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Biology, Geography & Health: Chapter 5867


Chapter 5867 provides bibliographic information on scholary research in the basic and applied life, earth and health sciences.





Machuganska A.; Zaharieva S., 1985:
Mechanism of action of beta endorphin and naloxone in hypophysectomized rats with hemorrhagic shock the role of the central nervous system

Frere, J.M., 1977:
Mechanism of action of beta lactam antibiotics at the molecular level

Jordan, P.M.; Gibbs, P.N., 1983:
Mechanism of action of beta oxoacyl coenzyme a thiolase ec 2.3.1.9 from rat liver cytosol direct evidence for the order of addition of the 2 acetyl coenzyme a molecules during the formation of acetoacetyl coenzyme a

Joiner, K.A.; Scales, R.; Warren, K.A.; Frank, M.M.; Rice, P.A., 1985:
Mechanism of action of blocking immunoglobulin G for Neisseria gonorrhoeae


Highsmith, S.; Garvin, J.H.; Chipman, D.M., 1975:
Mechanism of action of bovine testicular hyaluronidase. Mapping of the active site

Juan, H., 1977:
Mechanism of action of brady kinin induced released of prostaglandin e

Fendrich G.; Abeles R.H., 1982:
Mechanism of action of butyryl coenzyme a dehydrogenase reactions with acetylenic olefinic and fluorinated substrate analog

Zhou Z C.; Villanueva M.L.; Noguchi M.; Jones S.W.; Gardner J.D.; Jensen R.T., 1986:
Mechanism of action of calcitonin gene-related peptide in stimulating pancreatic enzyme secretion

Makinen, M.W.; Yamamura, K.; Kaiser, E.T., 1976:
Mechanism of action of carboxy peptidase a ec 3.4.12.2 in ester hydrolysis

Imanishi H.; Tomatsu K.; Nishiyama Y.; Murata S.; Kamei H., 1980:
Mechanism of action of certain fibrinolytic bis tetra hydro iso quinolines their antagonists and histamine releasing and 5 hydroxy tryptamine releasing effects

Kawaguchi A.; Tomoda H.; Nozoe S.; Omura S.; Okuda S., 1982:
Mechanism of action of cerulenin on fatty acid synthetase effect of cerulenin on iodo acetamide induced malonyl coenzyme a decarboxylase activity

Elting, J.; Montgomery, R., 1976:
Mechanism of action of cesalin an anti tumor protein

Suzuki, Y.; Ito, M.; Sudo, Y., 1979:
Mechanism of action of cetraxate 4' 2 carboxyethylphenyl trans 4 aminomethyl cyclo hexanecarboxylate hydro chloride a new anti ulcer agent

Boland, M.J.; Wong, E., 1979:
Mechanism of action of chalcone isomerase ec 5.5.1.6

Bennett, V.; O'keefe, E.; Cuatrecasas, P., 1975:
Mechanism of action of cholera toxin and the mobile receptor theory of hormone receptor adenylate cyclase ec 4.6.1.1 interactions

Fishman P.H., 1980:
Mechanism of action of cholera toxin the lag period

Moss, J.; Ross, P.S.; Agosto, G.; Birken, S.; Canfield, R.E.; Vaughan, M., 1978:
Mechanism of action of choleragen and the glyco peptide hormones is the nad glyco hydrolase activity observed in purified hormone preparations intrinsic to the hormone

Dixit, V.P.; Arya, M.; Lohiya, N.K., 1976:
Mechanism of action of chronically administered cannabis sativa extract on the female genital tract of gerbils

Seidenberger H.; Schoenenberger H.; Beck W.; Girnth Weller M., 1983:
Mechanism of action of cis bio glycyl glycine ethyl ester platinum ii chloride influence on protein biosynthesis

Saxena P.N., 1980:
Mechanism of action of clonidine on body temperature

Dallaverde, E.; Fan, P.T.; Chang, Y.H., 1982:
Mechanism of action of colchicine 5. neutrophil adherence and phagocytosis in patients with acute gout treated with colchicine

Chang, Y.H., 1975:
Mechanism of action of colchicine part 1 effects of colchicine and its analogs on the reversed passive arthus reaction and the carrageenan induced hind paw edema in the rat

Chang, Y.H., 1975:
Mechanism of action of colchicine part 2 effects of colchicine and its analogs on phagocytosis and chemo taxis in vitro

Stiborova M.; Ditrichova M.; Brezinova A., 1988:
Mechanism of action of copper cobalt and zinc on ribulose 1 5 bisphosphate carboxylase from barley hordeum vulgare l

Kochetkov, S.N.; Khachatryan, L.L.; Bagirov, E.M.; Sashchenko, L.P.; Severin, E.S., 1978:
Mechanism of action of cyclic amp dependent histone kinase substrate specificity of the catalytic subunit

Bagirov, E.M.; Kochetkov, S.N.; Gabibov, A.G.; Sashchenko, L.P.; Severin, E.S., 1983:
Mechanism of action of cyclic amp dependent protein kinase 1. study on ph and temperature dependences of interaction of the catalytic subunit with atp

Kochetkov, S.N.; Bagirov, E.M.; Gabibov, A.G.; Severin, E.S., 1983:
Mechanism of action of cyclic amp dependent protein kinase 2. solvolysis by additional nucleophilic agents

Kochetkov, S.N.; Gabibov, A.G.; Mar'yash, L.I.; Shibnev, V.A.; Severin, E.S., 1984:
Mechanism of action of cyclic amp dependent protein kinase 4. interaction of the enzyme catalytic subunit with structural analogs of histone h 1

Kochetkov, S.N.; Bagirov, E.M.; Gabibov, A.G.; Severin, E.S., 1984:
Mechanism of action of cyclic amp dependent protein kinase ec 2.7.1.37 3. a suggested role of the enzyme carboxyl group

Kochetkov, S.N.; Abduragimov, A.R.; Gabibov, A.G.; Severin, E.S., 1985:
Mechanism of action of cyclic amp dependent protein kinase v. free energy profiles

Bendtzen K.; Dinarello C.A., 1984:
Mechanism of action of cyclosporin a effect of t cell binding of interleukin 1 and antagonizing effect of insulin

Kroczek, R.A.; Black, C.D.; Barbet, J.; Shevach, E.M., 1987:
Mechanism of action of cyclosporin A in vivo. I. Cyclosporin A fails to inhibit T lymphocyte activation in response to alloantigens

Cox, J.H.; Chisholm, P.M., 1987:
Mechanism of action of cyclosporine in preventing cardiac allograft rejection. I. Rate of entry of lymphocytes from the blood, fibrin deposition, and expression of Ia antigens on infiltrating cells

Fan, T.P.; Cox, J.H.; Chisholm, P.M., 1987:
Mechanism of action of cyclosporine in preventing cardiac allograft rejection. II. Graft tissue levels of prostacyclin and thromboxane

Borcsok, E.; Abeles, R.H., 1982:
Mechanism of action of cystathionine synthase ec 4.2.1.22

Blake R.C.IIi; Coon M.J., 1981:
Mechanism of action of cytochrome p 450 evaluation of homolytic and heterolytic mechanisms of oxygen oxygen bond cleavage during substrate hydroxylation by per oxides

Blake R.C.II.C.on M.J., 1981:
Mechanism of action of cytochrome p 450 role of per oxy spectral intermediates in substrate hydroxylation

Blake, R.C.I. ; Coon, M.J., 1980:
Mechanism of action of cytochrome p 450 spectral intermediates in the reaction of p 450l m 2 with per oxy compounds

Ebert L.Ya; Nazarov A.V.; Yakovleva Z.M., 1980:
Mechanism of action of cytostatics on the phagocytic activity of neutrophils in patients with acute leukemia

Schnackerz, K.D.; Ehrlich, J.H.; Giesemann, W.; Reed, T.A., 1979:
Mechanism of action of d serine dehydratase ec 4.2.1.14 identification of a transient intermediate

Davies J.A.; Graham J.D.P., 1980:
Mechanism of action of delta 9 tetra hydro cannabinol on body temperature in mice

Timofeev, B.A.; Shchedrin, E.L.; Sirotkina, V.P.; Chernyshova, E.A., 1987:
Mechanism of action of dorogov's antiseptic stimulant

Eustice, D.C.; Feldman, P.A.; Zajac, I.; Slee, A.M., 1988:
Mechanism of action of DuP 721: inhibition of an early event during initiation of protein synthesis

Stubbe J.; Abeles R.H., 1980:
Mechanism of action of enolase effect of the beta hydroxy group on the rate of dissociation of the alpha carbon hydrogen bond

Loftfield, R.B.; Eigner, E.A., 1969:
Mechanism of action of enz amino acid transfer rna ligases escherichia coli

Rando, R.R.; Bloch, K., 1968:
Mechanism of action of enz beta hydroxydecanoyl thio ester dehydrase escherichia coli

Huott, P.A.; Liu, W.; McRoberts, J.A.; Giannella, R.A.; Dharmsathaphorn, K., 1988:
Mechanism of action of Escherichia coli heat stable enterotoxin in a human colonic cell line

Kopczynski M.G.; Babior B.M., 1984:
Mechanism of action of ethanolamine ammonia lyase an adenosyl cobalamin dependent enzyme evidence for a carboxyl at the active site/

Hull, W.E.; Mauck, L.; Babior, B.M., 1975:
Mechanism of action of ethanolamine ammonia lyase an adenosyl cobalamin dependent enzyme proton nmr studies of the binding of adenine nucleosides and substrate to ethanolamine ammonia lyase

Graves S.W.; Krouwer J.S.; Babior B.M., 1980:
Mechanism of action of ethanolamine ammonia lyase an adenosyl cobalamin dependent enzyme studies with iso propanolamine a true substrate

Krouwer, J.S.; Babior, B.M., 1977:
Mechanism of action of ethanolamine ammonia lyase ec 4.3.1.7 an adenosyl cobalamin dependent enzyme interaction between the enzyme and a postulated organo cobalamin intermediate

Lesavre, P.H.; Müller-Eberhard, H.J., 1978:
Mechanism of action of factor D of the alternative complement pathway

Janne, O.; Kontula, K.; Vihko, R., 1976:
Mechanism of action of female sex steroids

Ambrus, J.L.; Weber, F.J.; Ambrus, C.M., 1979:
Mechanism of action of fibrinolytic enzymes in vivo

Van Valen F.; Schutte P.P., 1984:
Mechanism of action of forskolin and manganese on the adenylate cyclase system in chick osteoblast membranes

Tamura, K.; Palmer, J.M.; Winkelmann, C.K.; Wood, J.D., 1988:
Mechanism of action of galanin on myenteric neurons

Galindo, A.; Kelly, P.J., 1980:
Mechanism of action of gallamine

Nandi J.; Ray T.K., 1982:
Mechanism of action of gastric secretory inhibitors effects of thio cyanate cyanate nitrous ion and ammonium ions on hydrogen ion potassium ion atpase mediated transport of hydrogen ion inside gastric microsomal vesicles

Saku, K.; Gartside, P.S.; Hynd, B.A.; Kashyap, M.L., 1985:
Mechanism of action of gemfibrozil on lipoprotein metabolism

Aleshin, E.P.; Aleshin, N.E.; Avakyan, E.R.; Satalkina, G.I., 1978:
Mechanism of action of gibberellin on rice plants

Claus, T.H.; Schlumpf, J.R.; El-Maghrabi, M.R.; Pilkis, J.; Pilkis, S.J., 1980:
Mechanism of action of glucagon on hepatocyte phospho fructo kinase ec 2.7.1.11 activity

Gomes B.; Fendrich G.; Abeles R.H., 1981:
Mechanism of action of glutaryl coenzyme a and butyryl coenzyme a dehydrogenases purification of glutaryl coenzyme a dehydrogenase

Jungmann, R.A.; Schweppe, J.S., 1972:
Mechanism of action of gonadotropin part 1 evidence for gonadotropin induced modifications of ovarian nuclear basic and acidic protein biosynthesis phosphorylation and acetylation

Jungmann, R.A.; Schweppe, J.S., 1972:
Mechanism of action of gonadotropin part 2 control of ovarian nuclear rna polymerase ec 2.7.7.6 activity and chromatin template capacity

Lin, T., 1984:
Mechanism of action of gonadotropin releasing hormone stimulated leydig cell steroidogenesis 1. the stimulatory effect is calcium dependent and not mediated by cyclic nucleotides

Lin, T., 1984:
Mechanism of action of gonadotropin releasing hormone stimulated leydig cell steroidogenesis 2. gonadotropin releasing hormone stimulates phospho lipid labeling

Lin, T., 1985:
Mechanism of action of gonadotropin releasing hormone stimulated leydig cell steroidogenesis 3. the role of arachidonic acid and calcium phospholipid dependent protein kinase

Blackburn N.A.; Redfern J.S.; Jarjis H.; Holgate A.M.; Hanning I.; Scarpello J.H.B.; Johnson I.T.; Read N.W., 1984:
Mechanism of action of guar gum in improving glucose tolerance in man

Chung, S.I.; Shrager, R.I.; Folk, J.E., 1970:
Mechanism of action of guinea pig liver trans glut aminase part 7 chemical and stereochemical aspects of substrate binding and catalysis

Folk, J.E., 1969:
Mechanism of action of guinea pig liver trans glutaminase part 6 order of substrate addition

Folk, J.E.; Gross, M., 1971:
Mechanism of action of guinea pig liver trans glutaminase part 8 active site studies with reporter group labeled halomethyl ketones

Docherty, J.C.; Schacter, B.A.; Firneisz, G.D.; Brown, S.B., 1984:
Mechanism of action of heme oxygenase ec 1.14.99.3 a study of heme degradation to bile pigment by oxygen 18 labeling

Kozlov, V.A.; Kaznacheev, S.V.; Lozovoĭ, V.P.; Liakhovich, V.V., 1977:
Mechanism of action of heparin on lymphoid cells in vitro

Ichikawa I.; Brenner B.M., 1979:
Mechanism of action of histamine and histamine antagonists on the glomerular micro circulation in the rat

Wood, D.D., 1979:
Mechanism of action of human bone marrow derived cell activating factor 1. comparison of the plaque stimulating activity with thymocyte stimulating activity

Khanum A.; Fatima N.; Lobo J.; Ahmad W.; Salim M.; Qazi M.H., 1985:
Mechanism of action of human chorionic gonadotropin using isolated mouse leydig cells short term biochemical events

Baglioni, C.; Maroney, P., 1980:
Mechanism of action of human interferons induction of 2' 5' oligo adenylic acid polymerase

