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Biology, Geography & Health: Chapter 6494

Chapter 6494 provides bibliographic information on scholary research in the basic and applied life, earth and health sciences.



Fischer P.H.; Fang T T.; Lin T S.; Hampton A.; Bruggink J., 1988: Structure activity analysis of antagonism of the feedback inhibition of thymidine kinase

Nakajima Y.; Howells R.D.; Pegg C.; Jones E.D.; Smith B.R., 1987: Structure activity analysis of microsomal antigen thyroid peroxidase

Lien E.J.; Li J.P., 1980: Structure activity analysis of some fungicides containing the nitrogen linked tri chloromethyl thio group

Kaslow H.R.; Lim L K.; Moss J.; Lesikar D.D., 1987: Structure activity analysis of the activation of pertussis toxin

Dunn W.J.IIi; Wold S., 1980: Structure activity analyzed by pattern recognition the asymmetric case

Lambrecht, G., 1980: Structure activity and conformation activity relationships of cyclic acetyl choline analogs 11. acetyl cholin esterase catalyzed and base catalyzed hydrolysis of derivatives of 3 acetoxy piperidine and 3 acetoxythia cyclo hexane


Lambrecht, G., 1979: Structure activity and conformation activity relationships of cyclic acetyl choline analogs 7. acetyl choline esterase and base catalyzed hydrolysis of derivatives of 4 acetoxy piperidine and 4 acetoxythia cyclo hexane

Kadar T.; Pesti A.; Penke B.; Toth G.; Zarandi M.; Telegdy G., 1983: Structure activity and dose effect relationships of the antagonism of picro toxin induced seizures by cholecystokinin fragments and analogs of cholecystokinin in mice

Hausen B.M.; Schmalle H.W., 1985: Structure activity aspects of 4 allergenic sesquiterpene lactones lacking the exocyclic alpha methylene at the lactone ring

Shani J.; Schoenberg S.; Lien E.J.; Cherkez S.; Feifel M.; Schonberger C.; Yellin H., 1983: Structure activity correlation for diuretic furosemide congeners

Cheney, B. V.; Duchamp, D. J.; Christoffersen, R. E., 1983: Structure activity correlations for a series of anti allergy agents 2. geometric and electronic characterization of some oxamic acids and di oxamic acids

Cheney, B. V.; Christoffersen, R. E., 1983: Structure activity correlations for a series of anti allergy agents 3. development of a quantitative model

Cheney, B. V.; Wright, J. B.; Hall, C. M.; Johnson, H. G.; Christoffersen, R. E., 1978: Structure activity correlations for a series of anti allergy agents oxanilic acid quinaldic acid and benzo pyran 2 carboxylic acid

Dimoglo A.S.; Choban I.N.; Bersuker I.B.; Kintya P.K.; Balashova N.N., 1985: Structure activity correlations for antioxidant and antifungal properties of steroid glycosides

Makriyannis A.; Bowerman D.; Sze P.Y.; Fournier D.; De Jong A.P., 1982: Structure activity correlations in the inhibition of brain synaptosomal tritium labeled norepinephrine uptake by phenethylamine analogs role of alpha alkyl side chain and methoxyl ring substitutions

Ross J.H.; Krieger R.I., 1981: Structure activity correlations of amines inhibiting active uptake of paraquat methyl viologen into rat lung slices

Kulkarni, V. M., 1976: Structure activity correlations of anti radiation agents in thiazolidine series by free wilson method

Patwardhan B.H.; Flashner M.; Miller C.A.; Tanenbaum S.W., 1982: Structure activity correlations of cytochalasins novel halogenated and related cytochalasin c and cytochalasin d derivatives

Vander Meer R.K.; Mcgovern T.P., 1983: Structure activity correlations of derivatives of siglure attractants for oryctes rhinoceros coleoptera scarabaeidae

Lee, A. H.; Metcalf, R. L.; Williams, J. W.; Hirwe, A. S.; Sanborn, J. R.; Coats, J. R.; Fukuto, T. R., 1977: Structure activity correlations of the insecticide prolan and its analogs

Sondheimer, E.; Walton, D. C., 1970: Structure activity correlations with compounds related to abscisic acid

Katekar G.F.; Geissler A.E., 1983: Structure activity differences between iaa auxins on pea and wheat

Dewhirst F.E., 1980: Structure activity for inhibition of prostaglandin cyclo oxygenase by phenolic compounds

Anderson W.; Harthill J.E.; Zeitlin I.J., 1984: Structure activity in the carrageenans iota carrageenan and experimental edemagenic activity

Saroli A., 1986: Structure activity of relationship of bitter compounds related to denatonium chloride and dipeptide methyl esters

Francis J.E.; Cash W.D.; Psychoyos S.; Ghai G.; Wenk P.; Friedmann R.C.; Atkins C.; Warren V.; Furness P.; Et Al, 1988: Structure activity of series of novel triazoloquinazoline adenosine antagonists

Itoh Z.; Suzuki T.; Nakaya M.; Inoue M.; Arai H.; Wakabayashi K., 1985: Structure activity relation among macrolide antibiotics in initiation of interdigestive migrating contractions in the canine gastrointestinal tract

Entzeroth M.; Jaenicke L., 1982: Structure activity relation of analogs and homologues of blepharismone the low molecular conjugation hormone of blepharisma japonicum

Urquilla, P. R.; Van-Dyke, K.; Trush, M., 1978: Structure activity relation of pyrimidine nucleotides and nucleoside in canine isolated cerebral vessels

Brown, D.; Keeler, R. F., 1978: Structure activity relation of steroid teratogens part 1 jervine ring system

Brown, D.; Keeler, R. F., 1978: Structure activity relation of steroid teratogens part 2 n substituted jervines

Brown, D.; Keeler, R. F., 1978: Structure activity relation of steroid teratogens part 3 solanidan epimers

Hoath S.B.; Lakshmanan J.; Fisher D.A., 1984: Structure activity relation of thyroid hormone analogs and tissue epidermal growth factor concentrations in neo natal and adult mice

Nagarajan K.; Arya V.P.; Kaul C.L.; David J.; Grewal R.S., 1981: Structure activity relations among cyclic and acyclic s 3 indolyl iso thio ureas development of a potent vaso constrictor tinazoline 3 2 imidazolin 2 yl thio indole

