with unactivated olefins in water that form beta-hydroxyalkyl complexes and conversion to ketones and epoxides

Weissenrieder, J.; Gustafson, J.; Stacchiola, D., 2014:
Reactivity and mass transfer of low-dimensional catalysts

Li, R-En.; Sheu, J-Horng.; Su, M-Der., 2007:
Reactivity and mechanism of stable heterocyclic silylenes with carbon tetrachloride

Wei, X.; Lü, X.; Wu, Z.; Ding, J.; Xie, J.; Wei, W.; Mao, D., 2013:
Reactivity and mechanistic insight into Visible-light-Induced anerobic selective reaction by Ag/brookite titania

Liu, Q.; Li, Y-Nan.; Zhang, H-Hui.; Chen, B.; Tung, C-Ho.; Wu, L-Zhu., 2011:
Reactivity and mechanistic insight into visible-light-induced aerobic cross-dehydrogenative coupling reaction by organophotocatalysts

Farrukh, M.Akhyar.; Beber, R.C.; Priebe, J.P.; Lal Satnami, M.; Micke, G.A.; Costa, A.C.O.; Fiedler, H.D.; Bunton, C.A.; Nome, F., 2008:
Reactivity and models for anion distribution: specific iodide binding to sulfobetaine micelles

Lucas, M.; Frenois, F.; Vouillac, C.; Stinus, L.; Cador, M.; Le Moine, C., 2008:
Reactivity and plasticity in the amygdala nuclei during opiate withdrawal conditioning: differential expression of c-fos and arc immediate early genes

Minami, F.; Nagai, M.; Ito, M.; Matsuda, T.; Takai, H.; Jinkawa, Y.; Shimano, T.; Hayashi, M.; Seki, Y.; Sakoda, Y.; Sugiura, K.; Akashi, H., 2011:
Reactivity and prevalence of neutralizing antibodies against Japanese strains of bovine viral diarrhea virus subgenotypes

Schoenebeck, F.; Ess, D.H.; Jones, G.O.; Houk, K.N., 2009:
Reactivity and regioselectivity in 1,3-dipolar cycloadditions of azides to strained alkynes and alkenes: a computational study

Osuna, Sílvia.; Swart, M.; Solà, M., 2009:
Reactivity and regioselectivity of noble gas endohedral fullerenes Ng@C(60) and Ng(2)@C(60) (Ng=He-Xe)

Fallone, M.Duncan.; LaGasse, L.L.; Lester, B.M.; Shankaran, S.; Bada, H.S.; Bauer, C.R., 2015:
Reactivity and regulation of motor responses in cocaine-exposed infants

Khan, R.Kashif.M.; Torker, S.; Hoveyda, A.H., 2014:
Reactivity and selectivity differences between catecholate and catechothiolate Ru complexes. Implications regarding design of stereoselective olefin metathesis catalysts

Liu, W.; RajanBabu, T.V., 2014:
Reactivity and selectivity in hydrovinylation of strained alkenes

Tsang, W-Yin.; Ahmed, N.; Hemming, K.; Page, M.I., 2007:
Reactivity and selectivity in the inhibition of elastase by 3-oxo-beta-sultams and in their hydrolysis

Vallejos, M.M.; Grimblat, Nás.; Pellegrinet, S.C., 2015:
Reactivity and selectivity of boron-substituted alkenes in the Diels-Alder reaction with cyclopentadiene. A study of the electron charge density and its Laplacian

Pates, G.O.; Guler, L.; Nash, J.J.; Kenttämaa, H.I., 2011:
Reactivity and selectivity of charged phenyl radicals toward amino acids in a Fourier transform ion cyclotron resonance mass spectrometer

Macnab, G.M., 1949:
Reactivity and specificity of precipitates obtained by treating alcoholic extracts of beef heart with solutions of various inorganic salts

Rossi, M.B.; Piro, O.E.; Castellano, E.E.; Alborés, P.; Baraldo, L.M., 2008:
Reactivity and spectroscopy of the {Ru(DMAP)5} fragment: an {Ru(NH3)5} analogue

Proutiere, F.; Aufiero, M.; Schoenebeck, F., 2011:
Reactivity and stability of dinuclear Pd(I) complexes: studies on the active catalytic species, insights into precatalyst activation and deactivation, and application in highly selective cross-coupling reactions

Hanschen, F.S.; Lamy, E.; Schreiner, M.; Rohn, S., 2015:
Reactivity and stability of glucosinolates and their breakdown products in foods

Vuzman, D.; Poverenov, E.; Diskin-Posner, Y.; Leitus, G.; Shimon, L.J.W.; Milstein, D., 2007:
Reactivity and stability of platinum(II) formyl complexes based on PCP-type ligands. The significance of sterics

McCaffrey, V.P.; Zellner, N.E.B.; Waun, C.M.; Bennett, E.R.; Earl, E.K., 2015:
Reactivity and survivability of glycolaldehyde in simulated meteorite impact experiments

Vanderwal, C.D., 2012:
Reactivity and synthesis inspired by the Zincke ring-opening of pyridines

Alfini, R.; Cecchi, M.; Giomi, D., 2010:
Reactivity and synthetic applications of 4,5-dicyanopyridazine: an overview

Roberts, D.W.; Basketter, D.A., 2010:
Reactivity assays, substances, samples and in vitro alternatives: why should we care?

Roberts, D.W.; Basketter, D.A., 2010:
Reactivity assays: dealing with substances and samples in an in vitro world - the solution and the real problem

Amslinger, S.; Al-Rifai, N.; Winter, K.; Wörmann, K.; Scholz, R.; Baumeister, P.; Wild, M., 2013:
Reactivity assessment of chalcones by a kinetic thiol assay

Zins, E-Laure.; Pirim, C.; Joshi, P.Ramesh.; Krim, L., 2012:
Reactivity between non-energetic hydroxyl (OH) radicals and methane (CH4)

Nagahata, Y.; Teramoto, H.; Li, C-Biu.; Kawai, S.; Komatsuzaki, T., 2013:
Reactivity boundaries for chemical reactions associated with higher-index and multiple saddles

Nagahata, Y.; Teramoto, H.; Li, C-Biu.; Kawai, S.; Komatsuzaki, T., 2013:
Reactivity boundaries to separate the fate of a chemical reaction associated with an index-two saddle

Dauth, A.; Love, J.A., 2011:
Reactivity by design--metallaoxetanes as centerpieces in reaction development

Ishida, N.; Nakanishi, Y.; Murakami, M., 2013:
Reactivity change of cyclobutanols towards isocyanates: rhodium favors C-carbamoylation over O-carbamoylation

Papazian, R.; Iota, C.G., 2014:
Reactivity characteristics of the blood vessels of the skin connected with age, in normal and hypertensive subjects

Hong, S.; So, H.; Yoon, H.; Cho, K-Bin.; Lee, Y-Min.; Fukuzumi, S.; Nam, W., 2013:
Reactivity comparison of high-valent iron(IV)-oxo complexes bearing N-tetramethylated cyclam ligands with different ring size

Whiteoak, C.J.; Gjoka, B.; Martin, E.; Belmonte, M.Martínez.; Escudero-Adán, E.C.; Zonta, C.; Licini, G.; Kleij, A.W., 2013:
Reactivity control in iron(III) amino triphenolate complexes: comparison of monomeric and dimeric complexes

Li, X-Na.; Wu, X-Nan.; Ding, X-Lei.; Xu, B.; He, S-Gui., 2012:
Reactivity control of C-H bond activation over vanadium-silver bimetallic oxide cluster cations

Bousrez, G.; Jaroschik, F.; Martinez, A.; Harakat, D.; Nicolas, E.; Le Goff, X.F.; Szymoniak, J., 2013:
Reactivity differences between 2,4- and 2,5-disubstituted zirconacyclopentadienes: a highly selective and general approach to 2,4-disubstituted phospholes

Palkar, A.; Melin, F.; Cardona, C.M.; Elliott, B.; Naskar, A.K.; Edie, D.D.; Kumbhar, A.; Echegoyen, L., 2007:
Reactivity differences between carbon nano onions (CNOs) prepared by different methods

Grabowsky, S.; Weber, M.; Jayatilaka, D.; Chen, Y-Sheng.; Grabowski, M.T.; Brehme, R.; Hesse, M.; Schirmeister, T.; Luger, P., 2012:
Reactivity differences between α,β-unsaturated carbonyls and hydrazones investigated by experimental and theoretical electron density and electron localizability analyses

Lundeen, R.A.; McNeill, K., 2014:
Reactivity differences of combined and free amino acids: quantifying the relationship between three-dimensional protein structure and singlet oxygen reaction rates

Zhang, H.; Yu, H.; Zheng, A.; Li, S.; Shen, W.; Deng, F., 2008:
Reactivity enhancement of 2-propanol photocatalysis on SO4(2-)/TiO2: insights from solid-state NMR spectroscopy

Wu, C-Shiun.; Su, M-Der., 2012:
Reactivity for boryl(phosphino)carbenyl carbene analogues with group 14 elements (C, Si, Ge, Sb, and Pb) as a heteroatom: a theoretical study

Liu, S.; Lei, Y.; Qi, X.; Lan, Y., 2014:
Reactivity for the Diels-Alder reaction of cumulenes: a distortion-interaction analysis along the reaction pathway

Motl, R.W.; McAuley, E.; Dlugonski, D., 2012:
Reactivity in baseline accelerometer data from a physical activity behavioral intervention

Fernández, I.; Bickelhaupt, F.Matthias.; Uggerud, E., 2013:
Reactivity in nucleophilic vinylic substitution (S(N)V):S(N)Vπ versus S(N)Vσ mechanistic dichotomy

Arnold, B.F.; Khush, R.S.; Ramaswamy, P.; Rajkumar, P.; Durairaj, N.; Ramaprabha, P.; Balakrishnan, K.; Colford, J.M., 2015:
Reactivity in rapidly collected hygiene and toilet spot check measurements: a cautionary note for longitudinal studies

McMillan, A.; Young, H., 2008:
Reactivity in the Venereal Diseases Research Laboratory test and the Mercia IgM enzyme immunoassay after treatment of early syphilis

Boronat, M.; Concepción, P.; Corma, A.; Navarro, Mía.Teresa.; Renz, M.; Valencia, S., 2009:
Reactivity in the confined spaces of zeolites: the interplay between spectroscopy and theory to develop structure-activity relationships for catalysis

Bowler, J.T.; Wong, F.M.; Gronert, S.; Keeffe, J.R.; Wu, W., 2015:
Reactivity in the nucleophilic aromatic substitution reactions of pyridinium ions

Tsuneda, T.; Singh, R.K., 2014:
Reactivity index based on orbital energies

Cárdenas, C.; Ayers, P.W.; Cedillo, Aés., 2011:
Reactivity indicators for degenerate states in the density-functional theoretic chemical reactivity theory

Ormazábal-Toledo, R.; Contreras, R.; Campodónico, P.R., 2013:
Reactivity indices profile: a companion tool of the potential energy surface for the analysis of reaction mechanisms. Nucleophilic aromatic substitution reactions as test case

Zhao, G.; Yang, C.; Guo, L.; Sun, H.; Lin, R.; Xia, W., 2012:
Reactivity insight into reductive coupling and aldol cyclization of chalcones by visible light photocatalysis

Novikov, Y.; Copley, S.D., 2013:
Reactivity landscape of pyruvate under simulated hydrothermal vent conditions

Rokob, T.András.; Bakó, I.; Stirling, Aás.; Hamza, A.; Pápai, I., 2013:
Reactivity models of hydrogen activation by frustrated Lewis pairs: synergistic electron transfers or polarization by electric field?