Haegele, E.O.; Schaich, E.; Rauscher, E.; Lehmann, P.; Buerk, H.; Wahlefeld, A.W., 1982:
Mechanism of action of human pancreatic and salivary alpha amylase ec 3.2.1.1 on alpha 4 nitrophenyl malto heptaoside substrate

Krassner M.B., 1984:
Mechanism of action of hydergine ergoloid mesylates in relation to organic brain disorders

Dawson G.; Kernes S.M., 1979:
Mechanism of action of hydrocortisone potentiation of sulfo galactosyl ceramide synthesis in mouse oligodendro glioma clonal cell lines

Gamble, W., 1975:
Mechanism of action of hypo lipidemic and herbicidal aryloxy acids

Rosenfeld, H.J.; Watanabe, K.A.; Roberts, J., 1977 :
Mechanism of action of indolyl 3 alkane alpha hydroxylase

Hirshman, C.A.; Edelstein, G.; Peetz, S.; Wayne, R.; Downes, H., 1982:
Mechanism of action of inhalational anesthesia on airways

Zade P.S.; Jagtap M.K., 1980:
Mechanism of action of initial hypotensive response to acute intra venous administration of guanethidine in anesthetized dog

Tompkins C.V.; Brandenburg D.; Jones R.H.; Soenksen P.H., 1981:
Mechanism of action of insulin and insulin analogs a comparison of the hepatic and peripheral effects on glucose turnover of insulin pro insulin and 3 insulin analogs modified at positions a 1 and b 29

E.B.drawi H.H.; Hafez E.S.E., 1981:
Mechanism of action of intra uterine devices an ultrastructural view

Sherman, D.M.; Goncharov, A.G.; Shvets, E.G.; Yagnyatinskii, D.Y., 1978:
Mechanism of action of intra venously administered novocaine in animals

Jenner, J.R.; Buttle, D.J.; Dixon, A.K., 1986:
Mechanism of action of intradiscal chymopapain in the treatment of sciatica: a clinical, biochemical, and radiological study

Calixto J.B.; Simas C.M., 1984:
Mechanism of action of isoprenaline isoxsuprine terbutaline and orciprenaline on gravid human isolated myometrium influence of the neuronal uptake process

Green, J.F., 1977:
Mechanism of action of isoproterenol on venous return

Benoit E.; Carratu M.R.; Dubois J.M.; Mitolo Chieppa D., 1986:
Mechanism of action of ketamine in the current and voltage clamped myelinated nerve fiber of the frog

Zajdel, J.K.; Ceglowski, P.; Dobrazański, W.T., 1985:
Mechanism of action of lactostrepcin 5, a bacteriocin produced by Streptococcus cremoris 202

Prigozhina, T.A.; Kurbanova, G.N.; Kakhetelidze, M.G.; Sorokin, A.V., 1976:
Mechanism of action of leukocytic pyrogen on granulocytopoiesis

Piper P.J.; Samhoun M.N., 1981:
Mechanism of action of leukotriene c 4 and leukotriene d 4 in guinea pig isolated perfused lung and parenchymal strips of guinea pig rabbit and rat

Den Boer P.J.; Grootegoed J.A., 1988:
Mechanism of action of levo gossypol on atp production in isolated hamster spermatids

Xingguang P.; Dayuan C.; Zenghan Z.; Yitao Z.; Xuekun Z.; Haoran L.; Zhensheng L.; Ding L., 1981:
Mechanism of action of lhrh in the ovulation of fish intra cellular distribution of lhrh a in pituitary gonadotrophs as revealed by electron microscopic auto radiography

Tajima, S.; Yokoyama, S.; Yamamoto, A., 1984:
Mechanism of action of lipoprotein lipase ec 3.1.1.34 on triolein particles effect of apolipoprotein c ii

Hartley Asp B.; Wilkinson R.; Venitt S.; Harrap K.R., 1981:
Mechanism of action of ls 1727 a nitroso carbamate of 19 nortestosterone

Imaseki H.; Kang B.G., 1984:
Mechanism of action of lycoricidinol a plant growth inhibitor isolated from lycoris radiata

Suzuki, H.; Nishimura, T.; Muto, K.; Tanaka, N., 1978:
Mechanism of action of macromomycin: DNA strand scission, inhibition of DNA synthesis and mitosis

Sherry, B.; Abeles, R.H., 1985:
Mechanism of action of methanol oxidase ec 1.1.3.13 reconstitution of methanol oxidase with 5 deazaflavin and inactivation of methanol oxidase by cyclopropanol

White, J.C.; Goldman, I.D., 1976:
Mechanism of action of methotrexate part 4 free intra cellular methotrexate required to suppress di hydro folate reduction to tetra hydro folate by ehrlich ascites tumor cells in vitro

Mincey T.; Bell J.A.; Mildvan A.S.; Abeles R.H., 1981:
Mechanism of action of methoxatin dependent alcohol dehydrogenase

Cohen, S.; DiMarino, A.J., 1976:
Mechanism of action of metoclopramide on opossum lower esophageal sphincter muscle

Sigeti, J.S.; Guiney, D.G.; Davis, C.E., 1983:
Mechanism of action of metronidazole on Bacteroides fragilis

Leu, R.W.; Eddleston, A.L.W.F.; Hadden, J.W.; Good, R.A., 1972:
Mechanism of action of migration inhibitory factor part 1 evidence for a receptor for migration inhibitory factor present on the peritoneal macrophage but not on the alveolar macrophage

Jackson, R.L.; Pattus, F.; De-Haas, G., 1980:
Mechanism of action of milk lipo protein lipase ec 3.1.1.3 at substrate interfaces effects of apo lipo proteins

Meisheri K.D.; Cipkus L.A.; Taylor C.J., 1988:
Mechanism of action of minoxidil sulfate induced vasodilation a role for increased potassium permeability

Gerard, G.F., 1981:
Mechanism of action of Moloney murine leukemia virus RNase H III

Imam, G.M.; Kuentzel, H., 1979:
Mechanism of action of mono keto organomycin cystaurimycin and their per formic acid oxidized modifications 1. effects of bacterial growth and ribosomal peptidyl transferase activity

Imam, G.M., 1979:
Mechanism of action of mono keto organomycin cystaurimycin and their per formic acid oxidized modifications 2. inhibition of mitochondrial atpase activity in aspergillus nidulans and identification of the per formic acid oxidized modifications binding protein

Farram E.; Nelson D.S., 1980:
Mechanism of action of mouse macrophages as anti tumor effector cells role of arginase

Boyle, J.V.; Cook, T.M.; Goss, W.A., 1969:
Mechanism of action of nalidixic acid anti infect on escherichia coli vi cell free studies prevention of dna synthesis enz dna polymerase enz deoxyribo nucleotide kinase enz deoxyribosyl transferase

Bouck, N.; Adelberg, E.A., 1970:
Mechanism of action of nalidixic acid on conjugating bacteria

Maruyama, I.N.; Tanaka, N.; Kondo, S.; Umezawa, H., 1979:
Mechanism of action of neothramycin 2. interaction with dna

Maruyama, I.N.; Suzuki, H.; Tanaka, N., 1978:
Mechanism of action of neothramycin part 1 the effect on macro molecular syntheses

Morita J.; Watabe K.; Komano T., 1984:
Mechanism of action of new synthetic nalidixic acid related antibiotics inhibition of dna super coiling catalyzed by dna gyrase

Kizawa Y.; Takayanagi I., 1985:
Mechanism of action of nicotine on crab eating monkey macaca fascicularis isolated bronchial smooth muscle

McCarthy, P.J.; Troke, P.F.; Gull, K., 1985:
Mechanism of action of nikkomycin and the peptide transport system of Candida albicans

Knoght R.C.; Rowley D.A.; Skolimowski I.; Edwards D.I., 1979:
Mechanism of action of nitro imidazole anti microbial and anti tumor radio sensitizing drugs effects of reduced misonidazole on dna

Pilipchuk D.B., 1981:
Mechanism of action of nonachlazine and ethmozine on heart blood supply in acute myo cardial ischemia

LaNoue, K.F.; Koch, C.D.; Meditz, R.B., 1982:
Mechanism of action of norepinephrine in hamster brown adipocytes

Vigdahl, R.L.; Tukey, R.H., 1977:
Mechanism of action of novel anti-inflammmatory drugs diflumidone and R-805

Barthova J.; Kambova M.; Leblova S., 1986:
Mechanism of action of organophosphate pesticides on animal cholinesterases

Teng, N.; Kotowycz, G.; Calvin, M.; Hosokawa, K., 1971:
Mechanism of action of p hydroxy benzoate hydroxylase from pseudomonas putida part 3 the enzyme substrate complex

Smolarsky, M., 1978:
Mechanism of action of papain aryl dehydro alanines as spectroscopic of acyl enzyme formation

Yocum R.R.; Rasmussen J.R.; Strominger J.L., 1980:
Mechanism of action of penicillin penicillin acylates the active site of bacillus stearothermophilus d alanine carboxy peptidase

Tomasz, A.; Waks, S., 1975:
Mechanism of action of penicillin: triggering of the pneumococcal autolytic enzyme by inhibitors of cell wall synthesis

Khan A.R., 1980:
Mechanism of action of pento barbital on the contractile system of isolated frog rana temporaria muscle fibers

Cesar, F.P.; Leme, C.E.; Ohnuma, L.Y.; Pinheiro-Palomino, C.R.; Wajchenberg, B.L., 1980:
Mechanism of action of phenethyl biguanide phenformin in man 4. effect of phenethyl biguanide on glucose tolerance and lactate dynamics in obese nondiabetic and chemical diabetic subjects

Wajchenberg, B.L.; Halpern, A.; Leme, C.E.; Lerario, A.C.; Silveira, A.A.; Fioratti, P.A.L.; Cesar, F.P., 1976:
Mechanism of action of phenethyl biguanide phenformin in man part 3 interrelationship between ethanol and phenethyl biguanide in normal and diabetic subjects

Korshak, A.L., 1976:
Mechanism of action of phentolamine an alpha adreno blocking agent on the gastric secretion in dogs

Lazarus, R.A.; Dietrich, R.F.; Wallick, D.E.; Benkovic, S.J., 1981:
Mechanism of action of phenyl alanine hydroxylase ec 1.14.16.1

Banet, M., 1988:
Mechanism of action of physical antipyresis in the rat

Bol'shakov I.N.; Poberii I.A.; Lindner D.P.; Zubkov B.A.; Panasyuk A.V., 1980:
Mechanism of action of phyto hem agglutinin as a stimulator of wound healing

Janovska E.; Kleinwachter V., 1984:
Mechanism of action of platinum cytostatics on bacterial cells

Carabez A.; Sandoval F., 1981:
Mechanism of action of poly ether 28 at site i of the electron transfer chain in rat liver mitochondria

Seehra J.S.; Jordan P.M., 1980:
Mechanism of action of porphobilinogen deaminase ordered addition of the 4 porphobilinogen molecules in the formation of preuroporphyrinogen

Jordan P.M.; Berry A., 1981:
Mechanism of action of porphobilinogen deaminase the participation of stable enzyme substrate covalent intermediates between porphobilinogen and the porphobilinogen deaminase from rhodopseudomonas sphaeroides

Matsuda, H.; Tanaka, H.; Nogami, S.; Muto, M., 1983:
Mechanism of action of praziquantel on the eggs of Schistosoma japonicum

Abbe J.; Capmau M L.; Vindimian E.; L.G.ffic F., 1982:
Mechanism of action of pristinamycins

Kurbanova, G.N.; Kakhetelidze, M.G.; Prigozhina, T.A., 1978:
Mechanism of action of products of granulocyte lysis on granulocytopoiesis

Amemiya, K.; Suzuki, J.; Kimura, M., 1986:
Mechanism of action of pronase on chronic proliferative inflammation including granuloma angiogenesis in mice

Wu, C.H.; Narahashi, T., 1973:
Mechanism of action of propranolol on squid axon membranes

Iglewski, B.H.; Liu, P.V.; Kabat, D., 1977:
Mechanism of action of pseudomonas aeruginosa exo toxin a adp ribosylation of mammalian elongation factor 2 in vitro and in vivo

Pavlovskis, O.R.; Iglewski, B.H.; Pollack, M., 1978:
Mechanism of action of pseudomonas aeruginosa exo toxin a in experimental mouse infections adp ribosylation of elongation factor 2

Bidwai, A.P.; Zhang, L.; Bachmann, R.C.; Takemoto, J.Y., 1987:
Mechanism of Action of Pseudomonas syringae Phytotoxin, Syringomycin : Stimulation of Red Beet Plasma Membrane ATPase Activity

Feldberg, W.; Saxena, P.N., 1970:
Mechanism of action of pyrogen

Chassaing, C.; Duchene-Marullaz, P.; Paire, M., 1982:
Mechanism of action of quinidine on heart rate in the dog

Yeh, J.Z.; Narahashi, T., 1976:
Mechanism of action of quinidine on squid axon membranes

Walinder, O.; Joshi, J.G., 1974:
Mechanism of action of rabbit muscle phospho gluco mutase ec 2.7.5.1 rate of enzyme phosphate turnover studies with a rapid mixing technique

Lee, K.H.; Fu, C.C.; Jung, M., 1976:
Mechanism of action of retinyl compounds on wound healing part 4 effect of demethyl retinoic acid and its vinylogs on granuloma formation

Nagasawa, T.; Oura, H.; Nonaka, G.; Nishioka, I., 1985:
Mechanism of action of rhatannin on plasma amino acid levels in rats

White, R.J.; Lancini, G.C.; Silvestri, L.G., 1971:
Mechanism of action of rifampin on Mycobacterium smegmatis

Falvey, A.K.; Kantor, J.A.; Robert-Guroff, M.G.; Picciano, D.J.; Weiss, G.B.; Vavich, J.M.; Anderson, F., 1974:
Mechanism of action of rna directed dna polymerase part 1 transcription of globin messenger rna

Shamoo, A.E.; Thompson, T.R.; Campbell, K.P.; Scott, T.L.; Goldstein, D.A., 1975:
Mechanism of action of ruthenium red compounds on calcium ionophore from sarcoplasmic reticulum calcium plus magnesium atpase and lipid bi layer

Sinhababu, A.K.; Bartel, R.L.; Pochopin, N.; Borchardt, R.T., 1985:
Mechanism of action of s adenosyl l homocysteine hydrolase measurement of kinetic isotope effects using adenosine 3' deuterium and s adenosyl l homocysteine 3' deuterium substrates

Areshkina L.Ya; Skorobogatova E.P.; Bukin V.N., 1979:
Mechanism of action of s methyl methionine