Szabo S.; Unger S.H.; Reynolds E.S., 1982: Structure activity relations between alkyl nucleophilic chemicals causing duodenal ulcer and adreno cortical necrosis

Chapman, R. A.; Miller, D. J., 1974: Structure activity relations for caffeine a comparative study of the inotropic effects of the methyl xanthines imidazoles and related compounds on the frogs heart

Courtney, K. R., 1980: Structure activity relations for frequency dependent sodium channel block in nerve by local anesthetics

Paton, D. M.; Bar, H. P.; Clanachan, A. S.; Lauzon, P. A., 1978: Structure activity relations for inhibition of neuro transmission in rat vas deferens by adenosine

Brown L.M.; Vanlerberghe G.C., 1985: Structure activity relations for inhibition of photosynthesis by calmodulin antagonists

Fujii, K.; Jaffe, H.; Bishop, Y.; Arnold, E.; Mackintosh, D.; Epstein, S. S., 1970: Structure activity relations for methylenedioxyphenyl and related compounds on hepatic microsomal enzyme function as measured by prolongation of hexo barbital narcosis and zoxazolamine paralysis in mice

Paton D.M., 1981: Structure activity relations for presynaptic inhibition of noradrenergic and cholinergic transmission by adenosine evidence for action on a 1 receptors

Schwarcz, R.; Scholz, D.; Coyle, J. T., 1978: Structure activity relations for the neuro toxicity of kainic acid derivatives and glutamate analogs

Cooper, G. H.; Lawston, I. W.; Rickard, R. L.; Inch, T. D., 1978: Structure activity relations in 2 6 7 tri oxa 1 phospha bi cyclo 2 2 2 octanes and related compounds

Simon, Z.; Dragomir, N.; Plauchithiu, M. G., 1978: Structure activity relations in cardiotonic aglycones nonadditive effects and minimal steric differences

Ditmann, E. C., 1973: Structure activity relations in homologous alkyl poly glycol ethers

Buckley, N., 1987: Structure activity relations of 2 chloroethylnitrosoureas 1. deuterium isotope effects in the hydrolysis of 1 2 chloroethyl 1 nitrosoureas evidence for the rate limiting step

Matsuda K.; Nakagawa S.; Nakano F.; Inoue M.; Mitsuhashi S., 1987: Structure activity relations of 4 fluoromethylmonobactams

Nozaki Y.; Harada S.; Kitano K.; Imada A., 1984: Structure activity relations of 5 6 cis carbapenem antibiotics and role of factors determining susceptibility of escherichia coli to beta lactam antibiotics

Moser, P.; Jaekel, K.; Krupp, P.; Menasse, R.; Sallmann, A., 1975: Structure activity relations of analogs of phenyl butazone

Hashimoto K.; Uchida S.; Yoshida H.; Nishiuchi Y.; Sakakibara S.; Yukari K., 1985: Structure activity relations of conotoxins at the neuromuscular junction

Jones A.W.; Smith D.A.S.; Watkins J.C., 1984: Structure activity relations of dipeptide antagonists of excitatory amino acids

Adolf, W.; Sorg, B.; Hecker, E.; Hergehahn, M., 1982: Structure activity relations of poly functional di terpenes of the daphnane type 1. revised structure for resinifera toxin and structure activity relations of resiniferonol and some of its esters

Zayed, S.; Sorg, B.; Hecker, E., 1984: Structure activity relations of poly functional di terpenes of the tigliane type 6. irritant and tumor promoting activities of semi synthetic mono esters and di esters of 12 deoxy phorbol

Cash, J. D.; Gader, A. M. A.; Mulder, J. L.; Cort, J. H., 1978: Structure activity relations of the fibrinolytic response to vasopressins in man

Painter S.D.; Morley J.S.; Price D.A., 1982: Structure activity relations of the molluscan neuro peptide phenylalanylmethionylarginylphenyl alaninamide

Wilpart M.; Mainguet P.; Maskens A.; Roberfroid M., 1983: Structure activity relationship among biliary acids showing co mutagenic activity towards 1 2 di methyl hydrazine

Kakinuma K.; Koike J.; Ishibashi K.; Takahashi W.; Takei H., 1986: Structure activity relationship and design of an antimutagen against the uv induced mutation of escherichia coli

Hirsch J.A., 1984: Structure activity relationship between guanidine alkyl derivatives and norepinephrine release sites and mechanisms of action

Maysinger, D.; Medic-Saric, M.; Movrin, M.; Lien, E. J.; Ban, J., 1978: Structure activity relationship between the nitrogen mustards of isatin and their effects on hela cells

Oikawa S.; Tsuda M.; Endou K.; Abe H.; Matsuoka M.; Nakajima Y., 1985: Structure activity relationship for antibacterial action of phenolic and aromatic nitro compounds an attempt at systematic identification of new antibacterial agents

Ivanov, V. T.; Fonina, L. A.; Senyavina, L. B.; Ovchinnikov-Yu, A.; Chervin, I. I.; Yakovlev, G. I., 1980: Structure activity relationship for cyclic depsi peptides of the valinomycin series 7. analogs with modified ester groups

Balashova, T. A.; Fonina, L. A.; Gurevich, A. Z.; Starovoitova, N. V.; Senyavina, L. B.; Avotin', G. Ya ; Ivanov, V. T.; Ovchinnikov-Yu, A., 1983: Structure activity relationship for cyclic depsi peptides of valinomycin series 10. 2 l proline 6 l proline 10 l proline valinomycin and 4 d proline 8 d proline 12 d proline valinomycin

Balashova, T. A.; Fonona, L. A.; Senyavina, L. B.; Starovoitova, N. V.; Avotin', T. Ya ; Ivanov, V. T.; Ovchinnikov-Yu, A., 1984: Structure activity relationship for cyclic depsi peptides of valinomycin series 11. 2 l proline 6 l proline 10 l proline 14 l proline hexadeca valinomycin and 4 d proline 8 d proline 12 d proline 16 d proline hexadeca valinomycin

Balashova, T. A.; Fonina, L. A.; Gurevich, A. Z.; Starovoitova, N. V.; Senyavina, L. B.; Avotin', G. Ya ; Ivanov, V. T.; Ovchinnikov-Yu, A., 1982: Structure activity relationship for cyclic depsi peptides of valinomycin series 9. octa valinomycin proline containing analogs

Estus G.S.; Mieyal J.J., 1983: Structure activity relationship for de acetylation of a homologous series of phenacetin analogs and their n hydroxy derivatives