Albert, O.; Toubas, D.; Strady, C.; Cousson, J.; Delmas, C.; Vernet, V.; Villena, I., 2014:
Reactivity of (1→3)-β-d-glucan assay in bacterial bloodstream infections

Pandey, R.K.; Wang, L.; Wallock, N.J.; Lindeman, S.; Donaldson, W.A., 2008:
Reactivity of (2-alkenyl-3-pentene-1,5-diyl)iron complexes: preparation of functionalized vinylcyclopropanes and cycloheptadienes

Evans, W.J.; Mueller, T.J.; Ziller, J.W., 2009:
Reactivity of (C5Me5)3LaL(x) complexes: synthesis of a tris(pentamethylcyclopentadienyl) complex with two additional ligands, (C5Me5)3La(NCCMe3)2

Tehranchi, J.; Donoghue, P.J.; Cramer, C.J.; Tolman, W.B., 2014:
Reactivity of (Dicarboxamide)M(II)-OH (M = Cu, Ni) Complexes: Reaction with Acetonitrile to Yield M(II)-Cyanomethides

Stoccoro, S.; Alesso, G.; Cinellu, M.Agostina.; Minghetti, G.; Zucca, A.; Manassero, M.; Manassero, C., 2009:
Reactivity of 1,3-bis(2-pyridyl)benzene, N--CH--N, with gold(III) chlorides: salts, adducts and cyclometalated pincer derivatives. Crystal and molecular structures of [HN--CH--N][AuCl4], [Au(N--C--N)Cl][PF6] and [Au(N--C--N)Cl(PPh3)2][PF6

Voigt, M.; Glomb, M.A., 2009:
Reactivity of 1-deoxy-D-erythro-hexo-2,3-diulose: a key intermediate in the maillard chemistry of hexoses

Eccles, W.; Jasinski, M.; Kaszynski, P.; Zienkiewicz, K.; Stulgies, B.; Jankowiak, A., 2008:
Reactivity of 13,13-dibromo-2,4,9,11-tetraoxadispiro[5.0.5.1]tridecane toward organolithiums: remarkable resistance to the DMS rearrangement

Zhang, R.; Zhu, L.; Lu, Z.; Yan, H.; Bregadze, V.I., 2012:
Reactivity of 16-electron half-sandwich cobalt compounds containing a chelating 1,2-dicarba-closo-dodecaborane-1,2-dithiolate ligand towards methyl propiolate and dithio ligands

Zobi, F.; Blacque, O., 2011:
Reactivity of 17 e- complex [Re(II)Br4(CO)2]2- with bridging aromatic ligands. Characterization and CO-releasing properties

Wu, D.; Jia, D.; Liu, L.; Zhang, L.; Guo, J., 2011:
Reactivity of 2,6-lutidine/BR₃ and pyridine/BR₃ Lewis pairs (R = F, Me, C₆F₅): a density functional study

Chauhan, R.Singh.; Kedarnath, G.; Wadawale, A.; Slawin, A.M.Z.; Jain, V.K., 2012:
Reactivity of 2-chalcogenopyridines with palladium-phosphine complexes: isolation of different complexes depending on the nature of chalcogen atom and phosphine ligand

El-Hashash, M.A.; Darwish, K.M.; Rizk, S.A.; El-Bassiouny, F.A., 2012:
Reactivity of 2-ethoxyquinazolin- 4-yl hydrazine and its use in synthesis of novel quinazoline derivatives of antimicrobial activity

Gallego-Iniesta García, Mía.Paz.; Moreno Sanroma, A.; Martín Porrero, Mía.Pilar.; Tapia Valle, A.; Cabañas Galán, B.; Salgado Muñoz, Mía.Sagrario., 2010:
Reactivity of 2-ethyl-1-hexanol in the atmosphere

Chérouvrier, J-René.; Carreaux, Fçois.; Bazureau, J.Pierre., 2007:
Reactivity of 2-thiohydantoins towards various electrophilic reagents: applications to the synthesis of new 2-ylidene-3,5-dihydro-4H-imidazol-4-ones

Meng, Z-Sha.; Yun, L.; Zhang, W-Xiong.; Hong, C-Gang.; Herchel, R.; Ou, Y-Cong.; Leng, J-Dong.; Peng, M-Xia.; Lin, Z-Jia.; Tong, M-Liang., 2010:
Reactivity of 4-amino-3,5-bis(pyridin-2-yl)-1,2,4-triazole, structures and magnetic properties of polynuclear and polymeric Mn(II), Cu(II) and Cd(II) complexes

Figueroa, J.; Caballero, E.; Puebla, P.; Tomé, F.; Medarde, M., 2007:
Reactivity of 4-tert-butyldimethylsiloxy-1,2,3,6-tetrahydropyridines with hydrazines

Dabrowska, J.; Nowak, P.; Brus, R., 2008:
Reactivity of 5-HT1A receptor in adult rats after neonatal noradrenergic neurons' lesion--implications for antidepressant-like action

Okamura, T.; Kikuchi, T.; Fukushi, K.; Irie, T., 2009:
Reactivity of 6-halopurine analogs with glutathione as a radiotracer for assessing function of multidrug resistance-associated protein 1

Sivey, J.D.; Arey, J.Samuel.; Tentscher, P.R.; Roberts, A.Lynn., 2013:
Reactivity of BrCl, Br₂, BrOCl, Br₂O, and HOBr toward dimethenamid in solutions of bromide + aqueous free chlorine

Hejda, M.; Lyčka, Aín.; Jambor, R.; Růžička, Aš.; Dostál, L., 2013:
Reactivity of C,N-chelated organoboron compounds with lithium anilides--formation of unexpected 1,2,3-trisubstituted 1H-2,1-benzazaboroles

Keceli, G.; Toscano, J.P., 2014:
Reactivity of C-terminal cysteines with HNO

Wu, J.Feng.; Wang, W.David.; Xu, J.; Deng, F.; Wang, W., 2010:
Reactivity of C1 surface species formed in methane activation on Zn-modified H-ZSM-5 zeolite

Zabka, J.; Polásek, M.; Ascenzi, D.; Tosi, P.; Roithová, J.; Schröder, D., 2009:
Reactivity of C2H5+ with benzene: formation of ethylbenzenium ions and implications for Titan's ionospheric chemistry

Sudolská, Mária.; Louis, F.; Cernušák, I., 2014:
Reactivity of CHI3 with OH radicals: X-abstraction reaction pathways (X = H, I), atmospheric chemistry, and nuclear safety

Brookes, N.J.; Ariafard, A.; Stranger, R.; Yates, B.F., 2010:
Reactivity of CO2 towards Mo[N(R)Ph]3

Alwe, H.D.; Sharma, A.; Walavalkar, M.P.; Dhanya, S.; Naik, P.D., 2015:
Reactivity of Cl atom with triple-bonded molecules. An experimental and theoretical study with alcohols

MacLeod, K.Cory.; Patrick, B.O.; Smith, K.M., 2011:
Reactivity of Cr(III) μ-oxo compounds: catalyst regeneration and atom transfer processes

Knorr, M.; Pam, A.; Khatyr, A.; Strohmann, C.; Kubicki, M.M.; Rousselin, Y.; Aly, S.M.; Fortin, D.; Harvey, P.D., 2010:
Reactivity of CuI and CuBr toward Et2S: a reinvestigation on the self-assembly of luminescent copper(I) coordination polymers

Sekar, K.G.; Sakthivel, R.V., 2013:
Reactivity of Cyclanols Towards Quinaldinium Fluorochromate Oxidation

Zhao, Y.; Lei, Y.; Dong, Q.; Wu, B.; Yang, X-Juan., 2013:
Reactivity of Dialumane and "Dialumene" Compounds toward Alkenes

Turcio-Ortega, D.; Fan, D.; Tratnyek, P.G.; Kim, E-Ju.; Chang, Y-Seok., 2013:
Reactivity of Fe/FeS nanoparticles: electrolyte composition effects on corrosion electrochemistry

Gil, Jé.; Cimino, Rén.; López Quiroga, Iés.; Cajal, S.; Acosta, N.; Juarez, M.; Zacca, R.; Orellana, V.; Krolewiecki, A.; Diosque, P.; Nasser, J., 2012:
Reactivity of GST-SAPA antigen of Trypanosoma cruzi against sera from patients with Chagas disease and leishmaniasis

Lee, H.; Jeong, K.Yong.; Shin, K.Hyun.; Yi, M-hee.; Gantulaga, D.; Hong, C-Soo.; Yong, T-Soon., 2009:
Reactivity of German cockroach allergen, Bla g 2, peptide fragments to IgE antibodies in patients' sera

Poineau, F.; Weck, P.F.; Burton-Pye, B.P.; Denden, I.; Kim, E.; Kerlin, W.; German, K.E.; Fattahi, M.; Francesconi, L.C.; Sattelberger, A.P.; Czerwinski, K.R., 2013:
Reactivity of HTcO(4) with methanol in sulfuric acid: Tc-sulfate complexes revealed by XAFS spectroscopy and first principles calculations

Justo Jacomini, Débora.Laís.; Gomes Moreira, S.Margarida.; Campos Pereira, F.Dani.; Zollner, R.de.Lima.; Brochetto Braga, Márcia.Regina., 2014:
Reactivity of IgE to the allergen hyaluronidase from Polybia paulista (Hymenoptera, Vespidae) venom

Elliott, P.I.P.; Haak, S.; Meijer, A.J.H.M.; Sunley, G.J.; Haynes, A., 2013:
Reactivity of Ir(III) carbonyl complexes with water: alternative by-product formation pathways in catalytic methanol carbonylation

Schramlová, J.; Mardešičová, L.; Barták, P., 2010:
Reactivity of Langerhans cells after application of different chemicals--an ultrastructural analysis

Bauer, Jürgen.; Braunschweig, H.; Dewhurst, R.D.; Radacki, K., 2013:
Reactivity of Lewis basic platinum complexes towards fluoroboranes

Boudreau, Jée.; Courtemanche, M-André.; Fontaine, Fédéric-Georges., 2011:
Reactivity of Lewis pairs (R2PCH2AlMe2)2 with carbon dioxide

Buccella, D.; Janak, K.E.; Parkin, G., 2008:
Reactivity of Mo(PMe3)6 towards benzothiophene and selenophenes: new pathways relevant to hydrodesulfurization

Berchtold, K.A.; Nie, J.; Stansbury, J.W.; Bowman, C.N., 2009:
Reactivity of Monovinyl (Meth)Acrylates Containing Cyclic Carbonates

Carroll, S.A.; McNab, W.W.; Dai, Z.; Torres, S.C., 2013:
Reactivity of Mount Simon sandstone and the Eau Claire shale under CO2 storage conditions

Zibinsky, M.; Fokin, V.V., 2011:
Reactivity of N-(1,2,4-triazolyl)-substituted 1,2,3-triazoles

D'hooghe, M.; Dekeukeleire, S.; De Kimpe, N., 2008:
Reactivity of N-(omega-haloalkyl)-beta-lactams with regard to lithium aluminium hydride: novel synthesis of 1-(1-aryl-3-hydroxypropyl)aziridines and 3-aryl-3-(N-propylamino)propan-1-ols

Mauvy, F.; Siebert, E.; Fabry, P., 2008:
Reactivity of NASICON with water and interpretation of the detection limit of a NASICON based Na(+) ion selective electrode

Hudry, D.; Rakhmatullin, A.; Bessada, C.; Bardez, I.; Bart, F.; Jobic, Séphane.; Deniard, P., 2009:
Reactivity of NH4H2PO4 toward LaCl3 in LiCl-KCl melt flux. Step by step formation of monazite-like LaPO4

Rodríguez, J.L.; Valenzuela, M.A.; Poznyak, T.; Lartundo, L.; Chairez, I., 2014:
Reactivity of NiO for 2,4-D degradation with ozone: XPS studies

Whitfield, S.R.; Sanford, M.S., 2007:
Reactivity of Pd(II) complexes with electrophilic chlorinating reagents: isolation of Pd(IV) products and observation of C-Cl bond-forming reductive elimination

Zahran, E.M.; Bhattacharyya, D.; Bachas, L.G., 2013:
Reactivity of Pd/Fe bimetallic nanotubes in dechlorination of coplanar polychlorinated biphenyls

Kuznetsov, M.L.; Kukushkin, V.Yu.; Pombeiro, A.J.L., 2008:
Reactivity of Pt- and Pd-bound nitriles towards nitrile oxides and nitrones: substitution vs. cycloaddition

Braunschweig, H.; Gruss, K.; Radacki, K., 2008:
Reactivity of Pt0 complexes toward gallium(III) halides: synthesis of a platinum gallane complex and oxidative addition of gallium halides to Pt0

Molitor, S.; Gessner, V.H., 2013:
Reactivity of Stabilized Li/Cl Carbenoids towards Lewis Base Adducts of BH3: B-H Bond Activation versus Carbene Dimerization

Kauf, T.; Braunstein, P., 2011:
Reactivity of TCNE or TCNQ derivatives of quinonoid zwitterions: platinum-induced HCN elimination vs oxidative-addition

Lomont, J.P.; Nguyen, S.C.; Harris, C.B., 2013:
Reactivity of TEMPO toward 16- and 17-electron organometallic reaction intermediates: a time-resolved IR study

Bordiga, S.; Bonino, F.; Damin, A.; Lamberti, C., 2007:
Reactivity of Ti(IV) species hosted in TS-1 towards H2O2-H2O solutions investigated by ab initio cluster and periodic approaches combined with experimental XANES and EXAFS data: a review and new highlights

Li, S-Chun.; Diebold, U., 2009:
Reactivity of TiO2 rutile and anatase surfaces toward nitroaromatics

Yi, W.; Zhang, J.; Huang, S.; Weng, L.; Zhou, X., 2013:
Reactivity of Tp(Me2) -supported yttrium alkyl complexes toward aromatic N-heterocycles: ring-opening or C-C bond formation directed by C-H activation

Fonseca, Cção.; Domingues, M.Rosário.M.; Simões, Cáudia.; Amado, F.; Domingues, P., 2009:
Reactivity of Tyr-Leu and Leu-Tyr dipeptides: identification of oxidation products by liquid chromatography-tandem mass spectrometry

Lam, O.P.; Franke, S.M.; Heinemann, F.W.; Meyer, K., 2013:
Reactivity of U-E-U (E = S, Se) toward CO2, CS2, and COS: new mixed-carbonate complexes of the types U-CO2E-U (E = S, Se), U-CS2E-U (E = O, Se), and U-COSSe-U

Schnaars, D.D.; Wu, G.; Hayton, T.W., 2008:
Reactivity of UH3 with mild oxidants

Schnaars, D.D.; Wu, G.; Hayton, T.W., 2009:
Reactivity of UI4(OEt2)2 with phenols: probing the chemistry of the U-I bond

Valerio Cárdenas, C.; Muñoz Hernández, M.Angel.; Grévy, J-Michel., 2010:
Reactivity of Zn(II), Mg(II) and Al(III) chlorides with a phosphinimine ligand: new tetrameric inverse crown ether structures

Zhu, J.; Meeusen, J.; Krezoski, S.; Petering, D.H., 2010:
Reactivity of Zn-, Cd-, and apo-metallothionein with nitric oxide compounds: in vitro and cellular comparison

Braunschweig, H.; Brenner, P.; Gross, M.; Radacki, K., 2010:
Reactivity of [1],[1]disilamolybdenocenophane toward zerovalent platinum complexes