Khazenson L.B.; Nikolaeva T.A.; Romanenkova N.I.; Gennad'eva T.Ya, 1980:
Mechanism of action of secretory immuno globulin a antibodies

Baker F.L.; Galbraith P.R., 1979:
Mechanism of action of serum factors that regulate granulopoiesis in vitro possible physiologic role of serum inhibiting activity

Ikeda Y.; Hine D.G.; Okamura Ikeda K.; Tanaka K., 1985:
Mechanism of action of short chain medium chain and long chain acyl coenzyme a dehydrogenases direct evidence for carbanion formation as an intermediate step using enzyme catalyzed carbon 2 proton deuteron exchange in the absence of carbon 3 exchange

Sonnenbichler, J.; Mattersberger, J.; Hanser, G., 1980:
Mechanism of action of silybin 3. resorption of the flavono lignan derivative silybin into rat liver cells

Sonnenbichler, J.; Pohl, A., 1980:
Mechanism of action of silybin 4. structure activity relationship

Arakawa, T.; Timasheff, S.N., 1984:
Mechanism of action of sodium glutamate lysine hydro chloride and piperazine n n' bis 2 ethanesulfonic acid in the stabilization of tubulin and micro tubule formation

Zhemchuzhina A.A.; Zvereva E.L., 1983:
Mechanism of action of some insect anti feedants and means of their further study

Akimenko, V.K.; Kozlovskii, A.G.; Medentsev, A.G.; Golovchenko, N.P.; Arinbasarov, M.U., 1976:
Mechanism of action of some quinoline alkaloids on respiratory chain of mitochondria

Luzzato, L.; Apirion, D.; Schlessinger, D., 1968:
Mechanism of action of streptomycin anti infect in escherichia coli interruption of the ribosome cycle at the initiation of protein synthesis r 17 phage rna

Mieyal, J.J.; Simon, M.; Abeles, R.H., 1972:
Mechanism of action of sucrose phosphorylase part 3 the reaction with water and other alcohols

Ekstedt, R.D.; Waterfield, J.D.; Nespoli, L.; Moller, G., 1977:
Mechanism of action of suppressor cells in vivo concanavalin a activated suppressor cells do not directly affect bone marrow derived cells

Beckh, K.; Beuers, U.; Engelhardt, R.; Jungermann, K., 1987:
Mechanism of action of sympathetic hepatic nerves on carbohydrate metabolism in perfused rat liver

Hall A.L.; Kloepper R.; Zee Cheng R.K Y.; Chiu Y.J.D.; Lee F.C.; Olson R.E., 1982:
Mechanism of action of tert butyl hydro per oxide in the inhibition of vitamin k dependent carboxylation

Tamaoki T.; Tomita F.; Kawamura F.; Saito H., 1983:
Mechanism of action of tetrocarcin a

Young D.B.; Rosamond J., 1981:
Mechanism of action of the atp dependent dnase from alcaligenes faecalis

Gigli I.; Sorvillo J.; Mecarelli Halbwachs L.; Leibowitch J., 1981:
Mechanism of action of the complement c 4 nephritic factor de regulation of the classical pathway complement c 3 convertase

Gabibov, A.G.; Kochetkov, S.N.; Sashchenko, L.P.; Smirnov, I.V.; Timofeev, V.P.; Severin, E.S., 1983:
Mechanism of action of the cyclic amp dependent histone kinase ec 2.7.1.37 investigation of protein protein interaction by esr spectroscopy and stopped flow methods

Oleinikova E.A.; Egorov N.S.; Anoshkina G.B.; Morozov A.T.; Botvinko I.V.; Semenova E.V., 1983:
Mechanism of action of the exo poly saccharide from mycobacterium cyaneum on local cellular reactions in experimental escherichia coli infection

Lockridge, O.; Massey, V.; Sullivan, P.A., 1972:
Mechanism of action of the flavo enzyme lactate oxidase

Seydel J.K.; Richter M.; Wempe E., 1980:
Mechanism of action of the folate blocker di aminodiphenyl sulfone dapsone studied in escherichia coli cell free enzyme extracts in comparison to sulfonamides

Kato T., 1982:
Mechanism of action of the fungicide buthiobate

Buchenauer, H., 1977:
Mechanism of action of the fungicide imazalil in ustilago avenae

Wexler D.E.; Chenoweth D.E.; Cleary P.P., 1985:
Mechanism of action of the group a streptococcal complement c 5a inactivator

Andreev, G.K.; Amrhein, N., 1976:
Mechanism of action of the herbicide 2 chloro 3 4 chlorophenyl propionate and its methyl ester interaction with cell responses mediated by auxin

Roisch U.; Lingens F., 1980:
Mechanism of action of the herbicide n phosphonomethyl glycine its effect on growth and enzymes of aromatic amino acid biosynthesis in escherichia coli

Gabibov A.G.; Kochetkov S.N.; Sashchenko L.P.; Smirnov I.V.; Severin E.S., 1981:
Mechanism of action of the histone kinase dependent on cyclic amp interaction of atp with the catalytic subunit of the pig brain enzyme application of the quenched flow technique

Holland, P.C.; Clark, M.G.; Bloxham, D.P.; Lardy, H.A., 1973:
Mechanism of action of the hypo glycemic agent di phenyleneiodonium

Sander, G., 1981:
Mechanism of action of the new antibiotic kirromycin

Gombar, C.T.; Tong, W.P.; Ludlum, D.B., 1980:
Mechanism of action of the nitroso ureas 4. reactions of bis chloroethyl nitroso urea and chloroethylcyclohexylnitroso urea with dna

Tong, W.P.; Kirk, M.C.; Ludlum, D.B., 1983:
Mechanism of action of the nitroso ureas 5. formation of o 6 2 fluoroethyl guanine and its probable role in the cross linking of dna

Gombar C.T.; Tong W.P.; Ludlum D.B., 1979:
Mechanism of action of the nitroso ureas formation of 1 2 di guanosin 7 yl ethane from the reaction of 1 3 bis 2 chloroethyl 1 nitroso urea with guanosine

Tong, W.P.; Ludlum, D.B., 1978:
Mechanism of action of the nitroso ureas part 1 role of fluoroethyl cytidine in the reaction of bis fluoroethylnitroso urea with nucleic acids

Ludlum, D.B.; Tong, W.P., 1978:
Mechanism of action of the nitroso ureas part 2 formation of fluoroethyl guanosine from the reaction of bis fluoroethylnitroso urea and guanosine

Tong W.P.; Ludlum D.B., 1979:
Mechanism of action of the nitroso ureas part 3 reaction of bis chloroethylnitroso urea and bis fluoroethylnitroso urea with adenosine

Chen, S.F.; Ruben, R.L.; Dexter, D.L., 1986:
Mechanism of action of the novel anticancer agent 6 fluoro 2 2' fluoro 1 1' biphenyl 4 yl 3 methyl 4 quinolinecarboxylic acid sodium salt nsc 368390 inhibition of de novo pyrimidine nucleotide biosynthesis

Huang T F.; Yeh H I.; Ouyang C., 1984:
Mechanism of action of the platelet aggregation inhibitor purified from agkistrodon halys snake venom

Chan, L.; O'malley, B.W., 1976:
Mechanism of action of the sex steroid hormones part 1

Chan, L.; O'malley, B.W., 1976:
Mechanism of action of the sex steroid hormones part 2

Simon, L.; Porszasz, J.; Gibiszer, K.P.; Sallai, J.; Kadar, T.; Talpas, G.S., 1978:
Mechanism of action of the spasmogenic activity of pentylene tetrazole and of 1 2 3 4 tetra hydro iso quinolines on rat stomach fundus strips

Golding, B.T.; Sell, C.S.; Sellars, P.J., 1976:
Mechanism of action of the vitamin b 12 dependent enzyme diol dehydrase refinement of a model system involving photo decomposition of di hydroxyalkyl cobalt oximes

Hershey S.J.; Chew C.S.; Campbell L.; Hopkins E., 1981:
Mechanism of action of thio cyanate in isolated gastric glands

Hageman, T.C.; Scheraga, H.A., 1977:
Mechanism of action of thrombin ec 3.4.4.13 on fibrinogen reaction of the n terminal cyanogen bromide fragment from the beta chain of bovine fibrinogen with bovine thrombin

Marsh H.C.Jr; Meinwald Y.C.; Lee S.; Martinelli R.A.; Scheraga H.A., 1985:
Mechanism of action of thrombin on fibrinogen nmr evidence for a beta bend at or near fibrinogen a alpha glycine p 5 glycine p 4

Andreatta, R.H.; Liem, R.K.H.; Scheraga, H.A., 1971:
Mechanism of action of thrombin on fibrinogen part 1 synthesis of fibrinogen like peptides and their proteolysis by thrombin and trypsin

Shelegiya S.Y.; Kvernadze M.G.; Mosidze M.A.; Abesadze A.I., 1986:
Mechanism of action of thrombocytic mass transfusion in drug induced thrombocytopenia

Zatz, M.M.; Goldstein, A.L., 1985:
Mechanism of action of thymosin 1. thymosin fraction 5 increases lymphokine production by mature murine t cells responding in a mixed lymphocyte reaction

Rabourdin Combe C.; Yagello M.; Fridman W.H., 1979:
Mechanism of action of thymus derived cell factors modifying the antibody response

Tani M.; Yamaki M.; Nagatsuka Y.; Takayama T.; Fujii M.; Sakabe T.; Ono Y., 1988:
Mechanism of action of tnf on tumor cells comparison between tnf sensitive and insensitive cells

Abesadze, A.I.; Shelegiia, S.Ia., 1980:
Mechanism of action of transfused blood

Bounias M.; Morgan M.R.J., 1981:
Mechanism of action of trehalose as a mixed inhibitor of honey bee hemolymph p nitrophenyl alpha d glucosidase an in vitro kinetic study

Leung P.C.K.; Raymond V.; Labrie F., 1982:
Mechanism of action of TRH: involvement of the phosphatidylinositol (PI) response in the action of TRH in rat anterior pituitary cells

Sato Y., 1980:
Mechanism of action of trofosfamide and ifosfamide on tumor cells

Heifetz A.; Keenan R.W.; Elbein A.D., 1979 :
Mechanism of action of tunicamycin on the udp n acetyl glucosamine dolichyl phosphate n acetyl glucosamine 1 phosphate transferase

Ridley, W.P.; Houchins, J.P.; Kirkwood, S., 1975:
Mechanism of action of udp glucose dehydrogenase ec 1.1.1.22 evidence for a 2nd reversible dehydrogenation step involving an essential thiol group

Ordman, A.B.; Kirkwood, S., 1977:
Mechanism of action of udp glucose dehydrogenase evidence for an essential lysine residue at the active site

Mikuni M., 1987:
Mechanism of action of various psychotropic agents on serotonin receptors and transmembrane signal control

Lappe R.W.; Todt J.A.; Wendt R.L., 1985:
Mechanism of action of vasoconstrictor responses to atriopeptin ii in conscious spontaneously hypertensive rats

Cooper, C.L.; Malik, K.U., 1984:
Mechanism of action of vasopressin on prostaglandin synthesis and vascular function in the isolated rat kidney: effect of calcium antagonists and calmodulin inhibitors

Dowd P.; Trivedi B.K., 1985:
Mechanism of action of vitamin b 12 model studies directed toward the hydrogen abstraction reaction

Petitclerc, C.; Fecteau, C., 1977:
Mechanism of action of zinc and magnesium ions on rat placenta alkaline phosphatase ec 3.1.3.1 part 2 studies on membrane bound phosphatase in tissue sections and in whole placenta

Zagoskin, P.P.; Khvatova, E.M.; Luk'yanova, L.D., 1977:
Mechanism of action produced by neuroleptics of the phenothiazine series on the transport of electrons and oxidative phosphorylation in mitochondria

Beliakova, N.V.; Naryzhnyĭ, S.N.; Krutiakov, V.M., 1980 :
Mechanism of activating action of ATP on repair synthesis of DNA in chromatin

Il'chevich N.V.; Yanchii R.I., 1982:
Mechanism of activating anti cardiac antibody effect on electrical and contractile activity of myo cardial cells

Mariano, T.; Salas, M.L.; Lipmann, F., 1970:
Mechanism of activation by 3 5 cyclic amp of a protein phospho kinase from rabbit reticulocytes

Rose, Z.B.; Grove, D.S.; Seal, S.N., 1986:
Mechanism of activation by anions of phosphoglycolate phosphatases from spinach and human red blood cells

Teo, T.S.; Wang, J.H., 1973:
Mechanism of activation of a cyclic amp phospho di esterase from bovine heart by calcium ions identification of the protein activator as a binding protein

Sahyoun, N.; Cuatrecasas, P., 1975:
Mechanism of activation of adenylate cyclase ec 4.6.1.1 by cholera toxin

Rubio V.; Britton H.G.; Grisolia S.; Sproat B.S.; Lowe G., 1981:
Mechanism of activation of bi carbonate ion by mitochondrial carbamoyl phosphate synthetase formation of enzyme bound adp from the atp that yields inorganic phosphate

Radcliffe, R.; Nemerson, Y., 1976:
Mechanism of activation of bovine factor VII. Products of cleavage by factor Xa

Rahmatullah, M.; Roche, T.E.; Jilka, J.M.; Kazemi, M., 1985:
Mechanism of activation of bovine kidney pyruvate dehydrogenase ec 1.2.4.1 a kinase by malonyl coenzyme a and enzyme catalyzed decarboxylation of malonyl coenzyme a

Akiyama, H.; Sinha, D.; Seaman, F.S.; Kirby, E.P.; Walsh, P.N., 1986:
Mechanism of activation of coagulation factor XI by factor XIIa studied with monoclonal antibodies

Anderson, T.W.; Hirsch, C.; Kavaler, F., 1977:
Mechanism of activation of contraction in frog ventricular muscle

Abduragimov A.R.; Tyurkin V.V.; Kochetkov S.N.; Severin E.S., 1987:
Mechanism of activation of cyclic amp dependent protein kinase covalent modification of the holoenzyme by cupric 1 10 phenanthroline

Huang, C.Y.; Chau, V.; Chock, P.B.; Sharma, R.K.; Wang, J.H., 1981:
Mechanism of activation of cyclic nucleotide phospho di esterase ec 3.1.4.17 requirement of the binding of 4 calcium ions to calmodulin for activation

Donaldson, V.H., 1968:
Mechanism of activation of enz esterase of 1st component of complement in hereditary angioneurotic edema plasma in vitro the role of hageman factor a clot promoting agent human plasma kinins soy bean d enz trypsin