Masutani T.; Seyama I.; Narahashi T.; Iwasa J., 1981: Structure activity relationship for grayano toxin derivatives in frog rana nigromaculata skeletal muscle

Simasko S.M.; Soares J.R.; Weiland G.A., 1985: Structure activity relationship for substance p inhibition of carbamylcholine stimulated sodium 22 flux in neuronal pc 12 and non neuronal bc 3h 1 cell lines

Cherkez S.; Yellin H.; Kashman Y.; Yaavetz B.; Sokolovsky M., 1979: Structure activity relationship in a new series of atropine analogs part 1 n n di substituted 6 7 di aza bi cyclo 3 2 2 nonane derivatives

Cherkez, S.; Yellin, H.; Kashman, Y.; Yaavetz, B.; Sokolovsky, M., 1978: Structure activity relationship in a new series of atropine analogs part 2 the effect of an asymmetric n substituent on the anti muscarinic activity

Binenfeld Z.; Deljac V.; Kamenar B.; Vickovic I., 1984: Structure activity relationship in bispyridinium monoxime antidotes against soman poisoning

Balsamo, A.; Crotti, P.; Lapucci, A.; Macchia, B.; Macchia, F.; Cuttica, A.; Passerini, N., 1981: Structure activity relationship in cinnamamides 3. synthesis and anti convulsant activity evaluation of some derivatives of e m tri fluoromethyl cinnamamide and z m tri fluoromethyl cinnamamide

Balsamo, A.; Barili, P. L.; Crotti, P.; Macchia, B.; Macchia, F.; Cuttica, A.; Passerini, N., 1977: Structure activity relationship in cinnamamides part 2 synthesis and pharmacological evaluation of some e and z n alkyl alpha beta dimethyl cinnamamides substituted on the phenyl group

Neudecker T.; Lutz D.; Eder E.; Henschler D., 1980: Structure activity relationship in halogen and alkyl substituted allyl and allylic compounds correlation of alkylating and mutagenic properties

Choay J.; Petitou M.; Lormeau J.C.; Sinay P.; Casu B.; Gatti G., 1983: Structure activity relationship in heparin a synthetic penta saccharide with high affinity for anti thrombin iii and eliciting high anti factor xa activity

Uhlrich S.; Lagente O.; Choay J.; Courtois Y.; Lenfant M., 1986: Structure activity relationship in heparin stimulation of non vascular cells by a synthetic heparin pentasaccharide in cooperation with human acidic fibroblast growth factors

Tai A.W.; Lien E.J., 1980: Structure activity relationship in membrane transport and drug absorption

Takagi K.; Hasegawa T.; Watanabe H.; Ogawa K.; Yamaki K.; Suzuki R.; Watanabe T.; Satake T., 1988: Structure activity relationship in n3 alkylxanthine derivatives

Godfroid, J. J.; Broquet, C.; Jouquey, S.; Lebbar, M.; Heymans, F.; Redeuilh, C.; Steiner, E.; Michel, E.; Coeffier, E.; Et-Al, 1987: Structure activity relationship in paf acether 3. hydrophobic contribution to agonistic activity

Wichrowski, B.; Jouquey, S.; Broquet, C.; Heymans, F.; Godfroid, J. J.; Fichelle, J.; Worcel, M., 1988 : Structure activity relationship in paf acether 4. synthesis and biological activities of carboxylate isosteres

Yoshida S.; Nagao Y.; Watanabe A.; Takahashi N., 1980: Structure activity relationship in piericidin inhibitors on the electron transport system in mitochondria

Vega P.; Carrasco M.; Sanchez E.; Del Villar E., 1984: Structure activity relationship in the effect of 1 4 benzodiazepines on morphine aminopyrine and estrone metabolism

Obal F.Jr; Kovalzon V.M.; Kalikhevich V.N.; Torok A.; Alfoldi P.; Sary G.; Hajos M.; Penke B., 1986: Structure activity relationship in the effects of delta sleep inducing peptide on rat sleep

Irie K.; Tokuda H.; Hagiwara N.; Koshimizu K.; Hayashi H.; Murao S.; Ito Y., 1985: Structure activity relationship in the induction of epstein barr virus by teleocidin derivatives

Sagi Eisenberg R.; Ben Neriah Z.; Pecht I.; Terry S.; Blumberg S., 1983: Structure activity relationship in the mast cell de granulating capacity of neurotensin fragments

Emerole G.; Thabrew M.I.; Anosa V.; Okorie D.A., 1981: Structure activity relationship in the toxicity of some naturally occurring coumarins chalepin imperatorin and oxy peucedanine

Fringeli U.P.; Leutert P.; Thurnhofer H.; Fringeli M.; Burger M.M., 1986: Structure activity relationship in vinculin an ir attenuated total reflection spectroscopic and film balance study

Yoshida S.; Sugai S.; Kajiwara Y.; Kawada T.; Kanbara T.; Naito Y.; Hasegawa Y.; Akaboshi S.; Kutsuma T.; Et Al, 1985: Structure activity relationship of 3 and 4 acyloxy 1 1 3 dioxolan 4 ylmethylpiperidine derivatives

Fu L.H.W.; Toda N., 1979: Structure activity relationship of 5 hydroxy kynurenamine analogs in isolated dog cerebral arteries

Ozawa K.; Ishii S.; Hirata K.; Hirose M., 1986: Structure activity relationship of acaricidal trans 2 4 tert butylphenylcyclopropanecarboxylates

Ishida T.; In Y.; Ohishi H.; Yamamoto D.; Inoue M.; Tanaka C.; Ueno Y.; Ohmomo Y.; Kanda N.; Et Al, 1988: Structure activity relationship of aldose reductase inhibitors based on x ray crystal structures of oxazolecarbamate derivatives

Li, J. H. Y.; Cragoe, E. J-Jr ; Lindemann, B., 1985: Structure activity relationship of amiloride analogs as blockers of epithelial sodium channels 1. pyrazine ring modifications

Li, J. H. Y.; Cragoe, E. J-Jr ; Lindemann, B., 1987: Structure activity relationship of amiloride analogs as blockers of epithelial sodium channels ii. side chain modifications

Westendorf J.; Marquardt H.; Marquardt H., 1984: Structure activity relationship of anthracycline induced genotoxicity in vitro