Tseng, C-Kai.; Lee, C-Rung.; Tseng, M-Chun.; Han, C-Chung.; Shyu, S-Guang., 2015:
Reactivity of [K₃(phen)₈][Cu(NPh₂)₂]₃--a possible intermediate in the copper(I)-catalyzed N-arylation of N-phenylaniline

Stanek, K.; Koller, R.; Togni, A., 2008:
Reactivity of a 10-I-3 hypervalent iodine trifluoromethylation reagent with phenols

Barnes, S.S.; Légaré, M-André.; Maron, L.; Fontaine, Fédéric-Georges., 2011:
Reactivity of a Cl-boratabenzene Pt(II) complex with Lewis bases: generation of the kinetically favoured Cl-boratabenzene anion

Chomitz, W.A.; Arnold, J., 2008:
Reactivity of a Co(I) [N(2)P(2)] complex with azides: evidence for a transient Co(III) imido species

Huacuja, R.; Graham, D.J.; Fafard, C.M.; Chen, C-Hsing.; Foxman, B.M.; Herbert, D.E.; Alliger, G.; Thomas, C.M.; Ozerov, O.V., 2011:
Reactivity of a Pd(I)-Pd(I) dimer with O2: monohapto Pd superoxide and dipalladium peroxide in equilibrium

Ohzu, S.; Ishizuka, T.; Kotani, H.; Kojima, T., 2015:
Reactivity of a Ru(III)-hydroxo complex in substrate oxidation in water

Zhang, L.; Xiang, L.; Yu, Y.; Deng, L., 2013:
Reactivity of a bis(amidinato)iron(II) complex [Fe(MesC(NPr(i))2)2] toward some oxidizing reagents

Jo, Y.; Annaraj, J.; Seo, M.Sook.; Lee, Y-Min.; Kim, S.Yeon.; Cho, J.; Nam, W., 2008:
Reactivity of a cobalt(III)-peroxo complex in oxidative nucleophilic reactions

Rankin, M.A.; Hesp, K.D.; Schatte, G.; McDonald, R.; Stradiotto, M., 2007:
Reactivity of a coordinatively unsaturated Cp*Ru(kappa2-P,O) complex

Hochreuther, S.; van Eldik, R., 2012:
Reactivity of a cytostatic active N,N-donor-containing dinuclear Pt(II) complex with biological relevant nucleophiles

Yeong, H-Xian.; Lau, K-Chung.; Xi, H-Wei.; Hwa Lim, K.; So, C-Wai., 2010:
Reactivity of a disilylene [{PhC(NBu(t))(2)}Si](2) toward bromine: synthesis and characterization of a stable monomeric bromosilylene

Kinjo, R.; Ichinohe, M.; Sekiguchi, A.; Takagi, N.; Sumimoto, M.; Nagase, S., 2007:
Reactivity of a disilyne RSi identical with SiR (R=SiiPr[CH(SiMe3)2]2) toward pi-bonds: stereospecific addition and a new route to an isolable 1,2-disilabenzene

Matsubara, Y.; Hightower, S.E.; Chen, J.; Grills, D.C.; Polyansky, D.E.; Muckerman, J.T.; Tanaka, K.; Fujita, E., 2014:
Reactivity of a fac-ReCl(α-diimine)(CO)3 complex with an NAD+ model ligand toward CO2 reduction

Kolychev, E.L.; Bannenberg, T.; Freytag, M.; Daniliuc, C.G.; Jones, P.G.; Tamm, M., 2012:
Reactivity of a frustrated lewis pair and small-molecule activation by an isolable Arduengo carbene-B{3,5-(CF3)2C6H3}3 complex

Zell, T.; Shi, W.; Langer, R.; Ponikiewski, L.; Rothenberger, A., 2008:
Reactivity of a heterocyclic As-Se compound with metal salts: syntheses and structures of the first copper complexes and of new alkali metal salts containing As-Se anions

Fan, X-Na.; Karsten, U.; Goletz, S.; Cao, Y., 2010:
Reactivity of a humanized antibody (hPankoMab) towards a tumor-related MUC1 epitope (TA-MUC1) with various human carcinomas

Fantasia, S.; Welch, J.M.; Togni, A., 2010:
Reactivity of a hypervalent iodine trifluoromethylating reagent toward THF: ring opening and formation of trifluoromethyl ethers

Maruyama, M.; König, M.; Guldi, D.M.; Nakamura, E.; Matsuo, Y., 2013:
Reactivity of a metastable cobalt(III) trisulfide complex: multiple C-H functionalization of p-xylene and disulfides to afford photofunctional cobalt complexes

Gloaguen, Y.; Jacobs, W.; de Bruin, B.; Lutz, M.; van der Vlugt, J.Ivar., 2013:
Reactivity of a mononuclear iridium(I) species bearing a terminal phosphido fragment embedded in a triphosphorus ligand

Arikawa, Y.; Ikeda, A.; Matsumoto, N.; Umakoshi, K., 2013:
Reactivity of a nitrosyl ligand on dinuclear ruthenium hydrotris(pyrazolyl)borato complexes toward a NO molecule

Gallo, V.; Latronico, M.; Mastrorilli, P.; Nobile, C.F.; Polini, F.; Re, N.; Englert, U., 2008:
Reactivity of a phosphinito-bridged PtI-PtI complex with nucleophiles: substitution versus addition

Solís-Calero, C.; Ortega-Castro, Jín.; Muñoz, F., 2011:
Reactivity of a phospholipid monolayer model under periodic boundary conditions: a density functional theory study of the Schiff base formation between phosphatidylethanolamine and acetaldehyde

Braunschweig, H.; Radacki, K.; Rais, D.; Schneider, A.; Seeler, F., 2007:
Reactivity of a platinum iminoboryl complex toward Lewis and Brønsted acids

Braunschweig, H.; Ye, Q.; Radacki, K.; Kupfer, T., 2011:
Reactivity of a platinum-substituted borirene

Yeguas, V.; Campomanes, P.; López, Rón., 2010:
Reactivity of a rhenium hydroxo-carbonyl complex toward carbon disulfide: insights from theory

Chu, J.; Lu, E.; Liu, Z.; Chen, Y.; Leng, X.; Song, H., 2011:
Reactivity of a scandium terminal imido complex towards unsaturated substrates

Zhang, S-Hua.; Yeong, H-Xian.; So, C-Wai., 2011:
Reactivity of a silylsilylene bearing a functionalized diaminochlorosilyl substituent

Dielmann, F.; Bertrand, G., 2014:
Reactivity of a stable phosphinonitrene towards small molecules

Zdilla, M.J.; Verma, A.K.; Lee, S.C., 2008:
Reactivity of a sterically hindered Fe(II) thiolate dimer with amines and hydrazines

Braunschweig, H.; Dewhurst, R.D.; Herbst, T.; Radacki, K., 2008:
Reactivity of a terminal chromium borylene complex towards olefins: insertion of a borylene into a C-H bond

Mudiyanselage, K.; Yi, C-Woo.; Szanyi, János., 2009:
Reactivity of a thick BaO film supported on Pt(111): adsorption and reaction of NO2, H2O, and CO2

Guo, J-Yi.; Xi, H-Wei.; Nowik, I.; Herber, R.H.; Li, Y.; Lim, K.Hwa.; So, C-Wai., 2012:
Reactivity of a tin(II) (iminophosphinoyl)(thiophosphinoyl)methanediide complex toward sulfur: synthesis and 119Sn Mössbauer spectroscopic studies of [{(μ-S)SnC(PPh2═NSiMe3)(PPh2═S)}3Sn(μ3-S)

Gallardo, V.A.; Jankiewicz, Błomiej.J.; Vinueza, N.R.; Nash, J.J.; Kenttämaa, H.I., 2012:
Reactivity of a σ,σ,σ,σ-tetraradical: the 2,4,6-tridehydropyridine radical cation

Goossens, H.; Vervisch, K.; Catak, S.; Stanković, S.; D'hooghe, M.; De Proft, F.; Geerlings, P.; De Kimpe, N.; Waroquier, M.; Van Speybroeck, V., 2012:
Reactivity of activated versus nonactivated 2-(bromomethyl)aziridines with respect to sodium methoxide: a combined computational and experimental study

Lee, D.W.; Pandey, R.K.; Lindeman, S.; Donaldson, W.A., 2012:
Reactivity of acyclic (pentadienyl)iron(1+) cations: synthetic studies directed toward the frondosins

Cosa, G.; Scaiano, J.C., 2008:
Reactivity of adrenaline toward alkoxyl radicals and carbonyl triplet states

Makarova, O.P., 2009:
Reactivity of airway phagocytes during the development of acute pneumonia under conditions of stimulation of mononuclear phagocyte system with zymosan

Cwiertny, D.M.; Arnold, W.A.; Kohn, T.; Rodenburg, L.A.; Roberts, A.Lynn., 2011:
Reactivity of alkyl polyhalides toward granular iron: development of QSARs and reactivity cross correlations for reductive dehalogenation

Huang, G.; Xie, K.; Lee, D.; Xia, Y., 2012:
Reactivity of alkynyl metal carbenoids: DFT study on the Pt-catalyzed cyclopropanation of propargyl ester containing 1,3-diynes

Yan, X.; Zhou, Y.; Xi, C., 2011:
Reactivity of alkynylzirconates towards allyl bromides: selective formation of β-allyl-zirconacyclopentadienes

Kumar, N.N.Bhuvan.; Reddy, M.Nagarjuna.; Swamy, K.C.Kumara., 2009:
Reactivity of allenylphosphonates toward salicylaldehydes and activated phenols: facile synthesis of chromenes and substituted butadienes

Supakthanasiri, P.; Klaewsongkram, J.; Chantaphakul, H., 2015:
Reactivity of allergy skin test in healthy volunteers

Grubisic, A.; Li, X.; Gantefoer, G.; Bowen, K.H.; Schnöckel, H.; Tenorio, F.J.; Martinez, A., 2009:
Reactivity of aluminum cluster anions with ammonia: selective etching of Al11(-) and Al12(-)

Reber, A.C.; Khanna, S.N.; Roach, P.J.; Woodward, W.Hunter.; Castleman, A.W., 2010:
Reactivity of aluminum cluster anions with water: origins of reactivity and mechanisms for H2 release

Michielssens, S.; Maiti, M.; Maiti, M.; Dyubankova, N.; Herdewijn, P.; Ceulemans, A., 2012:
Reactivity of amino acid nucleoside phosphoramidates: a mechanistic quantum chemical study

Kampf, G.; Sanz Miguel, P.J.; Morell Cerdà, M.; Willermann, M.; Schneider, A.; Lippert, B., 2008:
Reactivity of ammonia ligands of the antitumor agent cisplatin: a unique dodecanuclear Pt4,Pd4,Ag4 platform for four cytosine model nucleobases

Hornstein, B.J.; Dattelbaum, D.M.; Schoonover, J.R.; Meyer, T.J., 2007:
Reactivity of an adsorbed Ru(VI)-oxo complex: oxidation of benzyl alcohol

Groni, S.; Dorlet, P.; Blain, G.; Bourcier, S.; Guillot, Régis.; Anxolabéhère-Mallart, E., 2008:
Reactivity of an aminopyridine [LMnII]2+ complex with H2O2. Detection of intermediates at low temperature

Casini, A.; Karotki, A.; Gabbiani, C.; Rugi, F.; Vašák, M.; Messori, L.; Dyson, P.J., 2011:
Reactivity of an antimetastatic organometallic ruthenium compound with metallothionein-2: relevance to the mechanism of action

Jankiewicz, Błomiej.J.; Adeuya, A.; Yurkovich, M.J.; Vinueza, N.R.; Gardner, S.J.; Zhou, M.; Nash, J.J.; Kenttämaa, H.I., 2007:
Reactivity of an aromatic sigma,sigma,sigma-triradical: the 2,4,6-tridehydropyridinium cation

Han, J.Soo.; Sasamori, T.; Mizuhata, Y.; Tokitoh, N., 2010:
Reactivity of an aryl-substituted silicon-silicon triple bond: 1,2-disilabenzenes from the reactions of a 1,2-diaryldisilyne with alkynes

Han, J.Soo.; Sasamori, T.; Mizuhata, Y.; Tokitoh, N., 2010:
Reactivity of an aryl-substituted silicon-silicon triple bond: reactions of a 1,2-diaryldisilyne with alkenes

Ekkert, O.; Caputo, C.B.; Pranckevicius, C.; Daniliuc, C.G.; Kehr, G.; Erker, G.; Stephan, D.W., 2014:
Reactivity of an intramolecular fluorophosphonium fluoroborate

Paria, S.; Chatterjee, S.; Paine, T.Kanti., 2015:
Reactivity of an iron-oxygen oxidant generated upon oxidative decarboxylation of biomimetic iron(II) α-hydroxy acid complexes

Braunschweig, H.; Radacki, K.; Schneider, A., 2010:
Reactivity of an oxoboryl complex toward fluorinated aryl boron reagents

Grinenval, E.; Basset, J-Marie.; Lefebvre, Fédéric., 2011:
Reactivity of anhydrous keggin-type heteropolyacids with alkylsilanes: synthesis and characterization

Groessl, M.; Terenghi, M.; Casini, A.; Elviri, L.; Lobinski, R.; Dyson, P.J., 2010:
Reactivity of anticancer metallodrugs with serum proteins: new insights from size exclusion chromatography-ICP-MS and ESI-MS

England, J.M.; Halpern, M.S., 1980:
Reactivity of antisera to endogenous tumor virus for splenic B lymphocytes of immunized 15I(5) x 7(2) and 15I(5) x 7(1) chickens

Minakata, D.; Song, W.; Crittenden, J., 2011:
Reactivity of aqueous phase hydroxyl radical with halogenated carboxylate anions: experimental and theoretical studies