Stewart H.B.; E.M.ghrabi M.R.; Pilkis S.J., 1986:
Mechanism of activation of fructose 2 6 bisphosphatase by cyclic amp dependent protein kinase

Van D.W.rve G.; Hers H G., 1979:
Mechanism of activation of glycogen phosphorylase by fructose in the liver stimulation of phosphorylase kinase related to the consumption of atp

Marone, G.; Tamburini, M.; Giudizi, M.G.; Biagiotti, R.; Almerigogna, F.; Romagnani, S., 1987:
Mechanism of activation of human basophils by Staphylococcus aureus Cowan 1

Reddy, K.N.N.; Markus, G., 1972:
Mechanism of activation of human plasminogen by strepto kinase presence of active center in strepto kinase plasminogen complex

O'Hara, B.M.; Oskarsson, M.; Tainsky, M.A.; Blair, D.G., 1986:
Mechanism of activation of human ras genes cloned from a gastric adenocarcinoma and a pancreatic carcinoma cell line

Lawrence, C.H.; Morris, B.J., 1981:
Mechanism of activation of inactive renin ec 3.4.99.19 in human plasma by puff adder bitis arietans venom

Loutzenhiser R.; Van Breemen C., 1981:
Mechanism of activation of isolated rabbit aorta by prostaglandin h 2 analog u 44069

Grinstein S.; Smith J.D.; Rowatt C.; Dixon S.J., 1987:
Mechanism of activation of lymphocyte sodium hydrogen exchange by concanavalin a a calcium independent and protein kinase c independent pathway

Huang M T.; Chang R.L.; Fortner J.G.; Conney A.H., 1981:
Mechanism of activation of microsomal benzo a pyrene hydroxylation by flavonoids

Zeilig C.E.; Langan T.A., 1980:
Mechanism of activation of mitotic histone h 1 kinase

Prasad P.V.; Rao N.A., 1985:
Mechanism of activation of mung bean vigna radiata aspartate transcarbamylase by sds

Harnett, S.P.; Lowe, G.; Tansley, G., 1985:
Mechanism of activation of phenylalanine and synthesis of p 1 p 4 bis 5' adenosyl tetraphosphate by yeast phenylalanyl transfer rna synthetase

Hoppe, J.; Lawaczeck, R.; Rieke, E.; Wagner, K.G., 1978:
Mechanism of activation of protein kinase i ec 2.7.1.37 from rabbit skeletal muscle the equilibrium parameters of ligand interaction and protein dissociation

Rieke, E.; Hoppe, J.; Wagner, K.G., 1978:
Mechanism of activation of protein kinase i from rabbit skeletal muscle investigation with agarose immobilized cyclic amp derivatives/

Hoppe, J.; Rieke, E.; Wagner, K.G., 1978:
Mechanism of activation of protein kinase i from rabbit skeletal muscle mapping of the cyclic amp site by spin labeled cyclic nucleotides

Saito K.; Yamazoe Y.; Kato R.; Kamataki T., 1983:
Mechanism of activation of proximate mutagens in ames tester strains the acetyl coenzyme a dependent enzyme in salmonella typhimurium ta 98 deficient in ta 98 1 8 dnp 6 catalyzes dna binding as the cause of mutagenicity

Baumgarten, E.; Brand, M.D.; Pozzan, T., 1983:
Mechanism of activation of pyruvate dehydrogenase ec 1.2.4.1 by mitogens in pig lymphocytes

Rodriguez H.J.; Hogan W.C.; Hellman R.N.; Klahr S., 1980:
Mechanism of activation of renal sodium potassium atpase in the rat effects of potassium loading

Jacobson M.P.; Rodriguez H.J.; Hogan W.C.; Klahr S., 1980:
Mechanism of activation of renal sodium potassium atpase in the rat effects of reduction of renal mass

Maksimov G.V.; Stankova I.S.; Kol's O.R., 1981:
Mechanism of activation of sodium potassium atpase in nerve fibers during rhythmic excitation

Jurgensen S.; Shacter E.; Huang C.Y.; Chock P.B.; Yang S D.; Vandenheede J.R.; Merlevede W., 1984:
Mechanism of activation of the atp magnesium ii dependent phospho protein phosphatase by kinase f a

Schrader, J.W., 1973:
Mechanism of activation of the bone marrow derived lymphocyte part 3 a distinction between a macrophage produced triggering signal and the amplifying effect on triggered bone marrow derived lymphocytes of allogeneic interaction

Saint Remy J M.R., 1984:
Mechanism of activation of the classical pathway of complement by mono clonal immuno globulin e des restricted regulation of c 4b by c 4b binding protein

Horowitz M.; Luria S.; Rechavi G.; Givol D., 1984:
Mechanism of activation of the mouse c mos oncogene by the long terminal repeat of an intracisternal a particle gene

Evstigneev, V.B.; Nazarova, I.G., 1975:
Mechanism of activation of the photo sensitizing action of water soluble analogs of chlorophyll upon their binding by polymer

Wotring L.L.; Crabtree G.W.; Edwards N.L.; Parks R.E.Jr; Townsend L.B., 1986:
Mechanism of activation of triciribine phosphate as a prodrug form of triciribine

Silva, P.; Stoff, J.; Field, M.; Fine, L.; Forrest, J.N.; Epstein, F.H., 1977:
Mechanism of active chloride secretion by shark rectal gland role of sodium potassium atpase in chloride transport

Soboslai, G.B.; McTigue, M.; Weiner, M.W., 1977:
Mechanism of active chloride transport by urinary bladder of the Colombian toad

Matveeva T.V.; D'yakonova I.N.; Shaidullina F.S., 1981:
Mechanism of active rosette forming t lymphocytes in patients with scleroderma

Stein L.A.; Schwarz R.P.Jr; Chock P.B.; Eisenberg E., 1979:
Mechanism of acto myosin atpase evidence that atp hydrolysis can occur without dissociation of the acto myosin complex

Saman, S.; Jacobs, P.; Opie, L.H., 1984:
Mechanism of acute anthracycline cardio toxicity in isolated rat hearts carminomicin vs. daunomycin

Tsuchihashi Y., 1982:
Mechanism of acute gastric mucosal lesion after central nerve injury in the rat

Berl, T.; Levi, M.; Ellis, M.; Chaimovitz, C., 1985:
Mechanism of acute hypercalcemic hypertension in the conscious rat

Tutel'yan V.A.; Lashneva N.V., 1983:
Mechanism of acute toxic action of n nitroso di methylamine

Narasimhan N.S.; Ammanamanchi R., 1983:
Mechanism of acylation of di lithium salts of beta keto esters an efficient synthesis of anibine

Kantomaa, T.; Hall, B.K., 1988:
Mechanism of adaptation in the mandibular condyle of the mouse. An organ culture study

Romero C.O.; Zanders I.P., 1980:
Mechanism of adaptation of the crab goniopsis cruentata to ionic changes in the medium

Kamenov L.A.; Shilova S.A.; Zolotarev S.A.; Bolokhovets M.F., 1980:
Mechanism of adaptation of wild house mice mus musculus to zoo coumarin at different stages of model population existence

Stuy, J.H., 1980:
Mechanism of additive genetic transformation in Haemophilus influenzae

Mikhailov M.V.; Zasedatelev A.S.; Krylov A.S.; Gurskii G.V., 1981:
Mechanism of adenine thymine base pair recognition by molecules of hoechst 33258 dye

Levine, R.A.; Taylor, M.W., 1982:
Mechanism of adenine toxicity in Escherichia coli

Osswald, H.; Spielman, W.S.; Knox, F.G., 1978:
Mechanism of adenosine mediated decreases in glomerular filtration rate in dogs

Haneda K.; Kodaira R., 1987:
Mechanism of adenosine production by xanthine requiring mutants derived from a bacillus strain

Worku Y.; Newby A.C., 1983:
Mechanism of adenosine production in rat polymorphonuclear leukocytes

Cassel, D.; Selinger, Z., 1977:
Mechanism of adenylate cyclase ec 4.6.1.1 activation by cholera toxin inhibition of gtp hydrolysis at the regulatory site

Shyy Y J.; Tian G.; Tsai M D., 1987:
Mechanism of adenylate kinase does atp bind to the amp site

Irvin, R.T.; To, M.; Costerton, J.W., 1984:
Mechanism of adhesion of Alysiella bovis to glass surfaces

Chen, P.; Farrar, J.J.; Oppenheim, J.J.; Mergenhagen, S.E., 1977:
Mechanism of adjuvant activity of dental plaque in vitro activation of residual helper thymus derived cell precursors in thymus derived cell deficient murine spleen cell cultures

Douglas, J.G., 1981:
Mechanism of adrenal angiotensin II receptor changes after nephrectomy in rats

Wong, P.Y., 1988:
Mechanism of adrenergic stimulation of anion secretion in cultured rat epididymal epithelium

Incardona, N.I.; Selvidge, L.R., 1973:
Mechanism of adsorption and eclipse of bacterio phage phi x 174 part 2 attachment and eclipse with isolated escherichia coli cell wall lipo poly saccharide

Incardona, N.L., 1974:
Mechanism of adsorption and eclipse of bacterio phage phi x 174 part 3 comparison of the activation parameters for the in vitro and in vivo eclipse reactions with mutant and wild type virus

Incardona, N.L.; Blonski, R.; Feeney, W., 1971:
Mechanism of adsorption and eclipse of bacterio phage x phi 174 part 1 in vitro conformational change under conditions of eclipse

Y.F L., 1981:
Mechanism of afla toxin b 1 inhibition of rat liver nucleolar rna synthesis

Chen S C.G.; Lin M M.; Chung M F., 1983:
Mechanism of aflatoxicol inhibition of rat liver nuclear rna synthesis

Saruta, T.; Suzuki, A.; Hayashi, M.; Yasui, T.; Eguchi, T.; Kato, E., 1980:
Mechanism of age related changes in renin and adreno cortical steroids

Green M.L.; Morant S.V., 1981:
Mechanism of aggregation of casein micelles in rennet treated milk

Sun, M.C.; Chang, Z.G.; Shau, M.Z.; Huang, R.H.; Chou, T.C., 1979:
Mechanism of aging of phosphonylated acetyl cholin esterase ec 3.1.1.7

Dulic V.; Gafni A., 1987:
Mechanism of aging of rat muscle glyceraldehyde-3-phosphate dehydrogenase studied by selective enzyme-oxidation

Yavorskii A.N.; Sorokina A.V.; Lyubimov B.I., 1982:
Mechanism of alcohol toxic action on rat liver reparative regeneration

Kaklij, G.S.; Kelkar, S.M., 1983:
Mechanism of aldolase binding to erythrocyte membrane 1. effect of membrane phosphorylation on aldolase association

Kelkar, S.M.; Kaklij, G.S., 1983:
Mechanism of aldolase binding to erythrocyte membrane 2. kinetic aspects

Borchardt R.T., 1979:
Mechanism of alkaline hydrolysis of s adenosyl l methionine and related sulfonium nucleosides

Brown A.J.; Snyder F., 1983:
Mechanism of alkyldihydroxy acetone phosphate synthase formation of tritiated water from tritium labeled acyldihydroxy acetone phosphate by purified alkyldihydroxy acetone phosphate synthase in the absence of acyl hydrolase activity

Kruglikov G.G.; Ostapkovich V.E.; Pankova V.B., 1981:
Mechanism of allergic inflammation development in the nasal cavity mucosa under the effect of chemical allergens

Vandenbunder, B.; Dreyfus, M.; Bertrand, O.; Dognin, M.J.; Sibilli, L.; Buc, H., 1981:
Mechanism of allo steric activation of glycogen phosphorylase ec 2.4.1.1 probed by the reactivity of essential arginine residues identification of an arginine residue involved in the binding of glucose 1 phosphate

Dreyfus, M.; Vandenbunder, B.; Buc, H., 1980:
Mechanism of allo steric activation of glycogen phosphorylase ec 2.4.1.1 probed by the reactivity of essential arginyl residues physicochemical and kinetic studies

Swain, S.L., 1978:
Mechanism of allo suppression evidence for direct suppression of responding bone marrow derived cells

Tax, W.J.M.; Veerkamp, J.H.; Trijbels, F.J.M.; Schretlen, E.D.A.M., 1976:
Mechanism of allopurinol mediated inhibition and stabilization of human orotate phospho ribosyl transferase and orotidine phosphate decarboxylase

Cable, M.B.; Feher, J.J.; Briggs, F.N., 1985:
Mechanism of allosteric regulation of the calcium magnesium atpase of sarcoplasmic reticulum studies with 5' adenylylmethylenediphosphate

Villarruel M.C.; Fernandez G.; D.F.rreyra E.C.; D.F.nos O.M.; Castro J.A., 1982:
Mechanism of alloxan diabetes potentiation of carbon tetra chloride induced liver necrosis

Christensen, U.; Sottrup-Jensen, L., 1984:
Mechanism of alpha 2 macroglobulin proteinase interactions studies with trypsin ec 3.4.21.4 and plasmin ec 3.4.21.7

Rasmussen, R.K.; Klein, H.P., 1968:
Mechanism of alpha glycero phosphate regulation of enz acetyl coenzyme a carboxylase of saccharomyces cerevisiae

Belzecki C.M.; Quigley F.R.; Floss H.G.; Crespi Perellino N.; Guicciardi A., 1980:
Mechanism of alpha hydroxy alpha amino acid formation in the biosynthesis of peptide ergot alkaloids

Novoa E.; Seegers W.H., 1980:
Mechanism of alpha thrombin and beta thrombin e formation use of ecarin for isolation of meizo thrombin 1

Jonsson G.G.; Jacobson E.L.; Jacobson M.K., 1988:
Mechanism of alteration of poly adp ribose metabolism by hyperthermia

Cheng, J.T.; Kahn, T.; Kaji, D.M., 1984:
Mechanism of alteration of sodium potassium pump of erythrocytes from patients with chronic renal failure

Kronquist K.E.; Pedersen M.E.; Schotz M.C., 1980:
Mechanism of alteration of the functional fraction of lipoprotein lipase in rat heart

Morrison V.V., 1979:
Mechanism of alterations in energy and electrolyte metabolism of respiratory muscles during experimental botulism

Hoke, G.D.; Rush, G.F.; Bossard, G.F.; McArdle, J.V.; Jensen, B.D.; Mirabelli, C.K., 1988:
Mechanism of alterations in isolated rat liver mitochondrial function induced by gold complexes of bidentate phosphines

Giles H.G.; Long J.P.; Orrego H.; Sellers E.M., 1982:
Mechanism of alterations in propyl thio uracil disposition after long term therapy