Kende A.S.; Ebetino F.H.; Drendel W.B.; Sundaralingam M.; Glover E.; Poland A., 1985: Structure activity relationship of bispyridyloxybenzene for induction of mouse hepatic aminopyrine n demethylase activity chemical biological and x ray crystallographic studies

Saroli A., 1987: Structure activity relationship of bitter dipeptide esters

Takatsuto S.; Yazawa N.; Ikekawa N.; Takematsu T.; Takeuchi Y.; Koguchi M., 1983: Structure activity relationship of brassino steroids

Takatsuto S.; Ikekawa N.; Morishita T.; Abe H., 1987: Structure activity relationship of brassinosteroids with respect to the a b ring functional groups

Shimada K.; Ohishi K.; Fukunaga H.; Ro J.S.; Nambara T., 1985: Structure activity relationship of bufotoxins and related compounds for the inhibition of sodium potassium atpase

Horig J.; Schultheiss H., 1984: Structure activity relationship of carboxyl terminal hexapeptide and heptapeptide substance p antagonists as studied in the guinea pig ileum

Shimada K.; Ishii N.; Ohishi K.; Seup Ro J.; Nambara T., 1986: Structure activity relationship of cardiac steroids having a doubly linked sugar and related compounds for the inhibition of sodium potassium atpase

Deliconstantinos G., 1988: Structure activity relationship of cholesterol and steroid hormones with respect to their effects on the calcium stimulated atpase and lipid fluidity of synaptosomal plasma membranes from dog and rabbit brain

Ohta, H.; Suzuki, S.; Watanabe, H.; Jikihara, T.; Matsuya, K.; Wakabayashi, K., 1976: Structure activity relationship of cyclic imide herbicides part 1 n substituted phenyl 3 4 5 6 tetra hydro phthalimides and related compounds

Guglietta A.; Irons B.J.; Lazarus L.H.; Melchiorri P., 1987: Structure activity relationship of dermorphin on gastric secretion

Galabov A.S.; Galabov B.S.; Neykova N.A., 1980: Structure activity relationship of di phenyl thio urea anti virals

Bellucci G.; Lippi A.; Marioni F.; Citti L.; Gervasi P.G.; Turchi G., 1984: Structure activity relationship of epoxides different mutagenicity of the 2 diastereoisomeric 3 bromo 1 2 epoxycyclohexanes

Hikino, H.; Ohta, T.; Ogura, M.; Ohizumi, Y.; Konno, C.; Takemoto, T., 1976: Structure activity relationship of ericaceous toxins on acute toxicity in mice

Garg S.; Bindal R.D.; Durani S.; Kapil R.S., 1983: Structure activity relationship of estrogens a study involving cyclofenil as the model compound

Gabbard R.B.; Segaloff A., 1983: Structure activity relationship of estrogens effects of 14 dehydrogenation and axial methyl groups at carbon 7 carbon 9 and carbon 11

Mittal S.; Durani S.; Kapil R.S., 1985: Structure activity relationship of estrogens receptor affinity and estrogen antagonist activity of certain e and z 1 2 3 triaryl 2 propen 1 ones

Katsu T.; Kobayashi H.; Hirota T.; Fujita Y.; Sato K.; Nagai U., 1987: Structure activity relationship of gramicidin s analogues on membrane permeability

Kinghorn, A. D.; Jawad, F. H.; Doorenbos, N. J., 1978: Structure activity relationship of grayano toxin derivatives using a tetrodo toxin antagonized spasmodic response of brine shrimp larvae artemia salina

Nakamura A.; Ataka T.; Segawa H.; Takeuchi Y.; Takematsu T., 1983: Structure activity relationship of herbicidal 2 3 di cyano 5 substituted pyrazines

Schwippert W.W., 1985: Structure activity relationship of herbicides inhibiting acetylcholine induced contractions in a molluscan helix pomatia smooth muscle

Schwarz, S.; Schunack, W., 1979: Structure activity relationship of histamine analogs 18. absolute configuration and histamine like activity of the enantiomers of 5 amino 4 5 6 7 tetra hydro benzimidazole

Gerhard, G.; Schunack, W., 1980: Structure activity relationship of histamine analogs 22. absolute configuration and histamine like activity of the enantiomeric alpha n alpha di methyl histamines

Inoue A.; Fukuyasu T.; Nakata Y.; Yajima H.; Nomizu M.; Inagaki Y.; Asano K.; Segawa T., 1988: Structure activity relationship of hylambatin and its fragments as studied in the guinea pig ileum

Williams G.; Sallis J.D., 1979: Structure activity relationship of inhibitors of hydroxylapatite formation

Shiba, T.; Teshima, T.; Nakai, T.; Kitazawa, M., 1988: Structure activity relationship of lepidopteran a self defense peptide of bombyx mori

Bokesch P.M.; Post C.; Strichartz G., 1986: Structure activity relationship of lidocaine homologs producing tonic and frequency dependent impulse blockade in nerve

Strother, A.; Soong, S. L.; Dev, V.; Sadri, M., 1977: Structure activity relationship of lidocaine type local anesthetics

Niedzwicki J.G.; El Kouni M.H.; Chu S.H.; Cha S., 1983: Structure activity relationship of ligands of the pyrimidine nucleoside phosphorylases

Kiso, M.; Fujita, T.; Kurihara, N.; Uchida, M.; Tanaka, K.; Nakajima, M., 1978: Structure activity relationship of lindane analogs

Kanegasaki, S.; Tanamoto, K. I.; Yasuda, T.; Homma, J. Y.; Matsuura, M.; Nakatsuka, M.; Kumazawa, Y.; Yamamoto, A.; Shiba, T.; Et-Al, 1986: Structure activity relationship of lipid a comparison of biological activities of natural and synthetic lipid a's with different fatty acid compositions

Frohn M.A.; Seaborn C.J.; Johnson D.W.; Phillipou G.; Seamark R.F.; Matthews C.D., 1980: Structure activity relationship of melatonin analogs

Wambach G.; Casals Stenzel J., 1983: Structure activity relationship of new steroidal aldo sterone antagonists comparison of the affinity for mineralo corticoid receptors in vitro and the anti aldo sterone activity in vivo

Lown J.W.; Krowicki K.; Balzarini J.; De Clercq E., 1986: Structure activity relationship of novel oligopeptide antiviral and antitumor agents related to netropsin and distamycin

Roemer D.; Pless J., 1979: Structure activity relationship of orally active enkephalin analogs as analgesics