Balueva, T.V.; Sergeev, I.V., 2011:
Reactivity of arterial vessels during antiorthostasis and systemic hypotension

Nagayasu, Y.; Ito, J-Ichi.; Nishida, T.; Yokoyama, S., 2008:
Reactivity of astrocytes to fibroblast growth factor-1 for biogenesis of apolipoprotein E-high density lipoprotein is down-regulated by long-time secondary culture

Martins-Costa, M.T.C.; Anglada, J.M.; Francisco, J.S.; Ruiz-Lopez, M.F., 2012:
Reactivity of atmospherically relevant small radicals at the air-water interface

Ma, J-Bi.; Xu, B.; Meng, J-Heng.; Wu, X-Nan.; Ding, X-Lei.; Li, X-Na.; He, S-Gui., 2013:
Reactivity of atomic oxygen radical anions bound to titania and zirconia nanoparticles in the gas phase: low-temperature oxidation of carbon monoxide

Kanda, Y.; Kawamura, T.; Kobayashi, T.; Kawamura, H.; Watanabe, H.; Abo, T., 2014:
Reactivity of autoantibodies against not only erythrocytes but also hepatocytes in sera of mice with malaria

Horny, H.; Horst, H., 1994:
Reactivity of axillary lymph-nodes draining invasive breast carcinomas - immunohistochemical evidence of tumor-associated reactions of B-region and T-region

Wiedner, S.D.; Vedejs, E., 2012:
Reactivity of aziridinomitosene derivatives related to FK317 in the presence of protic nucleophiles

Tang, H.; Wu, C., 2014:
Reactivity of azole anions with CO₂ from the DFT perspective

Moya, R.; Saastamoinen, Päivi.; Hernández, M.; Suurnäkki, A.; Arias, E.; Mattinen, M-Liisa., 2012:
Reactivity of bacterial and fungal laccases with lignin under alkaline conditions

de Almeida, Nália.E.C.; Homem-de-Mello, P.; De Keukeleire, D.; Cardoso, D.R., 2011:
Reactivity of beer bitter acids toward the 1-hydroxyethyl radical as probed by spin-trapping electron paramagnetic resonance (EPR) and electrospray ionization-tandem mass spectrometry (ESI-MS/MS)

Gordon, C.G.; Mackey, J.L.; Jewett, J.C.; Sletten, E.M.; Houk, K.N.; Bertozzi, C.R., 2012:
Reactivity of biarylazacyclooctynones in copper-free click chemistry

Chakraborty, B.; Bhunya, S.; Paul, A.; Paine, T.Kanti., 2015:
Reactivity of biomimetic iron(II)-2-aminophenolate complexes toward dioxygen: mechanistic investigations on the oxidative C-C bond cleavage of substituted 2-aminophenols

Stewart, C.A.; Dickie, D.A.; Parkes, M.V.; Saria, J.A.; Kemp, R.A., 2010:
Reactivity of bis(2,2,5,5-tetramethyl-2,5-disila-1-azacyclopent-1-yl)tin with CO(2), OCS, and CS(2) and comparison to that of bis[bis(trimethylsilyl)amido]tin

Mukherjee, R.; Mondal, S.; Basak, A.; Mallick, D.; Jemmis, E.D., 2012:
Reactivity of bispropargyl sulfones under basic conditions: interplay between Garratt-Braverman and Schmittel/Myers-Saito cyclization pathway

Luria, O.; Bar, J.; Barnea, O.; Golan, A.; Kovo, M., 2012:
Reactivity of blood vessels in response to prostaglandin E2 in placentas from pregnancies complicated by fetal growth restriction

Johnson, A.L.; Davidson, M.G.; Mahon, M.F., 2007:
Reactivity of boranes with a titanium(IV) amine tris(phenolate) alkoxide complex; formation of a Ti(IV) tetrahydroborate complex, a Ti(III) dimer and a Ti(IV) hydroxide Lewis acid adduct

Krasowska, Młgorzata.; Bettinger, H.F., 2013:
Reactivity of borylenes toward ethyne, ethene, and methane

Dettenrieder, N.; Schädle, C.; Maichle-Mössmer, Cäcilia.; Anwander, R., 2014:
Reactivity of boryllithium with AlMe3, AlEt3, and GaMe3, including the synthesis of a lanthanum heterogallate complex

Radolovich, D.K.; Czosnyka, M.; Timofeev, I.; Lavinio, A.; Hutchinson, P.; Gupta, A.; Pickard, J.D.; Smielewski, P., 2009:
Reactivity of brain tissue oxygen to change in cerebral perfusion pressure in head injured patients

Seidl, M.; Schiffer, M.; Bodensteiner, M.; Timoshkin, A.Y.; Scheer, M., 2013:
Reactivity of bridged pentelidene complexes with isonitriles: a new way to pentel-containing heterocycles

Deacon, G.B.; Junk, P.C.; Wang, J.; Werner, D., 2014:
Reactivity of bulky formamidinatosamarium(II or III) complexes with C═O and C═S bonds

Itkis, D.M.; Semenenko, D.A.; Kataev, E.Yu.; Belova, A.I.; Neudachina, V.S.; Sirotina, A.P.; Hävecker, M.; Teschner, D.; Knop-Gericke, A.; Dudin, P.; Barinov, A.; Goodilin, E.A.; Shao-Horn, Y.; Yashina, L.V., 2013:
Reactivity of carbon in lithium-oxygen battery positive electrodes

Chin, Y-Huei.Cathy.; Buda, C.; Neurock, M.; Iglesia, E., 2011:
Reactivity of chemisorbed oxygen atoms and their catalytic consequences during CH4-O2 catalysis on supported Pt clusters

Lindgren, I.; Zoer, B.; Altimiras, J.; Villamor, E., 2011:
Reactivity of chicken chorioallantoic arteries, avian homologue of human fetoplacental arteries

Moss, R.A.; Wang, L.; Krogh-Jespersen, K., 2013:
Reactivity of chlorotrifluoromethylcarbene: activation parameters for halocarbene-alkene addition reactions

Köhn, R.D., 2007:
Reactivity of chromium complexes under spin control

Nguyen, A.; Mulyani, I.; Levina, A.; Lay, P.A., 2008:
Reactivity of chromium(III) nutritional supplements in biological media: an X-ray absorption spectroscopic study

Richter, S.N.; Menegazzo, I.; Nadai, M.; Moro, S.; Palumbo, M., 2009:
Reactivity of clerocidin towards adenine: implications for base-modulated DNA damage

Danset, D.; Manceron, L., 2005:
Reactivity of cobalt dimer and molecular oxygen in rare gas matrices. IR spectrum, photophysics and structure of Co2O2

Leyh, B.; Hautot, D., 1995:
Reactivity of collisionally activated dichlorocarbene dications studied by tandem mass spectrometry

Kyle, P.B.; Brown, K.B.; Bailey, A.P.; Stevenson, J.L., 2012:
Reactivity of commercial benzodiazepine immunoassays to phenazepam

Rosa, A.; Ricciardi, G., 2013:
Reactivity of compound II: electronic structure analysis of methane hydroxylation by oxoiron(IV) porphyrin complexes

Rivada-Wheelaghan, O.; Roselló-Merino, M.; Ortuño, M.A.; Vidossich, P.; Gutiérrez-Puebla, E.; Lledós, Aí.; Conejero, S., 2014:
Reactivity of coordinatively unsaturated bis(N-heterocyclic carbene) Pt(II) complexes toward H(2). Crystal structure of a 14-electron Pt(II) hydride complex

Benito-Garagorri, D.; Lagoja, I.; Veiros, L.F.; Kirchner, K.A., 2011:
Reactivity of coordinatively unsaturated iron complexes towards carbon monoxide: to bind or not to bind?

Tano, T.; Ertem, M.Z.; Yamaguchi, S.; Kunishita, A.; Sugimoto, H.; Fujieda, N.; Ogura, T.; Cramer, C.J.; Itoh, S., 2012:
Reactivity of copper(II)-alkylperoxo complexes

Babiloni, C.; Lizio, R.; Vecchio, F.; Frisoni, G.B.; Pievani, M.; Geroldi, C.; Claudia, F.; Ferri, R.; Lanuzza, B.; Rossini, P.M., 2011:
Reactivity of cortical alpha rhythms to eye opening in mild cognitive impairment and Alzheimer's disease: an EEG study

Stiefel, C.; Schwack, W., 2015:
Reactivity of cosmetic UV filters towards skin proteins: model studies with Boc-lysine, Boc-Gly-Phe-Gly-Lys-OH, BSA and gelatin

Naughton, J.; Lee, A.F.; Thompson, S.; Vinod, C.P.; Wilson, K., 2010:
Reactivity of crotonaldehyde and propene over Au/Pd(111) surfaces

Kuchenbeiser, G.; Soleilhavoup, M.; Donnadieu, B.; Bertrand, G., 2010:
Reactivity of cyclic (alkyl)(amino)carbenes (CAACs) and bis(amino)cyclopropenylidenes (BACs) with heteroallenes: comparisons with their N-heterocyclic carbene (NHCs) counterparts

Bower, J.F.; Williams, A.J.; Woodward, H.L.; Szeto, P.; Lawrence, R.M.; Gallagher, T., 2007:
Reactivity of cyclic sulfamidates towards phosphonate-stabilised enolates: synthesis and applications of alpha-phosphono lactams

Monadjemi, S.; Halle, A.Ter.; Richard, C., 2012:
Reactivity of cycloxydim toward singlet oxygen in solution and on wax film

Lin, G.; Jian, Y.; Dria, K.J.; Long, E.C.; Li, L., 2015:
Reactivity of damaged pyrimidines: DNA cleavage via hemiaminal formation at the C4 positions of the saturated thymine of spore photoproduct and dihydrouridine

D'Antonio, J.; Ghiladi, R.A., 2011:
Reactivity of deoxy- and oxyferrous dehaloperoxidase B from Amphitrite ornata: identification of compound II and its ferrous-hydroperoxide precursor

Cabeza, J.A.; García-Álvarez, P.; Polo, D., 2011:
Reactivity of diaminogermylenes with ruthenium carbonyl: Ru3Ge3 and RuGe2 derivatives

Broeckaert, L.; Frenking, G.; Geerlings, P.; De Proft, F., 2015:
Reactivity of dicoordinated stannylones (Sn0) versus stannylenes (SnII): an investigation using DFT-based reactivity indices

Chia, S-Peng.; Yeong, H-Xian.; So, C-Wai., 2011:
Reactivity of digermylenes toward potassium graphite: synthesis and characterization of germylidenide anions

Pithadia, A.S.; Kochi, A.; Soper, M.T.; Beck, M.W.; Liu, Y.; Lee, S.; DeToma, A.S.; Ruotolo, B.T.; Lim, M.Hee., 2013:
Reactivity of diphenylpropynone derivatives toward metal-associated amyloid-β species

Zhang, B.; Kawachi, E.; Matsunaga, A.; Imaizumi, S.; Noda, K.; Uehara, Y.; Miura, S-ichiro.; Yoshinaga, K.; Kuroki, M.; Saku, K., 2013:
Reactivity of direct assays for low-density lipoprotein (LDL) cholesterol toward charge-modified LDL in hypercholesterolemia

Anju, R.S.; Roy, D.Kumar.; Mondal, B.; Yuvaraj, K.; Arivazhagan, C.; Saha, K.; Varghese, B.; Ghosh, S., 2014:
Reactivity of diruthenium and dirhodium analogues of pentaborane(9): agostic versus boratrane complexes

Ferro, L.; Hitchcock, P.B.; Coles, M.P.; Fulton, J.Robin., 2012:
Reactivity of divalent germanium alkoxide complexes is in sharp contrast to the heavier tin and lead analogues

Kujala, M.V.; Törnqvist, H.; Somppi, S.; Hänninen, L.; Krause, C.M.; Vainio, O.; Kujala, J., 2013:
Reactivity of dogs' brain oscillations to visual stimuli measured with non-invasive electroencephalography

Dong, M.Mei.; Mezyk, S.P.; Rosario-Ortiz, F.L., 2010:
Reactivity of effluent organic matter (EfOM) with hydroxyl radical as a function of molecular weight

Wong, R.; Iwata, R.; Saiki, H.; Furumoto, S.; Ishikawa, Y.; Ozeki, E., 2012 :
Reactivity of electrochemically concentrated anhydrous [18F]fluoride for microfluidic radiosynthesis of 18F-labeled compounds

Bullock, J.P.; Carter, E.; Johnson, R.; Kennedy, A.T.; Key, S.E.; Kraft, B.J.; Saxon, D.; Underwood, P., 2008:
Reactivity of electrochemically generated rhenium (II) Tricarbonyl alpha-diimine complexes: a reinvestigation of the oxidation of luminescent Re(CO)3(alpha-Diimine)Cl and related compounds

Uranga, J.G.; Santiago, A.N., 2011:
Reactivity of endo-3-bromocamphor with sulfur-centered nucleophiles by an electron transfer mechanism. Electrophilic behaviour of the 3-camphoryl radical

Haruta, N.; Sato, T.; Tanaka, K., 2014:
Reactivity of endohedral metallofullerene la2@c80 in nucleophilic and electrophilic attacks: vibronic coupling density approach

Michel, F.Marc.; Hosein, H-Ann.; Hausner, D.B.; Debnath, S.; Parise, J.B.; Strongin, D.R., 2010:
Reactivity of ferritin and the structure of ferritin-derived ferrihydrite

Mukumoto, K.; Watanabe, S.; Nojima, T.; Waki, M.; Takenaka, S., 2007:
Reactivity of ferrocenylcarbodiimide with DNA duplex containing single-mismatched base pairs