Riva, R.; Albani, F.; Contin, M.; Baruzzi, A.; Altomare, M.; Merlini, G.P.; Perucca, E., 1984:
Mechanism of altered drug binding to serum proteins in pregnant women: studies with valproic acid

Bando, S.; Hiraga, T.; Tada, N.; Shinomiya, H.; Hamai, K.; Matsuoka, H.; Shimizu, R.; Hashiguchi, T.; Matsuyama, K.; Mori, H., 1985:
Mechanism of alternating bundle branch block

Mulvey, R.S.; Fersht, A.R., 1978:
Mechanism of amino acylation of transfer rna a pre steady state analysis of the reaction pathway catalyzed by the methionyl transfer rna synthetase of bacillus stearothermophilus

Natarajan V.; Gopinathan K.P., 1981:
Mechanism of amino acylation of transfer rna influence of spermine on the kinetics of aminoacyl transfer rna synthesis by iso leucyl transfer rna synthetase and valyl transfer rna synthetase from mycobacterium smegmatis

Takala T.; Hiltunen J.K.; Hassinen I.E., 1980:
Mechanism of ammonia production and effect of mechanical work load on proteolysis and amino acid catabolism isolated perfused rat heart

Knepper, M.A.; Good, D.W.; Burg, M.B., 1984:
Mechanism of ammonia secretion by cortical collecting ducts of rabbits

Birshtein V.Ya, 1981:
Mechanism of ammonia silver staining effect of pre treatments of chromosomes with lysozyme and hyaluronidase

Gutiérrez, C.; Beaty, G.; López-Vancell, R.; Estrada, S., 1987:
Mechanism of ammonium translocation in rat liver mitochondria. Finger-printing of the translocator

Stone S.R.; Fromm H.J., 1980:
Mechanism of amp inhibition of bovine liver fructose 1 6 bis phosphatase

Zherebtsov, N.A.; Zabelin, L.F.; Ektova, A.I., 1976:
Mechanism of amylase action on glucosidic bonds in starch

Michelot, J.; Maurizis, J.C.; Nicolas, C.; Meyniel, G., 1978:
Mechanism of an in vitro biosynthesis of thyroid hormones from 3 5 di iodo l tyrosyl 3 5 diiodo l tyrosine part 1 manifestation of the elimination of the alanine side chain of the amino terminal di iodo tyrosine

Maurizis, J.C.; Michelot, J.; Meyniel, G., 1978:
Mechanism of an in vitro biosynthesis of thyroid hormones from 3 5 di iodo l tyrosyl 3 5 diiodo l tyrosine part 2 role of the pyridoxal phosphate and of the peroxidase

Klimov S.V.; Dzhanumov D.A.; Bocharov E.A., 1981:
Mechanism of an increase in frost and winter resistance in cold hardening of winter wheat triticum aestivum

Syrov V.N., 1984:
Mechanism of anabolic action of phytoecdysteroids in mammals

Murayama, M.; Ito, T.; Konno, C.; Hikino, H., 1984:
Mechanism of analgesic action of mesaconitine 1. relationship between analgesic effect and central mono amines or opiate receptors

Ehrenpreis, S., 1978:
Mechanism of analgesic drug action evidence for involvement of prostaglandins

Aleshin V.B.; Bondarenko L.A., 1982:
Mechanism of androgenopoiesis disorder during stress

Pippard M.J.; Moir D.; Weatherall D.J.; Lenicker H.M., 1986:
Mechanism of anemia in resistant visceral leishmaniasis

Neustroev G.V., 1980:
Mechanism of anemia induced by long term administration of erythrocytic chalone

Jeri A.; Leroy M.; Quinoz G., 1987:
Mechanism of anemia observed in children living in the amazon forest of peru

Kumar R., 1979:
Mechanism of anemia of chronic infection estimation of labile iron pool and interpretation of ferro kinetic data

Sillans D., 1979:
Mechanism of anesthesia with carbon di oxide in bombyx mori using variations in circulatory rhythm

Oparil S.; Koerner T.; O'donoghue J.K., 1979:
Mechanism of angiotensin i converting enzyme inhibition by sq 20881 pyro glutamyltryptophylprolylarginylprolylglutaminylisoleucylprolyl proline in vivo further evidence for extrapulmonary conversion

Swies J.; Radomski M.; Gryglewski R.J., 1981:
Mechanism of angiotensin ii induced release of prostacyclin

Macara I.G.; Cantley L.C., 1981:
Mechanism of anion exchange across the red cell membrane by band 3 interactions between stilbenedisulfonate and 2 n 4 azido 2 nitrophenylamino ethanesulfonate binding sites

Bormann J.; Hamill O.P.; Sakmann B., 1987:
Mechanism of anion permeation through channels gated by glycine and gamma aminobutyric acid in mouse cultured spinal neurons

Vatashsky, E.; Beilin, B.; Razin, M.; Weinstock, M., 1986:
Mechanism of antagonism by physostigmine of acute flunitrazepam intoxication

Orel, L.I.; Zhakova, M.A., 1977:
Mechanism of anther dehiscence in the tomato lycopersicon esculentum solanaceae/

Lawrence, C.M.; Shuster, S., 1985:
Mechanism of anthralin inflammation 1. dissociation of response to clobetasol and indomethacin

Hirai A.; Terano T.; Hamazaki T.; Sajiki J.; Saito H.; Tahara K.; Tamura Y.; Kumagai A., 1983:
Mechanism of anti aggregatory effect of moutan cortex

Maksimovich Y.B.; Gaidenko A.I.; Aksel'rod L.B.; Malakhova O.P., 1979:
Mechanism of anti arrhythmic action of potassium and magnesium nicotinates

Olsson, S.B., 1971:
Mechanism of anti arrhythmic action of propranolol

Rawn, C.D.; Van-Etten, J.L., 1978:
Mechanism of anti bacterial antibiotic sensitivity in pythium ultimum

Yoneyama, K.; Sekido, S.; Misato, T., 1978:
Mechanism of anti bacterial selectivity of 2 amino 1 3 4 thiadiazole

Litvitskii, P.F.; Kogan, A.K., 1978:
Mechanism of anti blastomic resistance reduction in nephrogenic hypertension

O'flaherty, J.T.; Craddock, P.R.; Jacob, H.S., 1977 :
Mechanism of anti complementary activity of cortico steroids in vivo possible relevance in endo toxin shock

Sharma V.; Kumar R.; Siddiqui H.H.; Tandon P.N.; Banerji A.K.; Bhide N.K.; Menon R.K., 1983:
Mechanism of anti diuresis by carbamazepine in diabetes insipidus

Lee, H.K.; Chung, P.M.; Wang, S.C., 1978:
Mechanism of anti emetic action of penfluridol in the dog

Kataria H.R.; Thakkar R.K., 1981:
Mechanism of anti fungal action of aureofungin against saccharomyces cerevisiae

Avenirova E.L., 1979:
Mechanism of anti fungal action of component 2f of preparation k

Hisada, Y.; Kato, T.; Kawase, Y., 1978:
Mechanism of anti fungal action of procymidone in botrytis cinerea

Fritz, R.; Leroux, P.; Gredt, M., 1977:
Mechanism of anti fungal action of promidione 26019 rp or glycophene vinclozolin and dicloran on botrytis cinerea

Stebaeva L.F.; Nikolaeva I.S.; Pershin G.N., 1980:
Mechanism of anti herpetic action of bonaphthon rabbits

Zsoter, T.T.; Hart, F.; Radde, I.C., 1970:
Mechanism of anti hypertensive action of prolonged administration of hydro chlorothiazide in rabbit and dog

Gupta, M.B.; Kumar, R.; Tangri, K.K.; Bhargava, K.P., 1977:
Mechanism of anti inflammatory activity of substituted 4 quinazolone salicyl esters

Onishchenko N.A.; Kirpatovskii V.I.; Artamonov S.D.; Khorin A.T.; Galaeva G.N., 1980:
Mechanism of anti ischemic protection of the kidneys with preparations of various pharmacological groups

Yu, D.H.; Triester, S.; Gluckman, M.I., 1971:
Mechanism of anti lipolytic effects of cardiac glycosides

Quatrale, R.F.; Coble, D.W.; Stoner, K.L.; Felger, C.B., 1981:
Mechanism of anti perspirant action by aluminum salts 2. histological observations of human eccrine sweat glands inhibited by aluminum chlorhydrate

Hoelzle E.; Kligman A.M., 1979:
Mechanism of anti perspirant action of aluminum salts

Morozova K.I., 1980:
Mechanism of anti silicotic action of glutamic acid

Hayashiya, K.; Uchida, Y.; Himeno, M., 1978:
Mechanism of anti viral action of red fluorescent protein on nuclear polyhedrosis virus in silkworm larvae

Eppstein, D.A.; Marsh, Y.V.; Schryver, B.B., 1983:
Mechanism of anti viral activity of the xylo adenosine core analog of the interferon mediator 2' 5' oligo adenylate

Sturdik E.; Heriban V.; Sulova Z.; Drobnica L., 1983:
Mechanism of anti yeast activity of juglone a naturally occurring 1 4 naphtho quinone

Mizuguchi, Y.; Udou, T.; Yamada, T., 1983:
Mechanism of antibiotic resistance in Mycobacterium intracellulare

Bartholomew R.M.; Esser A.F., 1980:
Mechanism of antibody independent activation of complement c 1 on retrovirus membranes

Xia X.; Y.S., 1987:
Mechanism of anticancer action of selenium influence on glycolysis and its key enzyme

Wada Y.; Oka S.; Yamashita T.; Kumazawa T.; Kawamoto K., 1988:
Mechanism of anticancer drug action in head and neck cancer demonstrated by flow cytometry analysis of the in vitro mode of action of cisplatin plus peplomycin

Wada Y.; Oka S.; Yamashita T.; Kumazawa T.; Kawamoto K., 1987:
Mechanism of anticancer drug action in head and neck cancer demonstrated by flow cytometry first report analysis of mechanism of cisplatin action by three dimensional color display

Gibbs, A.; Nesheim, M.E.; Campbell, A.; Doctor, V.M., 1987:
Mechanism of anticoagulant action by protein inhibitors from bovine testes and salmon sperm

Puri J.; Lonai P., 1980:
Mechanism of antigen binding by thymus derived cells h 2i a restricted binding of antigen plus ia by helper cells

Kiso, Y.; Tohkin, M.; Hikino, H.; Ikeya, Y.; Taguchi, H., 1985:
Mechanism of antihepatotoxic activity of wuweizisu C and gomisin A

Uryupov O.Yu; Sumina E.N., 1985:
Mechanism of antihypoxic action of zinc compounds

Gresele P.; Arnout J.; Deckmyn H.; Vermylen J., 1986:
Mechanism of antiplatelet action of dipyridamole in whole blood modulation of adenosine concentration and activity

Masuda, H., 1987:
Mechanism of antirachitic effects of triiodothyronine i. experiments performed with steenbock rachitogenic diet

Isner, J.M.; Samuels, D.A.; Slovenkai, G.A.; Halaburka, K.R.; Hougen, T.J.; Desnoyers, M.R.; Fields, C.D.; Salem, D.N., 1988:
Mechanism of aortic balloon valvuloplasty: fracture of valvular calcific deposits

Birari S.P., 1981:
Mechanism of apomixis in pennisetum polystachyon

Starmer C.F.; Hollett M.D., 1985:
Mechanism of apparent affinity variation of guarded receptors

Lagunas R.; Dominguez C.; Busturia A.; Saez M.J., 1982:
Mechanism of appearance of the pasteur effect in saccharomyces cerevisiae inactivation of sugar transport systems

Boogaerts M.A.; Peters M.; Peersman C.; Kesteloot H.; Verwilghen R.L., 1984:
Mechanism of aprindine induced agranulocytosis direct toxicity on granulocyte macrophage committed stem cells and pluripotential stem cells

Kalkar C.D.; Arnikar H.J.; Doshi S.V.; Varkhede R.S., 1985:
Mechanism of aqualuminescence in alkaline luminol

Lee N.L.; Gielow W.O.; Wallace R.G., 1981:
Mechanism of arac auto regulation and the domains of 2 overlapping promoters p c and p b a d in the l arabinose regulatory region of escherichia coli

Chan K M.; Turk J., 1987:
Mechanism of arachidonic acid induced calcium mobilization from rat liver microsomes

Goodman, M.W.; Zieve, L.; Konstantinides, F.N.; Cerra, F.B., 1984:
Mechanism of arginine protection against ammonia intoxication in the rat

Herchuelz A.; Lebrun P.; Boschero A.C.; Malaisse W.J., 1984:
Mechanism of arginine stimulated calcium influx into pancreatic beta cell

DeVane, G.W.; Naden, R.P.; Porter, J.C.; Rosenfeld, C.R., 1982:
Mechanism of arginine vasopressin release in the sheep fetus

Miki K.; Kondo R.; Renganathan V.; Mayfield M.B.; Gold M.H., 1988:
Mechanism of aromatic ring cleavage of a beta biphenylyl ether dimer catalyzed by lignin peroxidase of phanerochaete chrysosporium

Puech P., 1980:
Mechanism of arrhythmia in myo cardial infarction

Cuocolo A.; Vecchione F.; Lembo G.; Molaro M.; Ricci A.; D.R.sa P.; Volpe M., 1987:
Mechanism of arterial blood pressure regulation relationship between the parasympathetic system and the atrial natriuretic factor

Miller, C.A.; Wang, P.; Flashner, M., 1978:
Mechanism of arthrobacter sialophilus neuraminidase ec 3.2.1.18 the binding of substrates and transition state analogs

Klimenko, V.V., 1980:
Mechanism of artificial parthenogenesis in chinese silkworm 1. dependence of the effect of thermo activation upon the rate of post activation cooling

Klimenko, V.V., 1980:
Mechanism of artificial parthenogenesis in chinese silkworm 2. reactivation of unfertilized eggs deactivated in the cooling gradient after heating

Duffel, M.W.; Jakoby, W.B., 1981:
Mechanism of aryl sulfo transferase ec 2.8.2.1

Baluda, V.P.; Shiryaev, V.V.; Simova, N.; Georgievskaya, B., 1977:
Mechanism of aspirins action on blood thrombocyte functions

Osborn, M.J.; Gander, J.E.; Parisi, E.; Carson, J., 1972 :
Mechanism of assembly of the outer membrane of Salmonella typhimurium. Isolation and characterization of cytoplasmic and outer membrane

Osborn, M.J.; Rick, P.D.; Rasmussen, N.S., 1980:
Mechanism of assembly of the outer membrane of Salmonella typhimurium. Translocation and integration of an incomplete mutant lipid A into the outer membrane