Schroeder H.; Noack E., 1987: Structure activity relationship of organic nitrates for activation of guanylate cyclase

Schmidhammer, H.; Jacobson, A. E.; Atwell, L.; Brossi, A., 1981: Structure activity relationship of oxygenated morphinans 5. narcotic agonist and antagonist activity in the 14 hydroxy morphinan series

Brossi, A.; Atwell, L.; Jacobson, A. E.; Rozwadowska, M. D.; Schmidhammer, H.; Flippen-Anderson, J. L.; Gilardi, R., 1982: Structure activity relationship of oxygenated morphinans 7. 5 methylated and 14 hydroxy substituted agonists and antagonists of the 4 hydroxy and 3 4 di oxygenated 6 morphinanone series

Helwig J J.; Yang M.C.M.; Bollack C.; Judes C.; Pang P.K.T., 1987: Structure activity relationship of parathyroid hormone relative sensitivity of rabbit renal microvessel and tubule adenylate cyclases to oxidized pth and pth inhibitors

Pang P.K.T.; Yang M.C.M.; Keutmann H.T.; Kenny A.D., 1983: Structure activity relationship of parathyroid hormone separation of the hypotensive and the hyper calcemic properties

Niedzwicki, J. G.; Iltzsch, M. H.; El-Kouni, M. H.; Cha, S., 1984: Structure activity relationship of pyrimidine base analogs as ligands of orotate phosphoribosyltransferase ec 2.4.2.10

Kistler A., 1981: Structure activity relationship of retinoids in fetal rat bone cultures

Kistler A., 1986: Structure activity relationship of retinoids on lobuloalveolar differentiation of cultured mouse mammary glands

Kistler A., 1984: Structure activity relationship of retinoids on the differentiation of cultured chick foot skin

Seto Y.; Shinohara T., 1988: Structure activity relationship of reversible cholinesterase inhibitors including paraquat

Moulton, M. P.; Schultz, T. W., 1986: Structure activity relationship of selected pyridines ii. principal components analysis

Franceschini, J.; Mizzotti, B.; Ceserani, R.; Mandelli, V.; Usardi, M. M., 1977: Structure activity relationship of some acetylenic prostaglandin e 2 derivatives

Stossel P., 1985: Structure activity relationship of some bean phaseolus vulgaris phytoalexins and related isoflavonoids

Kalir, A.; Maayani, S.; Rehavi, M.; Elkavets, R.; Pri-Bar, I.; Buchman, O.; Sokolovsky, M., 1978: Structure activity relationship of some phencyclidine derivatives in vivo studies in mice

Vernet Maury E.; Polak E.H.; Demael A., 1984: Structure activity relationship of stress inducing odorants in the rat

Iskander, G. M.; Bohlin, L., 1978: Structure activity relationship of strychnine derivatives modified in the nonaromatic part

Rattan S.; Goyal R.K., 1985: Structure activity relationship of subtypes of cholecystokinin receptors in the cat lower esophageal sphincter

Zhou Q.; Raynor R.L.; Wood M.G.Jr; Menger F.M.; Kuo J.F., 1988: Structure activity relationship of synthetic branched chain distearoylglycerol distearin as protein kinase c activators

Legraverend, M.; Ibanez, S.; Blanchard, P.; Enouf, J.; Lawrence, F.; Robert-Gero, M.; Lederer, E., 1977: Structure activity relationship of synthetic s adenosyl homo cysteine analogs effect on oncogenic virus induced cell transformation and on methylation of macro molecules

Castiglione Morelli M.A.; Tancredi T.; Trivellone E.; Balboni G.; Marastoni M.; Salvadori S.; Tomatis R.; Temussi P.A., 1988: Structure activity relationship of tetrapeptides related to dermorphin a 500 mhz proton nmr study

Hollinger M.A., 1985: Structure activity relationship of the effect of endotoxin on serum angiotensin converting enzyme in the mouse

Carotti A.; Casini G.; Hansch C., 1984: Structure activity relationship of the ficin hydrolysis of phenyl hippurates comparison with papain actinidin and bromelain

Taniguchi M.; Adachi T.; Oi S.; Kimura A.; Katsumura S.; Isoe S.; Kubo I., 1984: Structure activity relationship of the warburgia sesqui terpene di aldehydes

Sekita S.; Yoshihira K.; Natori S.; Harada F.; IIda K.; Yahara I., 1985: Structure activity relationship of thirty nine cytochalasins observed in the effects on cellular structures and cellular events and on actin polymerization in vitro

Hwang Y S.; Schultz G.W.; Mulla M.S., 1984: Structure activity relationship of unsaturated fatty acids as mosquito ovipositional repellents

Avidon V.V.; Pomerantsev I.A.; Golender V.E.; Rozenblit A.B., 1982: Structure activity relationship oriented languages for chemical structure representation

Dicioccio R.A.; Srivastava B.I.S.; Rinehart K.L.Jr; Lee V.J.; Branfman A.R.; Li L H., 1980: Structure activity relationship selectivity and mode of inhibition of terminal deoxy ribo nucleotidyl transferase by streptolydigin analogs

Chretien J.R.; Szymoniak J.; Dubois J E.; Poirier M F.; Garreau M.; Deniker P., 1985: Structure activity relationship studies and pharmacological data banks a darc description acquisition restitution and computer aided design method of computer aided design applied to neuroleptic compounds

Gualtieri F.; Teodori E.; Bellucci C.; Pesce E.; Piacenza G., 1985: Structure activity relationship studies in the field of calcium ii antagonists effect of modifications at the tetrasubstituted carbon of verapamil like compounds

Ilhan, M.; Long, J. P.; Cannon, J. G., 1976: Structure activity relationship studies of derivatives of amino tetralins and open chain analogs in relation to beta adrenoceptor and alpha adrenoceptor agonist activities

Albores Velasco M.; Lotina Henssen B.; Zapien A.; Gonzalez G.; Migueles L., 1986: Structure activity relationship studies of dibromophenolic derivatives as photosynthetic electron chain inhibitors

Cannon J.G.; Lee T.M L.; Chang Y A.; Nyanda A.M.; Bhattacharyya B.; Flynn J.R.; Chatterjee T.; Bhatnagar R.K.; Long J.P., 1988: Structure activity relationship studies of hemicholinium hc 3 congeners