Redondo, P.; Varela-Álvarez, Aán.; Rayón, Víctor.Manuel.; Largo, A.; Sordo, Jé.Ángel.; Barrientos, C., 2013:
Reactivity of first-row transition metal monocations (Sc+, Ti+, V+, Zn+) with methyl fluoride: a computational study

Plótár, V.; Szentirmay, Zán.; Orosz, Z., 2008:
Reactivity of five different antibodies with benign and malignant melanocytic lesions

Mancini, A.; Aragoni, M.Carla.; Bingham, A.L.; Castellano, C.; Coles, S.L.; Demartin, F.; Hursthouse, M.B.; Isaia, F.; Lippolis, V.; Maninchedda, G.; Pintus, A.; Arca, M., 2013:
Reactivity of fluoro-substituted bis(thiocarbonyl) donors with diiodine: an XRD, FT-Raman, and DFT investigation

Nkhili, E.; Loonis, Mèle.; Mihai, S.; El Hajji, H.; Dangles, O., 2015:
Reactivity of food phenols with iron and copper ions: binding, dioxygen activation and oxidation mechanisms

Yang, X.; Huang, S.; Jia, Z.; Xiao, Z.; Jiang, Z.; Zhang, Q.; Gan, L.; Zheng, B.; Yuan, G.; Zhang, S., 2008:
Reactivity of fullerene epoxide: preparation of fullerene-fused thiirane, tetrahydrothiazolidin-2-one, and 1,3-dioxolane

Li, M.; Hou, Y-Li.; Wen, L-Rong.; Gong, F-Meng., 2011:
Reactivity of functionalized N,S-ketene acetal: regioselective construction of tetrahydrobenzo[b]pyran and chromeno[2,3-b]quinoline derivatives

Zhou, L-Hong.; Yu, X-Qi.; Pu, L., 2010:
Reactivity of gamma-hydroxy-alpha,beta-acetylenic esters with amines: facile synthesis of the optically active 4-amino-2(5H)-furanones

Chan, C-Ching.; Axe, F.U.; Bolgar, M.; Attygalle, A.B., 2011:
Reactivity of gaseous sodiated ions derived from benzene dicarboxylate salts toward residual water in the collision gas

Jana, A.; Roesky, H.W.; Schulzke, C., 2009:
Reactivity of germanium(II) hydride with nitrous oxide, trimethylsilyl azide, ketones, and alkynes and the reaction of a methyl analogue with trimethylsilyl diazomethane

Navati, M.S.; Friedman, J.M., 2009:
Reactivity of glass-embedded met hemoglobin derivatives toward external NO: implications for nitrite-mediated production of bioactive NO

Yokota, A.; Kitaoka, S.; Miura, K.; Wadano, A., 1985:
Reactivity of glyoxylate with hydrogen perioxide and simulation of the glycolate pathway of C3 plants and Euglena

Chen, Y.; Milenkovic, S.; Hassel, A.Walter., 2010:
Reactivity of gold nanobelts with unique {110} facets

Rodríguez-Castillo, Mía.; Laurencin, D.; Tielens, F.; van der Lee, A.; Clément, Sébastien.; Guari, Y.; Richeter, Sébastien., 2014:
Reactivity of gold nanoparticles towards N-heterocyclic carbenes

Nguyen, M-Thuong., 2014:
Reactivity of graphene and hexagonal boron nitride in-plane heterostructures with oxygen: a DFT study

Miyajima, K.; Fukushima, N.; Mafuné, F., 2009:
Reactivity of group 5 bielement clusters with H2

Moya-Barrios, R.; Fregeau, B.M.; Cozens, F.L., 2009:
Reactivity of halo(pyridinium)carbenes

Choi, C-Jin.; Kim, K-Soo.; Kim, C-Min.; Kim, S-Hong.; Choi, W-Seok., 2011:
Reactivity of heart rate variability after exposure to colored lights in healthy adults with symptoms of anxiety and depression

Wasiński, B.; Pejsak, Z., 2012:
Reactivity of heat-stable Leptospira antigenic preparation used in enzyme-linked immunosorbent assay for detection of antibodies in swine serum

Wu, L.; Eichele, T.; Calhoun, V.D., 2010:
Reactivity of hemodynamic responses and functional connectivity to different states of alpha synchrony: a concurrent EEG-fMRI study

Aouissi, A.; Al-Othman, Z.Abdullah.; Al-Anezi, H., 2010:
Reactivity of heteropolymolybdates and heteropolytungstates in the cationic polymerization of styrene

Aouissi, A.; Al-Deyab, S.S.; Al-Owais, A.; Al-Amro, A., 2010:
Reactivity of heteropolytungstate and heteropolymolybdate metal transition salts in the synthesis of dimethyl carbonate from methanol and CO₂

Paul, L.E.H.; Therrien, B.; Furrer, J., 2015:
Reactivity of hexanuclear ruthenium metallaprisms towards nucleotides and a DNA decamer

Shaik, S.; Hirao, H.; Kumar, D., 2007:
Reactivity of high-valent iron-oxo species in enzymes and synthetic reagents: a tale of many states

Nobusawa, E.; Omagari, K.; Nakajima, S.; Nakajima, K., 2012:
Reactivity of human convalescent sera with influenza virus hemagglutinin protein mutants at antigenic site A

Chu, E.H.; Stjernswärd, J.; Clifford, P.; Klein, G., 1967:
Reactivity of human lymphocytes against autochthonous and allogeneic normal and tumor cells in vitro

Soares, S.; Vitorino, R.; Osório, H.; Fernandes, A.; Venâncio, A.; Mateus, N.; Amado, F.; de Freitas, V., 2011:
Reactivity of human salivary proteins families toward food polyphenols

van der Linde, C.; Hemmann, S.; Höckendorf, R.F.; Balaj, O.Petru.; Beyer, M.K., 2013:
Reactivity of hydrated monovalent first row transition metal ions M(+)(H2O)n, M = V, Cr, Mn, Fe, Co, Ni, Cu, Zn, toward molecular oxygen, nitrous oxide, and carbon dioxide

Acha, F.; Ciganda, R.; Garralda, Mía.A.; Hernández, R.; Ibarlucea, L.; Pinilla, E.; Rosario Torres, M., 2008:
Reactivity of hydridoirida-beta-diketones with bases: the selective formation of new di-mu-acyl-mu-hydridodiiridium(III) or dihydridoirida-beta-diketone complexes and heterometallic Ir(III)-Rh(I) derivatives

Carballal, Sán.; Trujillo, M.; Cuevasanta, E.; Bartesaghi, S.; Möller, Mías.N.; Folkes, L.K.; García-Bereguiaín, M.A.; Gutiérrez-Merino, C.; Wardman, P.; Denicola, A.; Radi, R.; Alvarez, B., 2011:
Reactivity of hydrogen sulfide with peroxynitrite and other oxidants of biological interest

Ibañez, F.J.; Zamborini, F.P., 2007:
Reactivity of hydrogen with solid-state films of alkylamine- and tetraoctylammonium bromide-stabilized Pd, PdAg, and PdAu nanoparticles for sensing and catalysis applications

Miyamoto, K.; Yokota, Y.; Suefuji, T.; Yamaguchi, K.; Ozawa, T.; Ochiai, M., 2015:
Reactivity of hydroxy- and aquo(hydroxy)-λ3-iodane-crown ether complexes

Dell'arciprete, Mía.L.; Santos-Juanes, L.; Sanz, A.Arques.; Vicente, R.; Amat, A.M.; Furlong, J.P.; Mártire, D.O.; Gonzalez, Mónica.C., 2009:
Reactivity of hydroxyl radicals with neonicotinoid insecticides: mechanism and changes in toxicity

Baseggio Conrado, A.; D'Angelantonio, M.; Torreggiani, A.; Pecci, L.; Fontana, M., 2015:
Reactivity of hypotaurine and cysteine sulfinic acid toward carbonate radical anion and nitrogen dioxide as explored by the peroxidase activity of Cu,Zn superoxide dismutase and by pulse radiolysis

Skazik, C.; Grannemann, S.; Wilbers, L.; Merk, H.F.; Coenraads, P-Jan.; Breuer, S.; Blömeke, B., 2008:
Reactivity of in vitro activated human T lymphocytes to p-phenylenediamine and related substances

Wuttig, K.; Heller, M.I.; Croot, P.L., 2014:
Reactivity of inorganic Mn and Mn desferrioxamine B with O2, O2(-), and H2O2 in seawater

Watzka, S.B.; Setinek, U.; Huber, M.; Cantonati, H.; Lax, F.; Watson, S.; Weigel, Günter.; Müller, M.R., 2007:
Reactivity of integrin-linked kinase in human mesothelial cell proliferation

Chen, Y.; Deng, C.; Kuang, S.; Ma, J.; Zhao, G.; Zhang, G.; Cui, J., 2014:
Reactivity of intrapulmonary arterial rings to thromboxane A2 and endothelin-1 is reduced in patients with chronic obstructive pulmonary disease

Krasnokutski, S.A.; Huisken, F., 2014:
Reactivity of iron atoms at low temperature

Oztopcu, Oür.; Stöger, B.; Mereiter, K.; Kirchner, K., 2013:
Reactivity of iron complexes containing monodentate aminophosphine ligands - Formation of four-membered carboxamido-phospha-metallacycles

Montenegro, A.C.; Bari, S.E.; Olabe, Jé.A., 2013:
Reactivity of iron(II)-bound nitrosyl hydride (HNO, nitroxyl) in aqueous solution

Tarnovsky, A.N.; Pascher, I.; Pascher, Törn., 2007:
Reactivity of iso-diiodomethane and iso-iodoform, isomers of CH2I2 and CHI3, toward the double bond of a variety of cycloalkenes

Ghizzoni, M.; Haisma, H.J.; Dekker, F.J., 2010:
Reactivity of isothiazolones and isothiazolone-1-oxides in the inhibition of the PCAF histone acetyltransferase

Petruzzella, E.; Margiotta, N.; Natile, G.; Hoeschele, J.D., 2015:
Reactivity of kiteplatin with S-donor biomolecules and nucleotides

Darko-Kagya, K.; Khodadoust, A.P.; Reddy, K.R., 2010:
Reactivity of lactate-modified nanoscale iron particles with 2,4-dinitrotoluene in soils

Yao, X.; Andrews, D.; Hill, B.C., 2014:
Reactivity of ligand-swapped mutants of the SCO protein from Bacillus subtilis. Isomers of the CCH metal binding motif

Shimizu, S.; Yokoyama, T.; Akiyama, T.; Matsumoto, Y., 2012:
Reactivity of lignin with different composition of aromatic syringyl/guaiacyl structures and erythro/threo side chain structures in β-O-4 type during alkaline delignification: as a basis for the different degradability of hardwood and softwood lignin

Benda, C.B.; Waibel, M.; Köchner, T.; Fässler, T.F., 2014:
Reactivity of liquid ammonia solutions of the Zintl phase K12Sn17 towards mesitylcopper(I) and phosphinegold(I) chloride

Wang, B.; O'Brien, R.E.; Kelly, S.T.; Shilling, J.E.; Moffet, R.C.; Gilles, M.K.; Laskin, A., 2016:
Reactivity of liquid and semisolid secondary organic carbon with chloride and nitrate in atmospheric aerosols

Chlupatý, Táš.; Padělková, Zňka.; Lyčka, Aín.; Brus, Jří.; Růžička, Aš., 2012:
Reactivity of lithium n-butyl amidinates towards group 14 metal(II) chlorides providing series of hetero- and homoleptic tetrylenes

Chow, A.T.; O'Geen, A.T.; Dahlgren, R.A.; Díaz, F.J.; Wong, K-Hang.; Wong, P-Keung., 2011:
Reactivity of litter leachates from California oak woodlands in the formation of disinfection by-products

Kudanga, T.; Prasetyo, E.Nugroho.; Sipilä, J.; Guebitz, G.M.; Nyanhongo, G.S., 2010:
Reactivity of long chain alkylamines to lignin moieties: implications on hydrophobicity of lignocellulose materials

Gidron, O.; Shimon, L.J.W.; Leitus, G.; Bendikov, M., 2012:
Reactivity of long conjugated systems: selectivity of Diels-Alder cycloaddition in oligofurans

French, D.P.; Sutton, S., 2010:
Reactivity of measurement in health psychology: how much of a problem is it? What can be done about it?