Kuramochi, H.; Nakata, H.; Ishii, S., 1979:
Mechanism of association of a specific aldehyde inhibitor, leupeptin, with bovine trypsin

Kennedy W.P.; Schultz R.M., 1979:
Mechanism of association of a specific aldehyde transition state analog to the active site of alpha chymotrypsin

Kawabata A.; Sawayama S.; Nakhara H.; Kamata T., 1981:
Mechanism of association of various demethylated pectins by calcium ions

Yokozeki K.; Kubota K., 1987:
Mechanism of asymmetric production of d amino acids from the corresponding hydantoins by pseudomonas sp

Yokozeki K.; Hirose Y.; Kubota K., 1987:
Mechanism of asymmetric production of l aromatic amino acids from the corresponding hydantoins by flavobacterium sp

Geeves M.A.; Webb M.R.; Midelfort C.F.; Trentham D.R., 1980:
Mechanism of atp cleavage by myosin studies with oxygen 18 labeled atp

Gafurov-Yu, M.; Sibirtsev-Yu, T.; Skoblov-Yu, S.; Rasskazov, V.A., 1980:
Mechanism of atp dependent dnase from sea urchin strongylocentrotus intermedius embryos 1. effect on circular dna

Grubmeyer, C.; Cross, R.L.; Penefsky, H.S., 1982:
Mechanism of ATP hydrolysis by beef heart mitochondrial ATPase. Rate constants for elementary steps in catalysis at a single site

Cross, R.L.; Grubmeyer, C.; Penefsky, H.S., 1982:
Mechanism of ATP hydrolysis by beef heart mitochondrial ATPase. Rate enhancements resulting from cooperative interactions between multiple catalytic sites

Webb M.R.; Trentham D.R., 1981:
Mechanism of atp hydrolysis catalyzed by myosin and acto myosin using rapid reaction techniques to study oxygen exchange

Muhlrad A., 1983:
Mechanism of atpase activity of tri nitro phenylated myosin subfragment 1

Ohe T.; Matsuhisa M.; Kamakura S.; Hirata Y.; Ejiri N.; Shimomura K., 1982:
Mechanism of atrio ventricular conduction delay in atrio ventricular nodal gap

Sideris, D.A.; Moulopoulos, S.D., 1977:
Mechanism of atrio ventricular conduction study on an analog

Larkin, J.M.; Nelson, R., 1987:
Mechanism of attachment of swarm cells of Thiothrix nivea

Gawryszewski L.G.; Riggio L.; Dascola I.; Rizzolatti G.; Umilta C., 1985:
Mechanism of attention for visual stimuli in the frontal and sagittal planes

Marumo K.; Ueno M.; Hayakawa M.; Jitsukawa S.; Murai M.; Tazaki H., 1984:
Mechanism of augmentation of natural cytotoxicity by human beta interferon

Ohmori, H.; Yamamoto, I., 1982:
Mechanism of augmentation of the antibody response in vitro by 2 mercapto ethanol in murine lymphocytes 1. 2 mercapto ethanol induced stimulation of the uptake of cystine an essential amino acid

Ohmori, H.; Yamamoto, I., 1983:
Mechanism of augmentation of the antibody response in vitro by 2 mercapto ethanol in murine lymphocytes 2. a major role of the mixed di sulfide between 2 mercapto ethanol and cysteine

Ohmori, H.; Yamamoto, I., 1983:
Mechanism of augmentation of the antibody response in vitro by 2 mercapto ethanol in murine lymphocytes 3. serum bound and oxidized 2 mercapto ethanol are available for the augmentation

Iinuma, H.; Kato, K., 1979:
Mechanism of augmented premature responses in canine ventricular muscle

Tomoda A.; Takizawa T.; Yoneyama Y., 1984:
Mechanism of aut oxidation of hemo globin kempsey

Chin D H.; L.M.r G.N.; Balch A.L., 1980:
Mechanism of aut oxidation of iron ii porphyrins detection of a per oxo bridged iron iii porphyrin dimer and the mechanism of its thermal decomposition to the oxo bridged iron iii porphyrin dimer

Renner G.; Gaber H., 1980:
Mechanism of auto catalytic met hemo globin formation by di methyl aniline oxide studies to clarify the structure of 2 di methylamino 4 n methylanilino phenol

Kosaka H.; Imaizumi K.; Tyuma I., 1982:
Mechanism of auto catalytic oxidation of oxy hemo globin by nitrite an intermediate detected by esr

Kondrashova M.N.; Zinchenko V.P.; Kondrashov A.S.; Okon E.B., 1983:
Mechanism of auto oscillations in mitochondria based on succinate dehydrogenase activity modulations

Mamisashvili V.A.; Mchedlishvili G.I.; Ormotsadze L.G.; Laskhishvili G.O., 1983:
Mechanism of auto regulation of cerebral blood flow the role of neurogenic and myogenic vascular responses

Hebeler, B.H.; Young, F.E., 1976:
Mechanism of autolysis of Neisseria gonorrhoeae

Kuret J.; Schulman H., 1985:
Mechanism of autophosphorylation of the multifunctional calcium calmodulin dependent protein kinase

Castro P.R.C., 1979:
Mechanism of auxin action

Levine W.G.; Raza H., 1988:
Mechanism of azoreduction of dimethylaminoazobenzene by rat liver nadph cytochrome p 450 reductase and partially purified cytochrome p 450 oxygen and carbon monoxide sensitivity and stimulation by fad and fmn

Bando K.; Kubota M.; Sekiya M.; Imano E.; Yamasaki Y.; Kawamori R.; Shichiri M.; Kamada T., 1987:
Mechanism of b cell resting in non insulin dependent diabetic patients glycemic control or insulinemic normalization

Novikov V.V.; Metlina A.L.; Poglazov B.F., 1983:
Mechanism of bacillus brevis flagellin polymerization

Groudev S., 1979:
Mechanism of bacterial oxidation of pyrite

Joiner K.A.; Schmetz M.A.; Goldman R.C.; Leive L.; Frank M.M., 1984:
Mechanism of bacterial resistance to complement mediated killing inserted c 5b 9 correlates with killing for escherichia coli o 111b 4 varying in o antigen capsule and o poly saccharide coverage of lipid a core oligo saccharide

Kondo, E.; Kanai, K., 1985:
Mechanism of bactericidal activity of lysolecithin and its biological implication

Lee, C.Y.; Iandolo, J.J., 1985:
Mechanism of bacteriophage conversion of lipase activity in Staphylococcus aureus

Meerson, F.Z.; Bogomolov, A.F., 1978:
Mechanism of basal metabolism decrease in hypoxia adaptation

Alpern R.J., 1985:
Mechanism of basolateral membrane proton hydroxide bicarbonate transport in the rat proximal convoluted tubule a sodium coupled electrogenic process

Distefano J.F.; Zucker S.; Beck G., 1983:
Mechanism of bcg activated macrophage induced tumor cell cyto toxicity evidence for oxygen dependent and independent mechanisms

Liotta, L.A.; Kleinerman, J.; Saidel, G.M., 1976:
Mechanism of bcg induced suppression of metastases in a poorly immunogenic fibro sarcoma

Greer G.G., 1982:
Mechanism of beef shelf life extension by sorbate

Gamper H.B.; Bartholomew J.C.; Calvin M., 1980:
Mechanism of benzo a pyrenediol epoxide induced dna strand scission

Macris, B.J., 1975:
Mechanism of benzoic acid uptake by Saccharomyces cerevisiae

Mudliar A.; Bharti S., 1984:
Mechanism of benzyladenine induced chlorophyll synthesis in excised cucumber cucumis sativus cultivar long green cotyledons

Miki K.; Renganathan V.; Gold M.H., 1986:
Mechanism of beta aryl ether dimeric lignin model compound oxidation by lignin peroxidase of phanerochaete chrysosporium

Page M.I.; Proctor P., 1984 :
Mechanism of beta lactam ring opening in cephalosporins

Brown S.B.; Holroyd A.J.; Troxler R.F., 1980:
Mechanism of bile pigment synthesis in algae oxygen 18 incorporation into phycocyanobilin in the uni cellular rhodophyte cyanidium caldarium

Hirata, E.; Inoue, M.; Morino, Y., 1984:
Mechanism of biliary secretion of membranous enzymes bile acids are important factors for biliary occurrence of gamma glutamyltransferase ec 2.3.2.2 and other hydrolases

Inoue M.; Kinne R.; Tran T.; Arias I.M., 1983:
Mechanism of biliary secretion of reduced glutathione analysis of transport process in isolated rat liver canalicular membrane vesicles

Dugan, R.E.; Porter, J.W., 1971:
Mechanism of binding nadph to vertebrate fatty acid synthetases sites and type of bonding con formation of coenzyme and binding of analogues

Blekhman, G.I., 1985:
Mechanism of binding of 2' 3' nucleotidase from wheat leaves cultivar diamant with a polypeptide inhibitor under conditions of water deficit

Oswald, R.E.; Michel, L.; Bigelow, J., 1986:
Mechanism of binding of a benzomorphan opiate to the acetylcholine receptor from Torpedo electroplaque

Sekhar V.C.; Plapp B.V., 1988:
Mechanism of binding of horse liver alcohol dehydrogenase and nad

Lane, A.N.; Kirschner, K., 1983:
Mechanism of binding of l serine to tryptophan synthase ec 4.2.1.20 from escherichia coli

Brewer C.F.; Brown R.D.IIi, 1979:
Mechanism of binding of mono saccharides and oligo saccharides to concanavalin a a solvent proton magnetic relaxation dispersion study

Leatherbarrow R.J.; Dean P.D.G., 1980:
Mechanism of binding of serum albumins to immobilized cibacron blue f 3ga

Carr, R.J.; Bilton, R.F.; Atkinson, T., 1985:
Mechanism of biodegradation of paraquat by Lipomyces starkeyi

Scher F.M.; Baker R., 1980:
Mechanism of biological control in a fusarium suppressive soil

Liu S D.; Baker R., 1980:
Mechanism of biological control in soil suppressive to rhizoctonia solani

Lifshitz R.; Windham M.T.; Baker R., 1986:
Mechanism of biological control of preemergence damping off of pea pisum sativum cultivar laxton progress by seed treatment with trichoderma spp

Bindokas, V.P.; Gauger, J.R.; Greenberg, B., 1988:
Mechanism of biological effects observed in honey bees apis mellifera l. hived under extra high voltage transmission lines implications derived from bee exposure to simulated intense electric fields and shocks

Skvareninova K.; Sturdik E.; Skarka B., 1987:
Mechanism of biological effects of cephalosporins

Sabban, E.L.; Greene, L.A.; Goldstein, M., 1983:
Mechanism of biosynthesis of soluble and membrane bound forms of dopamine beta hydroxylase ec 1.14.17.1 in pc 12 pheo chromo cytoma cells

Dutton, G.J.; Illing, H.P.A., 1972:
Mechanism of biosynthesis of thio beta d glucuronides and thio beta d glucosides

Smirnov S.V.; Ganitkevich V.Ya; Shuba M.F., 1986 :
Mechanism of bivalent cation action on the calcium conductance of a single smooth muscle cell membrane

Ogawa M.; Kurotsu T.; Ochiai I.; Kozima T.T., 1983:
Mechanism of black dis coloration in spiny lobster tails stored in ice

Feierabend J.; Winkelhuesener T.; Kemmerich P.; Schulz U., 1982:
Mechanism of bleaching in leaves treated with chlorosis inducing herbicides

Wu, J.C.; Stubbe, J.; Kozarich, J.W., 1985:
Mechanism of bleomycin evidence for 4' ketone formation in polydeoxyadenylate deoxyuridylate associated exclusively with free base release

Wu, J.C.; Kozarich, J.W.; Stubbe, J., 1985:
Mechanism of bleomycin evidence for a rate determining 4' hydrogen abstraction from polydeoxyadenylate deoxyuridylate associated with the formation of both free base and base propenal

Nagato, N.; Nonaka, S.; Ohgami, T.; Murayama, F.; Yamashita, K.; Irifune, H.; Watanabe, M.; Yoshida, H., 1987:
Mechanism of blister formation in porphyria cutanea tarda. I. Histopathological observation of blisters in three cases of porphyria cutanea tarda

Novosel'tseva T.V., 1980:
Mechanism of blood coagulatory and fibrinolytic changes during acute and chronic fluoride intoxication

Novoderzhkina I.S.; Molchanova L.V.; Trubina I.E.; Sundukov A.N., 1980:
Mechanism of blood plasma action in post resuscitation states

Maeda H.; Kitajima T.; Hirose M.; Uchida K.; Hamaguchi M.; Tawara S., 1982:
Mechanism of bottom longline to catch groundfish consideration on interspecific competition among groundfish observed in baited hook occupation

Jullien, M.; Thusius, D., 1976 :
Mechanism of bovine liver glutamate dehydrogenase self assembly part 3 characterization of the association dissociation stoichiometry with quasi elastic light scattering

Vedernikov Y.P.; Ignatenko A.S.; Volkova T.S., 1981:
Mechanism of brady kinin action on rat portal vein contractility

Schuster V.L., 1985:
Mechanism of bradykinin antidiuretic hormone and cyclic amp interaction in rabbit cortical collecting duct

Mahadevappa P.S.; Puttaswamy; Ananda S., 1987:
Mechanism of bromamine t oxidation of glutamic and aspartic acids

Mohamed H.F.; Ageel A.M.; E.D.nshary E.S.M.; Abu Jayyab A.R.; E.W.kkad I., 1985:
Mechanism of bromocriptine-induced hyperglycaemia

Chang W.H.; Kim I.S.; Choi M.S.; Kim W.S.; Lee Y.S.; Cinn Y.W., 1981:
Mechanism of buffy coat leukocyte aggregation reaction

Raines M.A.; Maihle N.J.; Moscovici C.; Crittenden L.; Kung H J., 1988:
Mechanism of c erb b transduction newly released transducing viruses retain polyadenylate tracts of erb b transcripts and encode carboxyl terminally intact erb b proteins

Gupta J.P.; Nowell D.V., 1981:
Mechanism of cadmium and lead ion exchange by alpha zirconium bis mono hydrogen ortho phosphate mono hydrate

Satoh E.; Asai F.; Itoh K.; Nishimura M.; Urakawa N., 1982:
Mechanism of cadmium-induced blockade of neuromuscular transmission

Bariaud A.; Bury M.; Mestre J.C., 1985:
Mechanism of cadmium resistance in euglena gracilis

Kim, J.; Levin, R.E., 1988:
Mechanism of caffeine repression of mitomycin C induced reversion in Salmonella typhimurium strain TA94