Cone E.J.; Mcquinn R.L.; Shannon H.E., 1984: Structure activity relationship studies of phencyclidine derivatives in rats

Galas, M. C.; Lignon, M. F.; Rodriguez, M.; Mendre, C.; Fulcrand, P.; Laur, J.; Martinez, J., 1988: Structure activity relationship studies on cholecystokinin analogues with partial agonist activity

Peczynska Czoch W.; Mordarski M.; Kaczmarek L.; Nantka Namirski P., 1986: Structure activity relationship studies on selected iso alpha carbolines i

Lin G.H.Y.; Solodar W.E., 1988: Structure activity relationship studies on the mutagenicity of some azo dyes in the salmonella microsome assay

Hall, L. H.; Kier, L. B.; Phipps, G., 1984: Structure activity relationship studies on the toxicities of benzene derivatives 1. an additivity model

Hall, L. H.; Kier, L. B., 1986: Structure activity relationship studies on the toxicities of benzene derivatives ii. an analysis of benzene substituent effects on toxicity

De Wied D.; Gaffori O.; Burbach J.P.H.; Kovacs G.L.; Van Ree J.M., 1987: Structure activity relationship studies with carboxyl terminal fragments of vasopressin and oxytocin on avoidance behaviors of rats

Bhargava, H. N.; Kim, H. S., 1982: Structure activity relationship studies with hypothalamic peptide hormones 1. effect of melanotropin release inhibiting factor and analogs on tolerance to morphine in the rat

Bhargava, H. N.; Matwyshyn, G. A.; Currie, B. L.; Goebel, R. J., 1982: Structure activity relationship studies with hypothalamic peptide hormones 2. effects of trh analogs on morphine induced responses in mice

Bhargava, H. N.; Kim, H. S., 1982: Structure activity relationship studies with hypothalamic peptide hormones 3. effect of melanotropin release inhibiting factor and analogs on tolerance to morphine in the rat

Hays S.J.; Tobes M.C.; Gildersleeve D.L.; Wieland D.M.; Beierwaltes W.H., 1984: Structure activity relationship study of the inhibition of adrenal cortical 11 beta hydroxylase by new metyrapone analogs

Prabhakar Y.S.; Gupta S.P., 1985: Structure activity relationship study on angiotensin converting enzyme inhibitors investigation of hydrophobic interaction in inhibition mechanism

Shahin M.M.; Bugaut A.; Kalopissis G., 1980: Structure activity relationship within a series of m di amino benzene derivatives

Misiek, M.; Pursiano, T. A.; Crast, L. B.; Leitner, F.; Price, K. E., 1972: Structure activity relationships among a group of 7 a n n substituted amidinothio acetamido cephalosporanic acids

Ordukhanyan A.A.; Landau M.A.; Rudzit E.A.; Mndzhoyan Sh L.; Ter Zakharyan Yu Z., 1980: Structure activity relationships among alkoxyphenylcycloalkyl penicillins

Turk S.R.; Shipman C.Jr; Drach J.C., 1986: Structure activity relationships among alpha n heterocyclic acyl thiosemicarbazones and related compounds as inhibitors of herpes simplex virus type 1 specific ribonucleoside diphosphate reductase

Angeli P.; Brasili L.; Brancia E.; Giardina D.; Quaglia W.; Melchiorre C., 1985: Structure activity relationships among benextramine related tetraamine disulfides at peripheral alpha adrenoreceptors

Quaglia W.; Brasili L.; Cristalli G.; Giardina D.; Picchio M.T.; Melchiorre C., 1988: Structure activity relationships among benextramine related tetramine disulfides chain length effect on alpha adrenoreceptor blocking activity

Coats J.R., 1983: Structure activity relationships among ddt derivatives

Narasimhachari, N.; Lin, R. L., 1976: Structure activity relationships among demethyl derivatives of neuroleptics and anti depressants for substrate specificity to indolethylamine n methyl transferase from rabbit lung

Alvarez M.; Granados R.; Mauleon D.; Rosell G.; Salas M.; Salles J.; Valls N., 1987: Structure activity relationships among diamine and tetramine disulfides related to benextramine

Hogberg T.; Vora M.; Drake S.D.; Mitscher L.A.; Chu D.T.W., 1984: Structure activity relationships among dna gyrase inhibitors synthesis and antimicrobial evaluation of chromones and coumarins related to oxolinic acid

Hogberg T.; Khanna I.; Drake S.D.; Mitscher L.A.; Shen L.L., 1984: Structure activity relationships among dna gyrase inhibitors synthesis and biological evaluation of 1 2 di hydro 4 4 dimethyl 1 oxo 2 naphthalenecarboxylic acids as 1 carba bio isosteres of oxolinic acid

Kupchan, S. M.; Ashmore, J. W.; Sneden, A. T., 1978: Structure activity relationships among in vivo active germacranolides

Madrigal R.V.; Zilkowski B.W.; Smith C.R.Jr, 1985: Structure activity relationships among maytansinoids in their effect on the european corn borer ostrinia nubilalis

Frierson M.R.; Klopman G.; Rosenkranz H.S., 1986: Structure activity relationships among mutagens and carcinogens a review

Uehara, Y.; Hori, M.; Kondo, S.; Hamada, M.; Umezawa, H., 1976: Structure activity relationships among negamycin analogs

Woolverton W.L.; Shybut G.; Johanson C.E., 1980: Structure activity relationships among some dextro alkylated amphetamines

Otani, T. T.; Briley, M. R., 1982: Structure activity relationships among substituted n benzoyl derivatives of phenyl alanine and its analogs in a microbial anti tumor pre screen 1. derivatives of o fluoro d l phenyl alanine

Otani, T. T.; Briley, M. R., 1983: Structure activity relationships among substituted n benzoyl derivatives of phenyl alanine and its analogs in a microbial anti tumor pre screen 2. derivatives of m fluoro d l phenyl alanine

Otani, T. T.; Briley, M. R., 1985: Structure activity relationships among substituted n benzoyl derivatives of phenylalanine and its analogs in a microbial antitumor prescreen 3. derivatives of p fluoro dl phenylalanine

Omura, S.; Nakagawa, A.; Sakakibara, H.; Okekawa, O.; Brandsch, R.; Pestka, S., 1977: Structure activity relationships among the o acyl derivatives of leucomycin correlation of minimal inhibitory concentrations with binding to escherichia coli ribosomes