Niu, Q.; Sun, H.; Wang, L.; Hu, Q.; Li, X., 2014:
Reactivity of mer-hydrido(2-mercaptobenzoyl)tris(trimethylphosphine)cobalt(III) complex

Loerbroks, C.; van Rijn, J.; Ruby, M-Philipp.; Tong, Q.; Schüth, F.; Thiel, W., 2015:
Reactivity of metal catalysts in glucose-fructose conversion

Lousada, Cáudio.M.; Johansson, A.Johannes.; Brinck, T.; Jonsson, M., 2013:
Reactivity of metal oxide clusters with hydrogen peroxide and water--a DFT study evaluating the performance of different exchange-correlation functionals

Li, F-Fang.; Rodríguez-Fortea, A.; Poblet, J.M.; Echegoyen, L., 2011:
Reactivity of metallic nitride endohedral metallofullerene anions: electrochemical synthesis of a Lu3N@Ih-C80 derivative

Falfushynska, H.I.; Romanchuk, L.D.; Stoliar, O.B., 2011:
Reactivity of metallothioneins of frog Rana ridibunda treated by copper and zinc ions

Rünzi, T.; Guironnet, D.; Göttker-Schnetmann, I.; Mecking, S., 2010:
Reactivity of methacrylates in insertion polymerization

Thallaj, N.K.; Rotthaus, O.; Benhamou, L.; Humbert, N.; Elhabiri, M.; Lachkar, M.; Welter, R.; Albrecht-Gary, A-Marie.; Mandon, D., 2008:
Reactivity of molecular dioxygen towards a series of isostructural dichloroiron(III) complexes with tripodal tetraamine ligands: general access to mu-oxodiiron(III) complexes and effect of alpha-fluorination on the reaction kinetics

Tan, C.; Rodríguez-López, Jín.; Parks, J.J.; Ritzert, N.L.; Ralph, D.C.; Abruña, Héctor.D., 2012:
Reactivity of monolayer chemical vapor deposited graphene imperfections studied using scanning electrochemical microscopy

Dell'anna, M.Michela.; Mastrorilli, P.; Nobile, C.Francesco.; Calmuschi-Cula, B.; Englert, U.; Peruzzini, M., 2008:
Reactivity of mononuclear Pd(ii) and Pt(ii) complexes containing the primary phosphane (ferrocenylmethyl)phosphane towards metal chlorides and PPh(3)

Kunishita, A.; Ishimaru, H.; Nakashima, S.; Ogura, T.; Itoh, S., 2008:
Reactivity of mononuclear alkylperoxo copper(II) complex. O-O bond cleavage and C-H bond activation

Vecchio, D.; Arezzini, B.; Pecorelli, A.; Valacchi, G.; Martorana, P.A.; Gardi, C., 2011:
Reactivity of mouse alveolar macrophages to cigarette smoke is strain dependent

Gómez-Bombarelli, R.; González-Pérez, M.; Calle, E.; Casado, J., 2011:
Reactivity of mucohalic acids in water

Lucas, I.T.; Dubois, E.; Chevalet, J.; Durand-Vidal, S.; Joiret, S., 2008:
Reactivity of nanocolloidal particles gamma-Fe2O3 at charged interfaces. Part 2. Electrochemical conversion. Role of the electrode material

Lucas, I.T.; Dubois, E.; Chevalet, J.; Durand-Vidal, S., 2008:
Reactivity of nanocolloidal particles gamma-Fe2O3 at the charged interfaces. Part 1. The approach of particles to an electrode

Benhaddad, L.; Makhloufi, L.; Messaoudi, B.; Rahmouni, K.; Takenouti, H., 2009:
Reactivity of nanostructured MnO(2) in alkaline medium studied with a micro-cavity electrode: effect of synthesizing temperature

Dell'Arciprete, Mía.Laura.; Soler, Ján.M.; Santos-Juanes, L.; Arques, A.; Mártire, D.O.; Furlong, J.P.; Gonzalez, Mónica.C., 2012:
Reactivity of neonicotinoid insecticides with carbonate radicals

Pérez Pla, F.; Cervilla, A.; Piles, Mía.; Llopis, E., 2009:
Reactivity of neutral Mo(S2C6H4)3 in aqueous media: an alternative functional model of sulfite oxidase

Slough, W.J.; Kandalam, A.K.; Pandey, R., 2010:
Reactivity of neutral and charged B13 clusters with O2: a theoretical study

Das, O.; Zangrando, E.; Paine, T.Kanti., 2011:
Reactivity of nickel(II) and copper(II) complexes of a β-aminohydrazone ligand with pyridine-2-aldehyde: macrocyclization vs unprecedented pyrazole ring synthesis via C-C bond-forming reaction

Marchetti, F.; Pampaloni, G.; Zacchini, S., 2007:
Reactivity of niobium and tantalum pentahalides with cyclic ethers and the isolation and characterization of intermediates in the polymerization of tetrahydrofuran

Marchetti, F.; Pampaloni, G.; Zacchini, S., 2007:
Reactivity of niobium(v) and tantalum(v) halides with carbonyl compounds: synthesis of simple coordination adducts, C-H bond activation, C=O protonation, and halide transfer

Miyajima, K.; Fukushima, N.; Mafuné, F., 2008:
Reactivity of niobium-carbon cluster ions with hydrogen molecules in relation to formation mechanism of Met-Car cluster ions

Duan, X.; Yang, J.; Ren, B.; Tan, G.; Ding, H., 2008:
Reactivity of nitric oxide with the [4Fe-4S] cluster of dihydroxyacid dehydratase from Escherichia coli

Man, W-Lun.; Lam, W.W.Y.; Lau, T-Chu., 2013:
Reactivity of nitrido complexes of ruthenium(VI), osmium(VI), and manganese(V) bearing Schiff base and simple anionic ligands

Keceli, G.; Toscano, J.P., 2012:
Reactivity of nitroxyl-derived sulfinamides

Passarelli, V.; Benetollo, F., 2011:
Reactivity of novel N,N'-diphosphino-silanediamine-based rhodium(I) derivatives

Rodríguez-Muñiz, G.M.; Marin, M.Luisa.; Lhiaubet-Vallet, V.; Miranda, M.A., 2012:
Reactivity of nucleosides with a hydroxyl radical in non-aqueous medium

Sage, A.M.; Weitkamp, E.A.; Robinson, A.L.; Donahue, N.M., 2009:
Reactivity of oleic acid in organic particles: changes in oxidant uptake and reaction stoichiometry with particle oxidation

Morawetz, H., 1966:
Reactivity of organic crystals

Langeslay, R.R.; Walensky, J.R.; Ziller, J.W.; Evans, W.J., 2014 :
Reactivity of organothorium complexes with TEMPO

Vicente, Jé.; Abad, Jé-Antonio.; López-Sáez, Mía-José.; Jones, P.G.; Bautista, D., 2009:
Reactivity of ortho-substituted aryl-palladium complexes towards carbodiimides, isothiocyanates, nitriles, and cyanamides

Pack, S.Pil.; Kamisetty, N.Kumar.; Nonogawa, M.; Kodaki, T.; Makino, K., 2008:
Reactivity of oxanine: efficient fabrication of DNA microarray by using oxanine-containing DNA oligomer as probe molecule

Tian, L-Hua.; Meng, J-Heng.; Wu, X-Nan.; Zhao, Y-Xia.; Ding, X-Lei.; He, S-Gui.; Ma, T-Mei., 2013:
Reactivity of oxygen radical anions bound to scandia nanoparticles in the gas phase: C-H bond activation

González-Pérez, M.; Gómez-Bombarelli, R.; Pérez-Prior, M.Teresa.; Manso, Jé.A.; Céspedes-Camacho, I.F.; Calle, E.; Casado, J., 2012:
Reactivity of p-nitrostyrene oxide as an alkylating agent. A kinetic approach to biomimetic conditions

Dinis-Oliveira, R.Jorge.; de Pinho, P.Guedes.; Ferreira, Aónio.César.Silva.; Silva, A.M.S.; Afonso, C.; Bastos, M.de.Lourdes.; Remião, F.; Duarte, Jé.Alberto.; Carvalho, Félix., 2008:
Reactivity of paraquat with sodium salicylate: formation of stable complexes

Borca, B.; Calleja, F.; Hinarejos, J.J.; Vázquez de Parga, A.L.; Miranda, R., 2009:
Reactivity of periodically rippled graphene grown on Ru(0001)

Aragoni, M.Carla.; Arca, M.; Coles, S.L.; Devillanova, F.A.; Hursthouse, M.B.; Isaia, F.; Lippolis, V., 2012:
Reactivity of phosphonodithioato-dppt Ni(II) mixed ligand complexes with halogens: first example of a metal-coordinating tribromide anion

Ghilane, J.; Guilloux-Viry, M.; Lagrost, C.; Simonet, J.; Hapiot, P., 2007:
Reactivity of platinum metal with organic radical anions from metal to negative oxidation states

Wu, Z.; Liu, Q.; Liang, X.; Yang, X.; Wang, N.; Wang, X.; Sun, H.; Lu, Y.; Guo, Z., 2010:
Reactivity of platinum-based antitumor drugs towards a Met- and His-rich 20mer peptide corresponding to the N-terminal domain of human copper transporter 1

Hoffmann, D.; Weigert, B.; Barzaghi, P.; Herrmann, H., 2009:
Reactivity of poly-alcohols towards OH, NO3 and SO4- in aqueous solution

Gorbunova, T.I.; Subbotina, J.O.; Saloutin, V.I.; Chupakhin, O.N., 2015:
Reactivity of polychlorinated biphenyls in nucleophilic and electrophilic substitutions

Nielsen, T., 1984:
Reactivity of polycyclic aromatic hydrocarbons towards nitrating species

Sun, B.; de Sá, M.; Leandro, Cção.; Caldeira, I.; Duarte, F.L.; Spranger, I., 2014:
Reactivity of polymeric proanthocyanidins toward salivary proteins and their contribution to young red wine astringency

Shishilov, O.N.; Akhmadullina, N.S.; Rezinkova, Y.N.; Podobedov, R.E.; Churakov, A.V.; Efimenko, I.A., 2013:
Reactivity of polynuclear palladium carboxylate complexes towards acetonitrile: synthesis and X-ray study of Pd2(C6H4-o-C(=NH)CH3)2(CH3CO2)2 and Pd5(CH3C(=N)OC(=N)CH3)(NO)(NO2)x(RCO2)7-x

Li, S-Jun.; Liu, S-Xia.; Li, C-Cong.; Ma, F-Ji.; Liang, D-Dong.; Zhang, W.; Tan, R-Kang.; Zhang, Y-Yuan.; Xu, L., 2010:
Reactivity of polyoxoniobates in acidic solution: controllable assembly and disassembly based on niobium-substituted germanotungstates

De Robertis, A.; Bellomo, A., 1983:
Reactivity of potassium tetracyanomercurate with Ag(I), Ni(II) And Co(II)

Adcock, R.J.; Nguyen, D.Hanh.; Ladeira, S.; Le Berre, C.; Serp, P.; Kalck, P., 2012:
Reactivity of rhodium(I) complexes bearing nitrogen-containing ligands toward CH3I: synthesis and full characterization of neutral cis-[RhX(CO)2(L)] and acetyl [RhI(μ-I)(COMe)(CO)(L)]2 complexes

Sues, P.E.; Lough, A.J.; Morris, R.H., 2014:
Reactivity of ruthenium phosphido species generated through the deprotonation of a tripodal phosphine ligand and implications for hydrophosphination

Sung, H-Ling.; Her, T-Min.; Su, W-Hsien.; Cheng, C-Pao., 2013:
Reactivity of ruthenium vinylidene complexes containing indenyl/dppe ligands and unsaturated bonds at Cδ with trimethylsilyl azide

Lu, E.; Zhou, Q.; Li, Y.; Chu, J.; Chen, Y.; Leng, X.; Sun, J., 2012:
Reactivity of scandium terminal imido complexes towards metal halides

Perrine, K.A.; Teplyakov, A.V., 2010:
Reactivity of selectively terminated single crystal silicon surfaces

Pihko, E.; Nevalainen, Päivi.; Vaalto, S.; Laaksonen, K.; Mäenpää, H.; Valanne, L.; Lauronen, L., 2015:
Reactivity of sensorimotor oscillations is altered in children with hemiplegic cerebral palsy: A magnetoencephalographic study

Quismorio, F.P.; Kaufman, R.L.; Beardmore, T.; Mongan, E.S., 2008:
Reactivity of serum antibodies to the keratin layer of rat esophagus in patients with rheumatoid arthritis

Liu, C.; Qiang, Z-min.; Tian, F.; Zhang, T., 2009:
Reactivity of several classes of pesticides with UV, ozone and permanganate

Skonieczny, J.; Latos-Grazyński, Lław.; Szterenberg, Lła., 2008:
Reactivity of silole within a core-modified porphyrin environment: synthesis of 21-silaphlorin and its conversion to carbacorrole

Luo, Z.; Gamboa, G.U.; Jia, M.; Reber, A.C.; Khanna, S.N.; Castleman, A.W., 2014 :
Reactivity of silver clusters anions with ethanethiol

Barluenga, Jé.; Lonzi, G.; Tomás, M.; López, L.A., 2012:
Reactivity of stabilized vinyl diazo derivatives toward unsaturated hydrocarbons: regioselective gold-catalyzed carbon-carbon bond formation

Tyo, E.C.; Nossler, M.; Mitrić, R.; Bonačić-Koutecký, V.; Castleman, A.W., 2011:
Reactivity of stoichiometric titanium oxide cations

Iwaszuk, A.; Nolan, M., 2011:
Reactivity of sub 1 nm supported clusters: (TiO2)n clusters supported on rutile TiO2 (110)

Kutala, V.Kumar.; Villamena, F.A.; Ilangovan, G.; Maspoch, D.; Roques, N.; Veciana, J.; Rovira, Có.; Kuppusamy, P., 2007:
Reactivity of superoxide anion radical with a perchlorotriphenylmethyl (trityl) radical

Durand, Gégory.; Choteau, F.; Pucci, B.; Villamena, F.A., 2008:
Reactivity of superoxide radical anion and hydroperoxyl radical with alpha-phenyl-N-tert-butylnitrone (PBN) derivatives

Wang, W.; Hunger, M., 2008:
Reactivity of surface alkoxy species on acidic zeolite catalysts

Bordiga, S.; Groppo, E.; Agostini, G.; van Bokhoven, J.A.; Lamberti, C., 2013:
Reactivity of surface species in heterogeneous catalysts probed by in situ X-ray absorption techniques

Nunige, S.; Cornut, R.; Hazimeh, H.; Hauquier, F.; Lefrou, C.; Combellas, C.; Kanoufi, Fédéric., 2012:
Reactivity of surfaces determined by local electrochemical triggering: a bromo-terminated self-assembled monolayer