Manavalaramanujam R., 1982:
Mechanism of calcification of the anterior shield of cloeosiphon aspergillus sipuncula

Kamat A.S.; Lewis N.F.; Pradhan D.S., 1985:
Mechanism of calcium and dipicolinic acid requirement for l alanine induced germination of bacillus cereus bis 59 spores

Lee K.S.; Tsien R.W., 1983:
Mechanism of calcium channel blockade by verapamil d 600 diltiazem and nitrendipine in single dialyzed heart cells

Mironov S.L., 1982:
Mechanism of calcium channel functioning in the neuronal membrane of rat dorsal root ganglions

Messing, R.O.; Carpenter, C.L.; Greenberg, D.A., 1985:
Mechanism of calcium channel inhibition by phenytoin: comparison with classical calcium channel antagonists

Nishimura, S.; Sorimachi, M., 1984:
Mechanism of calcium efflux from isolated bovine adrenal chromaffin cells

Saida K.; Van Breemen C., 1983:
Mechanism of calcium ii antagonist induced vaso dilation intra cellular actions

Szasz, I.; Sarkadi, B.; Gardos, G., 1977:
Mechanism of calcium ion dependent selective rapid potassium ion transport induced by propranolol in red cells

Kudinov, S.O.; Aleksyeyenko, I.R., 1977:
Mechanism of calcium ion transport in the brain microsomal fraction

Tohmatsu T., 1988:
Mechanism of calcium mobilization in receptor activated human platelets

Wang X.; W.H.; Chao C., 1987:
Mechanism of calcium phosphorus and magnesium metabolic disorder in hyperthyroidism

Iwamatsu T.; Yoshimoto Y.; Hiramoto Y., 1988:
Mechanism of calcium release in medaka eggs microinjected with inositol 1 4 5 trisphosphate and calcium

Haworth R.A.; Hunter D.R.; Berkoff H.A., 1982:
Mechanism of calcium resistance in adult heart cells isolated with trypsin plus calcium

Nishijima, H.; Fujimoto, S., 1977:
Mechanism of calcium uptake as inferred from its capacities of sarcoplasmic reticulum

Cox D.E.; Meinke M.H.; Edstrom R.D., 1987:
Mechanism of calmodulin inhibition of cyclic amp dependent protein kinase activation of phosphorylation kinase

Anderson, H.L.; Winquist, R.J.; Webb, R.C.; Bohr, D.F., 1983:
Mechanism of canine coronary artery relaxation by monensin

Staessen J.; Boogaerts M.; Fagard R.; Amery A., 1981:
Mechanism of captopril induced agranulocytosis

Clarke D.E.; Wagner L.B.; Wagner L.A., 1981:
Mechanism of captopril induced hypotension in rats

Seta Y.; Otsuka T.; Nishimura K.; Okada R., 1987:
Mechanism of captopril release from oily semisolid matrix

Rubio, V.; Britton, H.G.; Grisolia, S., 1979:
Mechanism of carbamoyl phosphate synthetase ec 2.7.2.5 binding of atp by the rat liver mitochondrial enzyme

Britton, H.G.; Rubio, V.; Grisolia, S., 1979:
Mechanism of carbamoyl phosphate synthetase ec 6.3.4.16 properties of the 2 binding sites for atp

Seto, B.L.; Mortenson, L.E., 1974:
Mechanism of carbamyl phosphate inhibition of nitrogenase of Clostridium pasteurianum

Ching, W.M.; Kallen, R.G., 1978:
Mechanism of carbanion addition to carbonyl compounds equilibria and kinetics of substituted cyanohydrin cleavage and formation in aqueous solution substituted cyanohydrin proton dissociation constants

Zharikov S.I.; Zharikova A.D.; Budantsev A.Yu, 1987:
Mechanism of carbon 14 beta phenethylamine in rat brain synaptosomes

Reddy, V.V.R.; Kupfer, D.; Caspi, E., 1977:
Mechanism of carbon 5 double bond introduction in the biosynthesis of cholesterol by rat liver microsomes evidence for the participation of microsomal cytochrome b 5

Wagerle L.C.; Mishra O.P., 1988:
Mechanism of carbon dioxide response in cerebral arteries of the newborn pig role of phospholipase cyclooxygenase and lipoxygenase pathways

Fukuda, M.; Kunugi, S., 1985:
Mechanism of carboxypeptidase y ec 3.4.16.1 catalyzed reaction deduced from a pressure dependence study

Georgiev G.P., 1981:
Mechanism of carcinogenesis a promoter hypothesis

Green, M.; Rokutanda, M.; Fujinaga, K.; Ray, R.K.; Rokutanda, H.; Gurgo, C., 1970:
Mechanism of carcinogenesis by rna tumor viruses part 1 an rna dependent dna polymerase in murine sarcoma viruses

Fujinaga, K.; Parsons, J.T.; Beard, J.W.; Beard, D.; Green, M., 1970:
Mechanism of carcinogenesis by rna tumor viruses part 3 formation of rna dna complex and duplex dna molecules by the dna polymerases of avian myeloblastosis virus

Spandidos, D.A., 1985:
Mechanism of carcinogenesis: the role of oncogenes, transcriptional enhancers and growth factors

Prasad K.; Khatter J.C.; Bharadwaj B., 1981:
Mechanism of cardiac contracture during anoxic cardiac arrest using cardio pulmonary bypass

Liang, C.S.; Hood, W.B., 1978:
Mechanism of cardiac output response to hypertonic sodium chloride infusion in dogs

Dimicco, J.A.; Prestel, T.; Pearle, D.L.; Gillis, R.A., 1977:
Mechanism of cardio vascular changes produced in cats by activation of the central nervous system with picro toxin

Park, L.S.; Datta, P., 1981:
Mechanism of catabolite inactivation of escherichia coli bio degradative threonine dehydratase ec 4.2.1.16 by glyoxylate

Voloshin A.G.; Belkina N.A.; Burd G.I., 1983:
Mechanism of catabolite repression in escherichia coli interaction between transport proteins and adenylate cyclase

Jorns M.S., 1979:
Mechanism of catalysis by the flavo enzyme oxy nitrilase

Shtamm E.V.; Purmal A.P.; Skurlatov Y.I., 1979:
Mechanism of catalytic ascorbic acid oxidation system copper ii ascorbic acid oxygen

Ueba, R., 1976:
Mechanism of catecholamine release in the excised vas deferens of rats particularly in relation to the role of acetyl choline

Scheller, F.; Pruemke, H.J., 1976:
Mechanism of cathodic reduction of hemo proteins

Kroll M.H.; Elin R.J., 1983:
Mechanism of cefoxitin and cephalothin interference with the jaffe method for creatinine

Chen, Y.; Wang, J.; Liu, Y.; Yu, S., 1986:
Mechanism of cell damage by hematoporphyrin derivative hpd plus light i. photooxidation of hepatoma cell membrane by hpd plus light

Tokiwa, T.; Hoshika, T.; Shiraishi, M.; Sato, J., 1979:
Mechanism of cell dissociation with trypsin and EDTA

Matsuoka T.; Shigenaka Y., 1985:
Mechanism of cell elongation in blepharisma japonicum with special reference to the role of cytoplasmic microtubules

Grimm, E.; Bonavida, B., 1979:
Mechanism of cell mediated cyto toxicity at the single cell level 1. estimation of cyto toxic thymus derived lymphocyte frequency and relative lytic efficiency

Grimm, E.A.; Thoma, J.A.; Bonavida, B., 1979:
Mechanism of cell mediated cyto toxicity at the single cell level 2. evidence for first order kinetics of thymus derived cell mediated cytolysis and heterogeneity of lytic rate

Bradley, T.P.; Bonavida, B., 1981:
Mechanism of cell mediated cyto toxicity at the single cell level 3. evidence that cyto toxic t lymphocytes lyse both antigen specific and antigen nonspecific targets pre treated with lectins or per iodate

Bradley, T.P.; Bonavida, B., 1982:
Mechanism of cell mediated cyto toxicity at the single cell level 4. natural killing and antibody dependent cellular cyto toxicity can be mediated by the same human effector cell as determined by the 2 target conjugate assay

Bradley, T.P.; Bonavida, B., 1982:
Mechanism of cell mediated cyto toxicity at the single cell level 5. the importance of target cell structures in cyto toxic t lymphocyte mediated antigen nonspecific lectin dependent cellular cyto toxicity

Bonavida, B.; Lebow, L.T.; Bradley, T.P., 1984:
Mechanism of cell mediated cyto toxicity at the single cell level 6. direct assessment of the cyto toxic potential of human peripheral blood nonlytic effector target cell conjugates

Bradley, T.P.; Bonavida, B., 1984:
Mechanism of cell mediated cyto toxicity at the single cell level 7. trigger of the lethal hit event is distinct for natural killer killer and lectin dependent cellular cyto toxicity effector cells as measured in the 2 target conjugate assay

Perelson, A.S.; Macken, C.A.; Grimm, E.A.; Roos, L.S.; Bonavida, B., 1984:
Mechanism of cell mediated cyto toxicity at the single cell level 8. kinetics of lysis of target cells bound by more than 1 cyto toxic t lymphocyte

Van Ellis M.R.; Shaner D.L., 1988:
Mechanism of cellular absorption of imidazolinones in soybean glycine max leaf discs

Caramelo, C.; Tsai, P.; Schrier, R.W., 1988:
Mechanism of cellular effect of phorbol esters on action of arginine vasopressin and angiotensin II on rat vascular smooth muscle cells in culture

Collins, F.M., 1980:
Mechanism of cellular suppression induced by oral tilorone treatment of mice

Ramasamy K., 1980:
Mechanism of cellulose degradation by a pseudomonas isolated from activated sludge

Jagiełło-Wójtowicz, E., 1979:
Mechanism of central action of octopamine

Mikhailov V.V.; Maksimenko V.A., 1979:
Mechanism of central hemodynamic disorders in anaerobic intoxication

Toda, N.; Shimizu, K.; Ohta, T., 1980:
Mechanism of cerebral arterial contraction induced by blood constituents

Kontos, H.A.; Wei, E.P.; Dietrich, W.D.; Navari, R.M.; Povlishock, J.T.; Ghatak, N.R.; Ellis, E.F.; Patterson, J.L., 1981:
Mechanism of cerebral arteriolar abnormalities after acute hypertension

Colley, P.S.; Cheney, F.W.; Butler, J., 1977:
Mechanism of change in pulmonary shunt flow with hemorrhage

Mishchenko, V.P.; Mishchenko, V.I., 1977:
Mechanism of changes in blood coagulation and fibrinolysis affected by a constant electric current

Sigal V.L.; Osadchii P.V.; Gusev A.N., 1984:
Mechanism of changes in electrophoretic erythrocyte mobility under ultrahigh frequency irradiation

Faitel'berg R.O.; Gladkii T.V., 1980:
Mechanism of changes in glucose absorption in the small intestine of dogs under conditions of motion sickness

Luk'yanov A.N.; Sukhova G.S.; Chudakov L.I., 1986:
Mechanism of changes in the general rhythm of cardiac pacemaker in the cod gadus morhua in response to vagal stimulation

Andreenko, G.V.; Yastrebtsova, N.L.; Serebryakova, T.N.; Kochetova, L.M., 1976:
Mechanism of changes in the indices of the blood coagulation and anti coagulation systems of dogs during stimulation of different emotion controlling zones of the hypothalamus

Broun, G.R.; Il'inskii, O.B., 1978:
Mechanism of changing magnetic field detection by ampullae of lorenzini in elasmobranchs

Tucker, P.W.; Perutz, M.F., 1977:
Mechanism of charge compensation and impairment of cooperative functions in hemo globin tacoma

Mackinnon R.; Miller C., 1988:
Mechanism of charybdotoxin block of the high conductance calcium activated potassium channel

Nakano, M.; Sugioka, K., 1977:
Mechanism of chemi luminescence from the linoleate lip oxygenase ec 1.13.11.12 system

Fariss, M.W.; Brown, M.K.; Schmitz, J.A.; Reed, D.J., 1985:
Mechanism of chemical induced toxicity 1. use of a rapid centrifugation technique for the separation of viable and nonviable hepatocytes

Fariss, M.W.; Reed, D.J., 1985:
Mechanism of chemical induced toxicity 2. role of extracellular calcium

Dusinsky R., 1984:
Mechanism of chemically induced cell fusion

Yamaki, S.; Uritani, I., 1973:
Mechanism of chilling injury in sweet potato part 10 change in lipid protein interaction in mitochondria from cold stored tissue

Fukamizo, T.; Kramer, K.J., 1985:
Mechanism of chitin oligosaccharide hydrolysis by the binary enzyme chitinase ec 3.2.1.14 system in insect molting fluid

Castro, J.A.; De-Ferreyra, E.C.; De-Castro, C.R.; De-Fenos, O.M.; Gram, T.E.; Reagan, R.L.; Guarino, A.M., 1978:
Mechanism of chloramphenicol prevention of carbon tetrachloride-induced liver damage

Nasu, S.; Sekine, Y.; Izaki, K.; Takahashi, H., 1978:
Mechanism of chloramphenicol resistance in Bacillus badius 211

Shaw, W.V.; Bentley, D.W.; Sands, L., 1970:
Mechanism of Chloramphenicol Resistance in Staphylococcus epidermidis

Sanders, D.; Hansen, U.P., 1981:
Mechanism of chloride ion transport at the plasma membrane of chara corallina 2. trans inhibition and the determination of hydrogen ion chloride ion binding order from a reaction kinetic model

Shorofsky S.R.; Field M.; Fozzard H.A., 1984:
Mechanism of chloride secretion in canine trachea changes in intracellular chloride activity with secretion

Dharmsathaphorn, K.; Pandol, S.J., 1986:
Mechanism of chloride secretion induced by carbachol in a colonic epithelial cell line

Liedtke, C.M.; Hopfer, U., 1982:
Mechanism of chloride translocation across small intestinal brush border membrane 1. absence of sodium chloride co transport

Liedtke, C.M.; Hopfer, U., 1982:
Mechanism of chloride translocation across small intestinal brush border membrane 2. demonstration of chloride hydroxyl exchange and chloride conductance

Ahr H.J.; King L.J.; Nastainczyk W.; Ullrich V., 1980:
Mechanism of chloroform and carbon mon oxide formation from carbon tetra chloride by microsomal cytochrome p 450

Smith, J.H.; Maita, K.; Sleight, S.D.; Hook, J.B., 1983:
Mechanism of chloroform nephro toxicity 1. time course of chloroform toxicity in male and female mice