Bertram J.S., 1980: Structure activity relationships among various retinoids and their ability to inhibit neoplastic transformation and to increase cell adhesion in the c 3h 10t 1 2 cl 8 cell line

Dicioccio, R. A.; Sahai-Srivastava, B. I., 1977: Structure activity relationships and kinetic analyses of poly ribo nucleotide inhibition of human cellular deoxy nucleotide polymerizing enzymes

Rouot, B.; Leclerc, G.; Wermuth, C. G.; Miesch, F.; Schwartz, J., 1977: Structure activity relationships and problems arising from a consideration of the mechanism of action of clonidine

Dicioccio, R. A.; Srivastava, B. I. S., 1978: Structure activity relationships and specificity of inhibition of dna polymerases from normal and leukemia cells of man and from simian sarcoma virus by rifamycin derivatives

Grassy, G.; Teulade, J. C.; Chapat, J. P.; Girard, J. P.; Granger, R., 1977: Structure activity relationships application to enzymatic reduction of halogeno benzaldehydes

Manulis S.; Netzer D.; Barash I., 1986: Structure activity relationships as inferred from comparative phytotoxicity of stemphylotoxins and betaenones

Rossi E.C.; Louis G.; Zeller E.A., 1979: Structure activity relationships between catecholamines and the alpha adrenergic receptor responsible for the aggregation of human platelets by epinephrine

Tessel, R. E.; Woods, J. H.; Counsell, R. E.; Basmadjian, G. P., 1975: Structure activity relationships between meta substituted n ethyl amphetamines and isolated guinea pig atrial rate

Tessel, R. E.; Woods, J. H.; Counsell, R. E.; Lu, M., 1975: Structure activity relationships between meta substituted n ethyl amphetamines and loco motor activity in mice

Kern D.H.; Shoemaker R.H.; Hildebrand Zanki S.U.; Driscoll J.S., 1988: Structure activity relationships defining the cytotoxicity of catechol analogues against human malignant melanoma

Caroon J.M.; Clark R.D.; Kluge A.F.; Olah R.; Repke D.B.; Unger S.H.; Michel A.D.; Whiting R.L., 1982: Structure activity relationships for 2 substituted imidazoles as alpha 2 adrenoceptor antagonists

Genard P.; Palem Vliers M., 1980: Structure activity relationships for agonistic and antagonistic mineralo corticoids

Stephenson G.R.; Bunce N.J.; Makowski R.I.; Bergsma M.D.; Curry J.C., 1979: Structure activity relationships for antidotes to thio carbamate herbicides in corn

Considine R.T.; Willingham W.Jr; Chaney S.G.; Wyrick S.; Hall I.H.; Lee K H., 1983: Structure activity relationships for binding and inactivation of rabbit reticulocyte ribosomes by quassinoid anti neoplastic agents

Spence C.D.; Campbell D.P.; Coghlan J.P.; Denton D.A.; Mills E.H.; Nelson M.A.; Whitworth J.A.; Scoggins B.A., 1987: Structure activity relationships for blood pressure effects of prednisolone in sheep

Sarto G.; Borea P.A.; Salvadori S.; Tomatis R., 1984: Structure activity relationships for dermorphin related tetra peptides

Babich, H.; Borenfreund, E., 1988: Structure activity relationships for diorganotins chlorinated benzenes and chlorinated anilines established with bluegill sunfish bf 2 cells

Cheney B.V., 1988: Structure activity relationships for drugs binding to the agonist and antagonist states of the primary morphine receptor

Rousseau, G. G.; Schmit, J. P., 1977: Structure activity relationships for gluco corticoids part 1 determination of receptor binding and biological activity

Schmit, J. P.; Rousseau, G. G., 1977: Structure activity relationships for gluco corticoids part 2 theoretical approach of molecular structures based on energy optimization of a westheimer model

Schmit, J. P.; Rousseau, G. G., 1978: Structure activity relationships for gluco corticoids part 3 structural and conformational study of the rings and side chain of steroids which bind to the gluco corticoid receptor

Schmit, J. P.; Rousseau, G. G., 1978: Structure activity relationships for gluco corticoids part 4 effects of substituents on the overall shape of steroids which bind to the gluco corticoid receptor

Kline T.B.; Bennington F.; Morin R.D.; Beaton J.M.; Glennon R.A.; Domelsmith L.N.; Houk K.N.; Rozeboom M.D., 1982: Structure activity relationships for hallucinogenic n n di alkyl tryptamines photo electron spectra and serotonin receptor affinities of methyl thio and methylenedioxy derivatives

Walton B.T.; Sanborn J.R.; Metcalf R.L., 1979: Structure activity relationships for insect growth regulators derived from substituted di tert butyl phenols

Schultz T.W.; Cajina Quezada M., 1987: Structure activity relationships for mono alkylated or halogenated phenols

Daly J.E.; Padgett W.; Thompson R.D.; Kusachi S.; Bugni W.J.; Olsson R.A., 1986: Structure activity relationships for n 6 substituted adenosines at a brain a 1 adenosine receptor with a comparison to an a 2 adenosine receptor regulating coronary blood flow

Schultz, T. W.; Ranney, T. S.; Riggin, G. W.; Cajina-Quezada, M., 1988: Structure activity relationships for osteolathyrism i. effects of altering the semicarbazide structure

Maxwell R.A.; Ferris R.M.; Woodward E.C.; Tang F.L.M.; Eckhardt S.B., 1980: Structure activity relationships for potent phthalane and thio phthalane inhibitors of norepinephrine uptake a comparison with desipramine and related compounds

Giardina D.; Bertini R.; Brancia E.; Brasili L.; Melchiorre C., 1985: Structure activity relationships for prazosin and wb 4101 n 2 2 6 dimethoxyphenoxyethyl 2 3 dihydro 1 4 benzodioxin 2 methanamine analogs as alpha 1 adrenoreceptor antagonists

Bedford C.D.; Harris R.N.IIi; Howd R.A.; Miller A.; Nolen H.W.IIi; Kenley R.A., 1984: Structure activity relationships for reactivators of organophosphorus inhibited acetylcholinesterase quaternary salts of 2 hydroxyiminomethylimidazole

Halliday W.R.; Mcgovern T.P., 1987: Structure activity relationships for repellency of alicyclic carboxamides to adult tribolium confusum

Stephenson, G. R.; Bunce, N. J.; Makowski, R. I.; Curry, J. C., 1978: Structure activity relationships for s ethyl n n dipropyl thio carbamate antidotes in corn