Lourenço, A.; Gominho, J.; Marques, Aónio.Velez.; Pereira, H., 2013:
Reactivity of syringyl and guaiacyl lignin units and delignification kinetics in the kraft pulping of Eucalyptus globulus wood using Py-GC-MS/FID

Streubel, R.; Franco, Jé.Manuel.Villalba.; Schnakenburg, G.; Ferao, A.Espinosa., 2012:
Reactivity of terminal phosphinidene versus Li-Cl phosphinidenoid complexes in cycloaddition chemistry

Stout, G.W., 2018:
Reactivity of tests using cardiolipin antigens in a limited number of nonsyphilitic cases

Xu, Z-Wei.; Han, L.; Ji, C.; Zhang, R.; Shen, X-Jie.; Yan, H., 2011:
Reactivity of the 16e (p-cymene)Ru half-sandwich complex containing a chelating 1,2-dicarba-closo-dodecaborane-1,2-dithiolate ligand towards diynes

Ye, H-De.; Ding, G-Yu.; Xie, M-Shi.; Li, Y-Zhi.; Yan, H., 2010:
Reactivity of the 16e Cp*Co half-sandwich complex containing a chelating 1,2-dicarba-closo-dodecaborane-1,2-dithiolate ligand towards alkynes

Jankiewicz, Błomiej.J.; Reece, J.N.; Vinueza, N.R.; Nash, J.J.; Kenttämaa, H.I., 2008:
Reactivity of the 3,4,5-tridehydropyridinium cation--an aromatic sigma,sigma,sigma-triradical

Vinueza, N.R.; Archibold, E.F.; Jankiewicz, Błomiej.J.; Gallardo, V.A.; Habicht, S.C.; Aqueel, M.Sabir.; Nash, J.J.; Kenttämaa, H.I., 2012:
Reactivity of the 4,5-didehydroisoquinolinium cation

de Castro, S.; Peromingo, M.Teresa.; Lozano, A.E.; Camarasa, Mía-José.; Velázquez, S., 2008:
Reactivity of the 4-amino-5H-1,2-oxathiole-2,2-dioxide heterocyclic system: a combined experimental and theoretical study

Hoffmann, B.R.; Annis, D.S.; Mosher, D.F., 2011:
Reactivity of the N-terminal region of fibronectin protein to transglutaminase 2 and factor XIIIA

Marouani, S.; Bahri, M.; Batis, H.; Hochlaf, M., 2009 :
Reactivity of the NO dimer: on the role of the triplet electronic states

Pang, K.; Tanski, J.M.; Parkin, G., 2008:
Reactivity of the Ni-->B dative sigma-bond in the nickel boratrane compounds [kappa4-B(mimBut)3]NiX (X=Cl, OAc, NCS, N3): synthesis of a series of B-functionalized tris(2-mercapto-1-tert-butylimidazolyl)borato complexes, [YTmBut)]NiZ

Shpakov, A.O.; Kuznetsova, L.A.; Plesneva, S.A.; Pertseva, M.N., 2007:
Reactivity of the adenylyl cyclase system in rat tissues to biogenic amines and peptide hormones under starvation condition

Alvarez, M.Angeles.; García, M.Esther.; García-Vivó, D.; Ramos, A.; Ruiz, M.A., 2012:
Reactivity of the anionic diphosphorus complex [Mo2Cp2(μ-PCy2)(CO)2(μ-κ2:κ2-P2)]- toward ER3X electrophiles (E = C to Pb): insights into the multisite donor ability and dynamics of the P2 ligand

Alvarez, M.Angeles.; García, M.Esther.; García-Vivó, D.; Lozano, R.; Ramos, A.; Ruiz, M.A., 2013:
Reactivity of the anionic diphosphorus complex [Mo2Cp2(μ-PCy2)(μ-κ(2):κ(2)-P2)(CO)2]- toward phosphorus- and transition metal-based electrophiles

Lopes, Lís.M.F.; Kopylovich, M.N.; Pombeiro, A.L.; Ilharco, L.M., 2012:
Reactivity of the antitumor complex (H2trz)[trans-RuCl4(N2-Htrz)2] in the presence of DNA purines within a fluorinated silica matrix

Nikolaev, I., 2014:
Reactivity of the autonomic nervous system in influenza

Bailey, C.L.; Mukhopadhyay, S.; Wander, A.; Searle, B.G.; Carr, J.M.; Harrison, N.M., 2010:
Reactivity of the beta-AlF(3)(100) surface: defects, fluorine mobility and catalysis of the CCl(2)F(2) dismutation reaction

Son, J-Ho.; Pudenz, M.A.; Hoefelmeyer, J.D., 2010:
Reactivity of the bifunctional ambiphilic molecule 8-(dimesitylboryl)quinoline: hydrolysis and coordination to Cu(I), Ag(I) and Pd(II)

Chalupský, J.; Rokob, T.András.; Kurashige, Y.; Yanai, T.; Solomon, E.I.; Rulíšek, Lír.; Srnec, M., 2015:
Reactivity of the binuclear non-heme iron active site of Δ⁹ desaturase studied by large-scale multireference ab initio calculations

Pamplin, C.B.; Rettig, S.J.; Patrick, B.O.; James, B.R., 2011:
Reactivity of the bridged-sulfide complex Pd2Cl2(μ-S)(μ-dmpm)2 toward electrophiles

Maslov, M.S., 2018:
Reactivity of the child organism according to Pavlovian theory

Takeuchi, K.; Ichinohe, M.; Sekiguchi, A., 2008:
Reactivity of the disilyne RSi[triple bond]SiR (R = Si(i)Pr[CH(SiMe3)2]2) toward silylcyanide: two pathways to form the bis-adduct [RSiSiR(CNSiMe3)2] with some silaketenimine character and a 1,4-diaza-2,3-disilabenzene analogue

Taber, E., 2011:
Reactivity of the gonads of light-brown leghorn chicks to pregnant mare serum gonadotropin

Shurligina, A.V.; Dushkin, M.I.; Melnikova, E.V.; Panteleeva, N.G.; Tenditnik, M.V.; Chrapova, M.V.; Trufakin, V.A., 2014:
Reactivity of the immune system and activities of PPARα and PPARγ in the liver under conditions of LPS-induced acute inflammatory response in hypertensive ISIAH rats

Rougier, N.M.; Vico, R.V.; de Rossi, R.H.; Buján, E.I., 2010:
Reactivity of the insecticide fenitrothion toward O and N nucleophiles

Townsend, N.S.; Chaplin, A.B.; Abu Naser, M.; Thompson, A.L.; Rees, N.H.; Macgregor, S.A.; Weller, A.S., 2010:
Reactivity of the latent 12-electron fragment [Rh(PiBu3)2]+ with aryl bromides: aryl-Br and phosphine ligand C-H activation

Puzserova, A.; Torok, J.; Sotnikova, R.; Zemancikova, A.; Bernatova, I., 2013:
Reactivity of the mesenteric bed arteries of normotensive rats exposed to chronic social stress

Pérez-Prior, M.Teresa.; Gómez-Bombarelli, R.; González-Pérez, M.; Manso, Jé.A.; García-Santos, M.Pilar.; Calle, E.; Casado, J., 2010:
Reactivity of the mutagen 1,4-dinitro-2-methylpyrrole as an alkylating agent

Ferrari, A.Maria.; Pisani, C., 2008:
Reactivity of the non stoichiometric Ni3O4 phase supported at the Pd(100) surface: interaction with Au and other transition metal atoms

Shirokov, S.F., 2014:
Reactivity of the organism to infectious diseases in children

Singh, S.Kumar.; Sharma, S.; Dwivedi, S.Dhar.; Zou, R-Qiang.; Xu, Q.; Pandey, D.Shankar., 2008:
Reactivity of the oxime/oximato group in ruthenium(II) complexes

Latronico, M.; Sánchez, S.; Rizzuti, A.; Gallo, V.; Polini, F.; Lalinde, E.; Mastrorilli, P., 2012:
Reactivity of the phosphinito bridged Pt(I) complex [(PHCy2)Pt(μ-PCy2){κ2P,O-μ-P(O)Cy2}Pt(PHCy2)](Pt-Pt) towards Au(I) and Ag(I) electrophiles

Medvedev, I.N.; Nikishina, N.A., 2012:
Reactivity of the right and left hemispheres in 3.5-5-year-old children with different attention efficiency

Tsvetkov, N.P.; Andino, Jé.G.; Fan, H.; Verat, A.Y.; Caulton, K.G., 2013:
Reactivity of the terminal oxo species (((t)Bu2PCH2SiMe2)2N)RhO

Jones, A.C.; Sanders, A.W.; Sikorski, W.H.; Jansen, K.L.; Reich, H.J., 2008:
Reactivity of the triple ion and separated ion pair of tris(trimethylsilyl)methyllithium with aldehydes: a RINMR study

Cooper, O.J.; Mills, D.P.; Lewis, W.; Blake, A.J.; Liddle, S.T., 2014:
Reactivity of the uranium(IV) carbene complex [U(BIPM(TMS))(Cl)(μ-Cl)₂Li(THF)₂] (BIPM(TMS) = {C(PPh₂NSiMe₃)₂}) towards carbonyl and heteroallene substrates: metallo-Wittig, adduct formation, C-F bond activation, and [2 + 2]-cycloaddition reactions

Delferro, M.; Pattacini, R.; Cauzzi, D.; Graiff, C.; Terenghi, M.; Predieri, G.; Tiripicchio, A., 2009:
Reactivity of the zwitterionic ligand EtNHC(S)Ph2P[double bond, length as m-dash]NPPh2C(S)NEt towards [Ru3(CO)12]. Sulfur transfer and ligand fragmentation leading to the methideylamide [-N(Et)-CH(R)-] micro3-bridging moiety

Szabó, Z.; Grenthe, I., 2007:
Reactivity of the "yl"-bond in uranyl(VI) complexes. 1. Rates and mechanisms for the exchange between the trans-dioxo oxygen atoms in (UO2)2(OH)2 2+ and mononuclear UO2(OH)n 2-n complexes with solvent water

Pfeifer, Y.V.; Haase, P.T.; Kroh, L.W., 2013:
Reactivity of thermally treated α-dicarbonyl compounds

Cheng, Z.; Zhang, J.; Ballou, D.P.; Williams, C.H., 2012:
Reactivity of thioredoxin as a protein thiol-disulfide oxidoreductase

López-Torres, E.; Dilworth, J.R., 2009:
Reactivity of thiosemicarbazides with redox active metal ions: controlled formation of coordination complexes versus heterocyclic compounds

Pugh, T.; Layfield, R.A., 2013:
Reactivity of three-coordinate iron-NHC complexes towards phenylselenol and lithium phenylselenide

Nomura, A.; Okamoto, A., 2008:
Reactivity of thymine doublet in single strand DNA with osmium reagent

Nowotny, J.; Bak, T.; Sheppard, L.R.; Nowotny, M.K., 2008:
Reactivity of titanium dioxide with oxygen at room temperature and the related charge transfer

Scheer, M.; Himmel, D.; Kuntz, C.; Zhan, S.; Leiner, E., 2008:
Reactivity of transition metal-phosphorus triple bonds towards triply bonded [{CpMo(CO)2}2]: formation of heteronuclear cluster compounds

Mari, X.; Migon, C.; Nicolas, E., 2010:
Reactivity of transparent exopolymeric particles: a key parameter of trace metal cycling in the lagoon of Nouméa, New Caledonia

Uddin, M.Nazim.; Begum, N.; Hassan, M.R.; Hogarth, G.; Kabir, S.E.; Miah, M.Arzu.; Nordlander, E.; Tocher, D.A., 2008:
Reactivity of triruthenium thiophyne and furyne clusters: competitive S-C and P-C bond cleavage reactions and the generation of highly unsymmetrical alkyne ligands

Bhattacharjee, C.R.; Goswami, P.; Pramanik, H.A.R.; Paul, P.C.; Mondal, P., 2011:
Reactivity of tris(acetylacetonato) iron(III) with tridentate [ONO] donor Schiff base as an access to newer mixed-ligand iron(III) complexes

Pichavant, L.; Guillermain, Céline.; Coqueret, X., 2011:
Reactivity of vinyl ethers and vinyl ribosides in UV-initiated free radical copolymerization with acceptor monomers

Martins-Costa, M.T.C.; Anglada, J.M.; Francisco, J.S.; Ruiz-Lopez, M.F., 2012:
Reactivity of volatile organic compounds at the surface of a water droplet

Bertin, M.; Meyer, M.; Stähler, J.; Gahl, C.; Wolf, M.; Bovensiepen, U., 2009:
Reactivity of water-electron complexes on crystalline ice surfaces

Resch, H.; Garhöfer, G.; Dejaco-Ruhswurm, I.; Kiss, B.; Wedrich, A.; Schmetterer, L.; Rainer, G., 2011:
Reactivity of white blood cell flux to hyperoxia in patients infected with human immunodeficiency virus

Sanloup, Cèle.; Bonev, S.A.; Hochlaf, M.; Maynard-Casely, H.E., 2013:
Reactivity of xenon with ice at planetary conditions

Li, J.; Hao, J.; Cui, C., 2014:
Reactivity of ytterbium(II) silylamide supported by a pyrrolyl-cyclopentadienyl ligand

Schädle, C.; Fischbach, A.; Herdtweck, E.; Törnroos, K.W.; Anwander, R., 2013:
Reactivity of yttrium carboxylates toward alkylaluminum hydrides

Schümperli, M.T.; Hammond, C.; Hermans, I., 2012:
Reactivity of α-amino-peroxyl radicals and consequences for amine oxidation chemistry