Smith, J.H.; Hook, J.B., 1983:
Mechanism of chloroform nephro toxicity 2. in vitro evidence for renal metabolism of chloroform in mice

Smith, J.H.; Hook, J.B., 1984:
Mechanism of chloroform nephro toxicity 3. renal and hepatic microsomal metabolism of chloroform in mice

Bailie, M.B.; Smith, J.H.; Newton, J.F.; Hook, J.B., 1984:
Mechanism of chloroform nephrotoxicity 4. phenobarbital potentiation of in vitro chloroform metabolism and toxicity in rabbit kidneys

Bednarczyk, D.J.; Medhzihradsky, F., 1977:
Mechanism of chloroquine transport in the isolated retina

Marzi A.; D.T.ranzo E.G.D.; Castro J.A., 1980:
Mechanism of chlorpromazine prevention of carbon tetra chloride induced liver necrosis

Miller, M.; Moses, A.M., 1970:
Mechanism of chlorpropamide action in diabetes insipidus

Cassel, D.; Pfeuffer, T., 1978:
Mechanism of cholera toxin action covalent modification of the guanyl nucleotide binding protein of the adenylate cyclase ec 4.6.1.1 system

Mokhir-Yu, M.; Zhil'nikov, V.D., 1975:
Mechanism of cholesterol absorption

Rothblat, G.H.; Phillips, M.C., 1982:
Mechanism of cholesterol efflux from cells. Effects of acceptor structure and concentration

Patel, D.C.; Higuchi, W.I., 1980:
Mechanism of cholesterol gall stone dissolution 1. determination of binding of alkylamines to bile micelles using dynamic membrane transport methods

Patel, D.C.; Higuchi, W.I., 1980:
Mechanism of cholesterol gall stone dissolution 2. correlation between the effect of the alkylamines as cholesterol gall stone dissolution rate accelerators and the degree of binding of alkylamines to bile acid micelles

Patel, D.C.; Oncley, J.L.; Higuchi, W.I., 1980:
Mechanism of cholesterol gall stone dissolution 3. electrophoretic studies showing the correlation between the bile micellar charge and the effect of alkylamines as cholesterol gall stone dissolution rate accelerators

Van-Lier, J.E.; Rousseau, J.; Langlois, R.; Fisher, G.J., 1977:
Mechanism of cholesterol side chain cleavage part 2 the enzymic hydro per oxide glycol rearrangement of the epimeric 20 hydro per oxy cholesterols in oxygen 18 enriched water

Kakis, G.; Yousef, I.M., 1980:
Mechanism of cholic acid protection in litho cholate induced intra hepatic cholestasis in rats

Thompson C.M.; Fukuto T.R., 1982:
Mechanism of cholin esterase inhibition by methamidophos

Zimmerman, T.W.; Dobbins, J.W.; Binder, H.J., 1982:
Mechanism of cholinergic regulation of electrolyte transport in rat colon in vitro

Kojima, I.; Kojima, K.; Shibata, H.; Ogata, E., 1986:
Mechanism of cholinergic stimulation of aldosterone secretion in bovine adrenal glomerulosa cells

Nikonova, L.V.; Nelipovich, P.A.; Umanskii, S.R., 1982:
Mechanism of chromatin degradation in irradiated rat thymocytes 3. post irradiation activation of the autolytic dna degradation in isolated nuclei of thymocytes

Korol', B.A.; Nelipovich, P.A.; Umanskii, S.R., 1979:
Mechanism of chromatin degradation in thymocytes of irradiated rats 1. characteristics of degradation products

Nelipovich, P.A.; Korol', B.A.; Rybalko, G.V.; Umanskii, S.R., 1980:
Mechanism of chromatin degradation in thymocytes of irradiated rats 2. chromatin degradation as function of radiation dose and post radiation time

Nikonova, L.V.; Nelipovich, P.A.; Umanskii, S.R., 1983:
Mechanism of chromatin degradation in thymocytes of irradiated rats 5. effect of radiation and cyclo heximide on sensitivity of chromatin to exogenous nucleases

Zotova, R.N.; Umanskii, S.R.; Tokarskaya, V.I., 1983:
Mechanism of chromatin degradation in thymocytes of irradiated rats 6. post irradiation changes in poly adp ribose polymerase activity

Bushinsky, D.A.; Favus, M.J.; Langman, C.B.; Coe, F.L., 1986:
Mechanism of chronic hypercalciuria with furosemide: increased calcium absorption

Bushinsky, D.A.; Favus, M.J.; Coe, F.L., 1984:
Mechanism of chronic hypocalciuria with chlorthalidone: reduced calcium absorption

Chiba, S., 1977:
Mechanism of chronotropic and inotropic effects of phenylephrine

Fastrez, J.; Houyet, N., 1977:
Mechanism of chymotrypsin acid base catalysis and transition state solvation by the active site

Kaatz, G.W.; Seo, S.M., 1988:
Mechanism of ciprofloxacin resistance in Pseudomonas aeruginosa

Sumina, E.N.; Belyaev, V.A.; Shugaev, V.A., 1978:
Mechanism of circulatory hypoxia in acute poisoning with sodium fluoride

Levi, J.; Jacobs, C.; Kalman, S.M.; Mctigue, M.; Weiner, M.W., 1980:
Mechanism of cis platinum nephro toxicity 1. effects of sulfhydryl groups in rat kidneys

Dobyan, D.C.; Levi, J.; Jacobs, C.; Kosek, J.; Weiner, M.W., 1980:
Mechanism of cis platinum nephro toxicity 2. morphologic observations

Toninello A.; D.L.sa F.; Siliprandi D.; Siliprandi N., 1983:
Mechanism of citrate and iso citrate protective action on rat liver mitochondria

Laquidara V.D.; Keinath T.M., 1983:
Mechanism of clarification failure

Kubota, T., 1979:
Mechanism of cleavage of newt eggs

Dutt, N.; Maiti, B.B., 1974:
Mechanism of climbing in the banana pseudostem weevil odoiporus longicollis coleoptera curculionidae

Etlinger, H.M.; Julius, M.H.; Heusser, C.H., 1982:
Mechanism of clonal dominance in the murine anti phosphoryl choline response 1. relation between antibody avidity and clonal dominance

Tentsova A.I.; Amirkhanyan E.A.; Egorova S.N.; Dobrotvorskii A.E., 1987:
Mechanism of clonidine release from solid dispersed systems based on ethylcellulose

Dekio S.; Jidoi J., 1983:
Mechanism of coagulase production in staphylococcus aureus

Norman P.R.; Cornelius R.D., 1982:
Mechanism of cobalt iii promoted hydrolysis of tri phosphate ion

Kemkhadze K.Sh; Odintsov V.B.; Makhno V.I.; Semenkov Y.P.; Kirillov S.V., 1981:
Mechanism of codon anti codon interaction in ribosomes interaction of aminoacyl transfer rna with 70s ribosomes in the absence of elongation factor ef t u and gtp

Labuda D.; Striker G.; Porschke D., 1984:
Mechanism of codon recognition by transfer rna and codon induced transfer rna association

Mita, M.; Yasumasu, I., 1982:
Mechanism of coenzyme a inhibition of di hydro folate reductase ec 1.5.1.3

Lyapkov S.M.; Severtsov A.S., 1981:
Mechanism of coexistence of 2 species of the far east anura

Margolis R.L.; Rauch C.T.; Wilson L., 1980:
Mechanism of colchicine dimer addition to micro tubule ends implications for the micro tubule polymerization mechanism

Morgan, M.L.; Anderson, R.J.; Ellis, M.A.; Berl, T., 1983:
Mechanism of cold diuresis in the rat

Wendt, L., 1970:
Mechanism of colicin action: early events

Nosova I.M.; Pisarzhevskii S.A.; Aboyants R.K.; Karelin A.A., 1981:
Mechanism of collagen action on regenerative processes

Sunada H.; Nagai Y., 1983:
Mechanism of collagen degradation by collagenase a transition process of the collagen molecule from collagenase substrate to gelatinase substrate

Spudich J.L.; Bogomolni R.A., 1984:
Mechanism of color discrimination by a bacterial sensory rhodopsin

Hermann, A.; Dando, M.R., 1977:
Mechanism of command fiber operation onto bursting pacemaker neurons in the stomato gastric ganglion of the crab cancer pagurus

Scheele, G.; Jacoby, R.; Carne, T., 1980:
Mechanism of compartmentation of secretory proteins: transport of exocrine pancreatic proteins across the microsomal membrane

Dicker, S.E.; Shirley, D.G., 1971:
Mechanism of compensatory renal hypertrophy

Kanetake, H.; Yamamoto, N., 1981:
Mechanism of compensatory renal hypertrophy and hyperplasia in a nephrectomized animal model 1. evidence for a renotropic growth stimulating factor in uni nephrectomized rabbit sera using tissue culture

Ceglowski, P.; Dobrzański, W.T., 1974:
Mechanism of competence in the transformation of streptococci of serological group H. The role of the competence factor and the factor inactivating transforming DNA in vitro in DNA uptake

Rossen, R.D.; Michael, L.H.; Kagiyama, A.; Savage, H.E.; Hanson, G.; Reisberg, M.A.; Moake, J.N.; Kim, S.H.; Self, D.; Weakley, S., 1988:
Mechanism of complement activation after coronary artery occlusion: evidence that myocardial ischemia in dogs causes release of constituents of myocardial subcellular origin that complex with human C1q in vivo

Perricone R.; D.C.rolis C.; D.S.nctis G.; Fontana L., 1982:
Mechanism of complement activation by cigarette smoke condensate and tobacco infusion

Arroyave, C.M.; Tan, E.M., 1977:
Mechanism of complement activation by radiographic contrast media

Wlodarczyk, M.; Kunicki-Goldfinger, W., 1970:
Mechanism of conjugation and re combination in bacteria part 9 the role of dna synthesis in post conjugal genetic re combination

Bialkowska-Hobrzanska, H.; Kunicki-Goldfinger, W.J.H., 1977:
Mechanism of conjugation and recombination in bacteria part 16 single stranded regions in recipient dna during conjugation in escherichia coli k 12

Bialkowska-Hobrzanska, H.; Kunicki-Goldfinger, W.J.H., 1977:
Mechanism of conjugation and recombination in bacteria part 17 further evidence for single stranded regions in recipient dna during conjugation in escherichia coli k 12

Wolska, K.I.; Kunicki-Goldfinger, W.J.H., 1977:
Mechanism of conjugation and recombination in bacteria part 18 polarity of donor dna strands transferred to the recipient as determined by dna rna hybridization

Kraczkiewocz Dowjat A.; Kunicki Goldfinger W.J.H., 1979:
Mechanism of conjugation and recombination in bacteria part 20 recombinational dna synthesis during mating in escherichia coli k 12

Blinkowa, A.; Gawecka, G., 1978:
Mechanism of conjugation part 1 isolation of new mutants with temperature sensitive dna synthesis

Blinkowa A.; Gawecka G., 1979:
Mechanism of conjugation part 2 characterization of an hfr dna ts mutant of escherichia coli k 12

Blinkowa A.; Zagorska J., 1979:
Mechanism of conjugation part 3 properties of an hfr dna 11ts mutants of escherichia coli k 12

Vatner S.F.; Hintze T.H., 1983:
Mechanism of constriction of large coronary arteries by beta adrenergic receptor blockade

Koyama, T.; Saito, M.; Hagino, N., 1976:
Mechanism of contraceptive effect with post ovulatory estrogen treatment

Ebeigbe A.B.; Aloamaka C.P., 1987:
Mechanism of contractile action barium ion on rat aortic smooth muscle

Yoshida, N.; Taniyama, K.; Araki, H.; Matsumoto, H., 1977:
Mechanism of contractile response to manganese ion in isolated rat rectum

Suzuki T.; Karaki H.; Urakawa N., 1981:
Mechanism of contraction inhibition by high potassium sodium deficient solution in the smooth muscle of guinea pig tenia coli

Goto K., 1979:
Mechanism of control by a circadian oscillator of chloroplast nadp linked glyceraldehyde 3 phosphate dehydrogenase in lemna gibba g 3

Purwin C.; Nicolay K.; Scheffers W.A.; Holzer H., 1986:
Mechanism of control of adenylate cyclase activity in yeast saccharomyces cerevisiae by fermentable sugars and carbonyl cyanide m chlorophenylhydrazone

Miller, T.B.; Larner, J., 1973:
Mechanism of control of hepatic glycogenesis by insulin

Islam, M.S., 1980:
Mechanism of controlling residual volume and emptying rate of the lung in young and elderly healthy subjects

Wright, A., 1971:
Mechanism of conversion of the salmonella o antigen by bacterio phage epsilon 34

Sayre L.M.; Jin S J., 1984:
Mechanism of copper catalyzed oxygenation of ketones

Ozawa K.; Nomura Y.; Segawa T., 1985:
Mechanism of copper ii induced elevation of tritiated cimetidine binding to membranes in rat brain

Hamberg M., 1987:
Mechanism of corn hydroperoxide isomerase detection of 12 13s oxido 9z 11 octadecadienoic acid

Grass G.M.; Robinson J.R., 1988:
Mechanism of corneal drug penetration ii ultrastructural analysis of potential pathways for drug movement

Mezhzherin S.V.; Balakhnin I.A., 1984:
Mechanism of correlating electrophoretic markers with size parameters of fish as exemplified by carp transferrins

Mazurek, C.; Chalvet, H.; Stiffel, C.; Biozzi, G., 1977:
Mechanism of corynebacterium parvum anti tumor activity part 2 protective effect in thymus derived cell deprived mice

Vishwanath, P.; Basappa, S.C.; Murthy, V.S., 1986:
Mechanism of counteraction of aflatoxin toxicity by thymine and folic acid in Bacillus megaterium

Ives H.E.; Chen P Y.; Verkman A.S., 1986:
Mechanism of coupling between chloride and hydroxyl transport in renal brush border membranes

Nakagawa Y.; Hiraga K.; Suga T., 1983:
Mechanism of covalent binding of butylated hydroxy toluene to microsomal protein

Cheung, D.T.; Nimni, M.E., 1982:
Mechanism of cross linking of proteins by glutaraldehyde 1. reaction with model compounds

Cheung, D.T.; Nimni, M.E., 1982:
Mechanism of cross linking of proteins by glutaraldehyde 2. reaction with monomeric and polymeric collagen

Murty U.R.; Rao N.G.P., 1980:
Mechanism of cross sterility in sorghum sorghum bicolor

Malan T.P.; Kolb A.; Buc H.; Mcclure W.R., 1984:
Mechanism of crp cyclic amp activation of lac operon transcription initiation activation of the p 1 promoter


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