Glover, W.Broc.; Liberto, C.M.; McNeil, W.Stephen.; Banack, S.Anne.; Shipley, P.R.; Murch, S.J., 2013:
Reactivity of β-methylamino-L-alanine in complex sample matrixes complicating detection and quantification by mass spectrometry

McCahill, J.S.J.; Welch, G.C.; Stephan, D.W., 2007:
Reactivity of "frustrated Lewis pairs": three-component reactions of phosphines, a borane, and olefins

Harrop, T.C.; Song, D.; Lippard, S.J., 2007:
Reactivity pathways for nitric oxide and nitrosonium with iron complexes in biologically relevant sulfur coordination spheres

Shaik, S.; Hirao, H.; Kumar, D., 2007:
Reactivity patterns of cytochrome P450 enzymes: multifunctionality of the active species, and the two states-two oxidants conundrum

Beker, W.; Szarek, Pł.; Komorowski, L.; Lipiński, Józef., 2013:
Reactivity patterns of imidazole, oxazole, and thiazole as reflected by the polarization justified Fukui functions

Surgenor, B.A.; Chalmers, B.A.; Athukorala Arachchige, K.S.; Slawin, A.M.Z.; Woollins, J.Derek.; Bühl, M.; Kilian, P., 2014:
Reactivity profile of a peri-substitution-stabilized phosphanylidene-phosphorane: synthetic, structural, and computational studies

Singh, H.; Henry, K.A.; Wu, S.S.T.; Chruscinski, A.; Utz, P.J.; Scott, J.K., 2011:
Reactivity profiles of broadly neutralizing anti-HIV-1 antibodies are distinct from those of pathogenic autoantibodies

El-Newehy, M.H.; Al-Deyab, S.S.; Al-Hazmi, A.Mohsen.Ali., 2010:
Reactivity ratios for organotin copolymer systems

Lee, B.F.; Wolffs, M.; Delaney, K.T.; Sprafke, J.K.; Leibfarth, F.A.; Hawker, C.J.; Lynd, N.A., 2012:
Reactivity ratios, and mechanistic insight for anionic ring-opening copolymerization of epoxides

Velimirovic, M.; Chen, H.; Simons, Q.; Bastiaens, L., 2013:
Reactivity recovery of guar gum coupled mZVI by means of enzymatic breakdown and rinsing

Derwent, R.G.; Jenkin, M.E.; Pilling, M.J.; Carter, W.P.L.; Kaduwela, A., 2010:
Reactivity scales as comparative tools for chemical mechanisms

Velimirovic, M.; Larsson, P-Olof.; Simons, Q.; Bastiaens, L., 2013:
Reactivity screening of microscale zerovalent irons and iron sulfides towards different CAHs under standardized experimental conditions

Sen, S.S.; Kratzert, D.; Stern, D.; Roesky, H.W.; Stalke, D., 2010:
Reactivity studies of a Ge(I)-Ge(I) compound with and without cleavage of the Ge-Ge bond

Fang, H.; Ling, Z.; Brothers, P.J.; Fu, X., 2011:
Reactivity studies of a corrole germanium hydride complex with aldehydes, olefins and alkyl halides

Khan, S.; Michel, R.; Koley, D.; Roesky, H.W.; Stalke, D., 2011:
Reactivity studies of a disilene with N2O and elemental sulfur

Tran, B.L.; Singhal, M.; Park, H.; Lam, O.P.; Pink, M.; Krzystek, J.; Ozarowski, A.; Telser, J.; Meyer, K.; Mindiola, D.J., 2010:
Reactivity studies of a masked three-coordinate vanadium(II) complex

Stasch, A., 2014:
Reactivity studies of a soluble LiH-complex and non-spectator behaviour of its stabilising phosphinoamide ligand

Knapp, C.; Zhou, B.; Denning, M.S.; Rees, N.H.; Goicoechea, J.M., 2009:
Reactivity studies of group 15 Zintl ions towards homoleptic post-transition metal organometallics: a 'bottom-up' approach to bimetallic molecular clusters

Cristóbal, Cín.; Hernández, Y.A.; López-Serrano, Jín.; Paneque, M.; Petronilho, A.; Poveda, M.L.; Salazar, Vónica.; Vattier, F.; Álvarez, E.; Maya, C.; Carmona, E., 2013:
Reactivity studies of iridium pyridylidenes [Tp(Me2)Ir(C(6)H(5))(2)(C(CH)(3)C(R)NH] (R=H, Me, Ph)

Ng, V.Wee.Lin.; Taylor, M.K.; Young, C.G., 2012:
Reactivity studies of oxo-Mo(IV) complexes containing potential hydrogen-bond acceptor/donor phenolate ligands

Chufán, E.E.; Mondal, B.; Gandhi, T.; Kim, E.; Rubie, N.D.; Moënne-Loccoz, P.; Karlin, K.D., 2007:
Reactivity studies on Fe(III)-(O2(2-))-Cu(II) compounds: influence of the ligand architecture and copper ligand denticity

Walter, M.D.; White, P.S., 2013:
Reactivity studies on [Cp'FeI]2: monomeric amido, phenoxo, and alkyl complexes

Xu, C.; Du, W.; Zeng, Y.; Dai, B.; Guo, H., 2014:
Reactivity switch enabled by counterion: highly chemoselective dimerization and hydration of terminal alkynes

Mukherjee, A.; Jayaraman, N., 2011:
Reactivity switching and selective activation of C-1 or C-3 in 2,3-unsaturated thioglycosides

van Santen, R.A.; Neurock, M.; Shetty, S.G., 2010:
Reactivity theory of transition-metal surfaces: a Brønsted-Evans-Polanyi linear activation energy-free-energy analysis

Stechova, K.; Pomahacova, R.; Hrabak, J.; Durilova, M.; Sykora, J.; Chudoba, D.; Stavikova, V.; Flajsmanova, K.; Varvarovska, J., 2009:
Reactivity to Helicobacter pylori antigens in patients suffering from thyroid gland autoimmunity

Cruz-Bermúdez, H.; Forero-Rincon, S.; Moreno-Collazos, J., 2014:
Reactivity to Treponema pallidum in blood donors, Ibagué, Colombia, 2011

Dössegger, A.; Ruch, N.; Jimmy, G.; Braun-Fahrländer, C.; Mäder, U.; Hänggi, J.; Hofmann, H.; Puder, J.J.; Kriemler, S.; Bringolf-Isler, B., 2014:
Reactivity to accelerometer measurement of children and adolescents

Walters, S.T.; Vader, A.M.; Harris, T.Robert.; Jouriles, E.N., 2010:
Reactivity to alcohol assessment measures: an experimental test

Zamiri, M.; Jury, C.S.; Dawe, R.S.; O'Neill, S.; Douglas, W.S., 2009:
Reactivity to autologous serum skin test and relationship with complement levels in chronic idiopathic urticaria and angio-oedema

Bordnick, P.S.; Copp, H.L.; Traylor, A.; Graap, K.M.; Carter, B.L.; Walton, A.; Ferrer, M., 2009:
Reactivity to cannabis cues in virtual reality environments

Hay, E.L.; Diehl, M., 2010:
Reactivity to daily stressors in adulthood: the importance of stressor type in characterizing risk factors

Picarelli, A.; Borghini, R.; Isonne, C.; Di Tola, M., 2015:
Reactivity to dietary gluten: new insights into differential diagnosis among gluten‑related gastrointestinal disorders

Nuske, H.J.; Vivanti, G.; Dissanayake, C., 2014:
Reactivity to fearful expressions of familiar and unfamiliar people in children with autism: an eye-tracking pupillometry study

Carruthers, H.R.; Morris, J.; Tarrier, N.; Whorwell, P.J., 2010:
Reactivity to images in health and irritable bowel syndrome

Gray, K.M.; LaRowe, S.D.; Watson, N.L.; Carpenter, M.J., 2011:
Reactivity to in vivo marijuana cues among cannabis-dependent adolescents

Back, S.E.; Hartwell, K.; DeSantis, S.M.; Saladin, M.; McRae-Clark, A.L.; Price, K.L.; Moran-Santa Maria, M.M.; Baker, N.L.; Spratt, E.; Kreek, M.Jeanne.; Brady, K.T., 2010:
Reactivity to laboratory stress provocation predicts relapse to cocaine

Amicosante, M.; Puxeddu, E.; Saltini, C., 2009:
Reactivity to mycobacterial antigens by patients with Lofgren's syndrome as a model of phenotypic susceptibility to disease and disease progression

Cameron, A.; Reed, K.Palm.; Ninnemann, A., 2014:
Reactivity to negative affect in smokers: the role of implicit associations and distress tolerance in smoking cessation

Rosenthal, M.Zachary.; Ahn, R.; Geiger, P.J., 2012:
Reactivity to sensations in borderline personality disorder: a preliminary study

Jenks, R.A.; Higgs, S., 2011:
Reactivity to smoking- and food-related cues in currently dieting and non-dieting young women smokers

Muris, J.; Kleverlaan, C.J.; Feilzer, A.J.; Valentine-Thon, E., 2009:
Reactivity to sodium tetrachloropalladate (Na2[PdCl4]) compared to PdCl2 and NiCl2 in lymphocyte proliferation tests

MacKinnon McQuarrie, M.A.; Siegel, L.S.; Perry, N.E.; Weinberg, J., 2015:
Reactivity to stress and the cognitive components of math disability in grade 1 children

Schilling, O.K.; Diehl, M., 2014:
Reactivity to stressor pile-up in adulthood: effects on daily negative and positive affect

Zhang, L-Min.; Niu, C-Yu.; Zhao, Z-Gang.; Qin, L-Peng.; Si, Y-Hua.; Zhang, J., 2013:
Reactivity to substance P of isolated lymphatics in hemorrhagic shock rat

Michael, G.A.; Garcia, S.; Bussy, Gérald.; Lion-François, L.; Guibaud, L., 2009:
Reactivity to visual signals and the cerebellar vermis: Evidence from a rare case with rhombencephalosynapsis

Michael, G.A.; Garcia, S.; Herbillon, V.; Lion-François, L., 2014:
Reactivity to visual signals in neurofibromatosis type 1: is everything ok?

Davis, A.C.; Francisco, J.S., 2012:
Reactivity trends within alkoxy radical reactions responsible for chain branching

Deore, P.S.; Argade, N.P., 2014:
Reactivity umpolung in intramolecular ring closure of 3,4-disubstituted butenolides: diastereoselective total synthesis of paeonilide

Rayo, J.; Muñoz, L.; Rosell, G.; Hammock, B.D.; Guerrero, A.; Luque, F.Javier.; Pouplana, R., 2011:
Reactivity versus steric effects in fluorinated ketones as esterase inhibitors: a quantum mechanical and molecular dynamics study

Reed, J.H.; Dudek, N.L.; Osborne, S.E.; Kaufman, K.M.; Jackson, M.W.; Purcell, A.W.; Gordon, T.P., 2010:
Reactivity with dichotomous determinants of Ro 60 stratifies autoantibody responses in lupus and primary Sjögren's syndrome

Caballo, J.; González-Moreiras, M.; Mena, M.; Pérez-Redondo, Aán.; Yélamos, C., 2013:
Reactivity with electrophiles of imido groups supported on trinuclear titanium systems

Koblenz, T.S.; Wassenaar, J.; Reek, J.N.H., 2008:
Reactivity within a confined self-assembled nanospace

Doro, F.G.; Pepe, I.M.; Galembeck, S.E.; Carlos, R.M.; da Rocha, Z.N.; Bertotti, M.; Tfouni, E., 2011:
Reactivity, photolability, and computational studies of the ruthenium nitrosyl complex with a substituted cyclam fac-[Ru(NO)Cl2(κ3N4,N8,N11(1-carboxypropyl)cyclam)]Cl·H2O

Roy, D.Ranjan.; Chattaraj, P.Kumar., 2008:
Reactivity, selectivity, and aromaticity of Be3(2-) and its complexes

Levina, A.; McLeod, A.I.; Kremer, L.E.; Aitken, J.B.; Glover, C.J.; Johannessen, B.; Lay, P.A., 2015:
Reactivity-activity relationships of oral anti-diabetic vanadium complexes in gastrointestinal media: an X-ray absorption spectroscopic study

Jo, J.; Lee, H.Yong.; Liu, W.; Olasz, Aás.; Chen, C-Hsing.; Lee, D., 2013:
Reactivity-based detection of copper(II) ion in water: oxidative cyclization of azoaromatics as fluorescence turn-on signaling mechanism

Wondrak, G.T., 2008:
Reactivity-based drug discovery using vitamin B(6)-derived pharmacophores

Jiang, X.; Vieweger, M.C.; Bollinger, J.C.; Dragnea, B.; Lee, D., 2007:
Reactivity-based fluoride detection: evolving design principles for spring-loaded turn-on fluorescent probes

Schultz, T.W.; Sparfkin, C.L.; Aptula, A.O., 2011:
Reactivity-based toxicity modelling of five-membered heterocyclic compounds: application to Tetrahymena pyriformis

Gorin, D.J.; Kamlet, A.S.; Liu, D.R., 2009:
Reactivity-dependent PCR: direct, solution-phase in vitro selection for bond formation

Clemes, S.A.; Matchett, N.; Wane, S.L., 2008:
Reactivity: an issue for short-term pedometer studies?

Hadinegoro, S.R.H.; Hindra, I.S.; Han, H.H.; Gatchalian, S.; Bock, H.L., 2009:
Reactogenicity and immunogenicity of a live-attenuated refrigerator-stable varicella vaccine (OKA strain) in healthy seronegative subjects age 10 months to 12 years