Roberts D.W., 1987: Structure activity relationships for skin sensitization potential of diacrylates and dimethacrylates

Foreman J.C.; Jordan C.C.; Oehme P.; Renner H., 1983: Structure activity relationships for some substance p related peptides that cause wheal and flare reactions in human skin

Hand V.C.; Williams G.K., 1987: Structure activity relationships for sorption of linear alkylbenzenesulfonates

Harrison N.L.; Majewska M.D.; Harrington J.W.; Barker J.L., 1987: Structure activity relationships for steroid interaction with the gamma aminobutyric acid a receptor complex

Sparatore F.; La Rotonda M.I.; Caliendo G.; Novellino E.; Silipo C.; Vittoria A., 1988: Structure activity relationships for the auxin like activity of benzotriazole derivatives

Goghari M.H.; Franklin K.J.; Moore G.J., 1986: Structure activity relationships for the competitive angiotensin antagonist 1 sarcosine o 4 methyltyrosine angiotensin ii sarmesin

Workman P.; Twentyman P.R., 1982: Structure activity relationships for the enhancement by electron affinic drugs of the anti tumor effect of 1 2 chloroethyl 3 cyclohexyl 1 nitroso urea

Schwartz E.L.; Sartorelli A.C., 1982: Structure activity relationships for the induction of differentiation of hl 60 human acute pro myelocytic leukemia cells by anthracyclines

Parrish, R. F.; Straus, J. W.; Paulson, J. D.; Polakoski, K. L.; Tidwell, R. R.; Geratz, J. D.; Stevens, F. M., 1978: Structure activity relationships for the inhibition of acrosin ec 3.4.21.10 by benzamidine derivatives

Kondo Y.; Toida T.; Kusano G.; Imai J., 1980: Structure activity relationships for the inhibition of formation of acid fastness in mycobacterial organisms by coumarins and cinnamates

Dunn, W. J. Iii ; Hodnett, E. M., 1977: Structure activity relationships for the inhibition of ribo nucleoside di phosphate reductase by alpha n formyl hetero aromatic thio semi carbazones

Culver P.; Burch M.; Potenza C.; Wasserman L.; Fenical W.; Taylor P., 1985: Structure activity relationships for the irreversible blockade of nicotinic receptor agonist sites by lophotoxin and congeneric diterpene lactones

Stone, J. V.; Mordue, W.; Broomfield, C. E.; Hardy, P. M., 1978: Structure activity relationships for the lipid mobilizing action of locust adipo kinetic hormone synthesis and activity of a series of hormone analogs

Cain, B. F.; Wilson, W. R.; Baguley, B. C., 1976: Structure activity relationships for thiolytic cleavage rates of anti tumor drugs in the 4 9 acridinylamino methanesulfonanilide series

Nilsson, L. M.; Carter, R. E.; Sterner, O.; Liljefors, T., 1988: Structure activity relationships for unsaturated dialdehydes 1. a pls correlation of theoretical descriptors for six compounds with mutagenic activity in the ames salmonella assay

Sterner, O.; Carter, R. E.; Nilsson, L. M., 1987: Structure activity relationships for unsaturated dialdehydes 1. the mutagenic activity of 18 compounds in the salmonella microsome assay

Mearman R.C.; Newall C.E.; Tonge A.P., 1984: Structure activity relationships in 1 2 3 triazol 1 yl derivatives of clavulanic acid

Rector, D. L.; Folz, S. D.; Conklin, R. D.; Nowakowski, L. H.; Kaugars, G., 1981: Structure activity relationships in a broad spectrum anti helminthic series acid chloride phenyl hydrazones 1. aryl substitutions and chloride variations

Leone Bay A.; Timony P.E.; Green L.; Glaser L., 1986: Structure activity relationships in a group on n substituted tribromoimidazoles

Hall, D. W. R.; Jaitly, K. D., 1976: Structure activity relationships in a series of 11 deoxy prostaglandins

Ehrhardt, J. D.; Rouot, B.; Schwartz, J., 1978: Structure activity relationships in a series of 2 6 di chloro analogs of lidocaine

Huppatz J.L.; Phillips J.N.; Witrzens B., 1984: Structure activity relationships in a series of fungicidal pyrazole carboxanilides

Casanovas A M.; Labat C.; Courriere P.; Oustrin J., 1982: Structure activity relationships in a series of local anesthetics

Lopata A.; Darvas F.; Valko K.; Mikite G.; Jakucs E.; Kis Tamas A., 1983: Structure activity relationships in a series of new anti fungal nitro alcohol derivatives

Ducrocq C.; Wendling F.; Tourbez Perrin M.; Rivalle C.; Tambourin P.; Pochon F.; Bisagni E.; Chermann J C., 1980: Structure activity relationships in a series of newly synthesized 1 amino substituted ellipticine derivatives

Althuis T.H.; Kadin S.B.; Czuba L.J.; Moore P.F.; Hess H J., 1980: Structure activity relationships in a series of novel 3 4 di hydro 4 oxo pyrimido 4 5 b quinoline 2 carboxylic acid anti allergy agents

Jarv, J.; Kesvatera, T.; Aaviksaar, A., 1976: Structure activity relationships in acetyl cholin esterase reactions hydrolysis on nonionic acetic esters

Manley P.W.; Allanson N.M.; Booth R.F.B.; Buckle P.E.; Kuzniar E.J.; Lad N.; Lai S.M.F.; Lunt D.O.; Tuffin D.P., 1987: Structure activity relationships in an imidazole based series of thromboxane synthase inhibitors

Schmitz, H.; Sattler, H. J.; Schunack, W., 1975: Structure activity relationships in analeptic drugs of the nicethamide type part 8 the synthesis of 2 methyl nicethamide analogs

Kuzuna, S.; Matsumoto, N.; Morimoto, S.; Ishii, H.; Kawai, K., 1975: Structure activity relationships in anti inflammatory and analgesic actions of phenyl acetic acid derivatives

Panthananickal, A.; Hansch, C.; Leo, A., 1978: Structure activity relationships in anti tumor aniline mustards

Brain, E. G.; Eglington, A. J.; Nayler, J. H. C.; Osborne, N. F.; Pearson, M. J.; Smale, T. C.; Southgate, R.; Tolliday, P.; Basker, M. J.; Et-Al, 1977: Structure activity relationships in cephalosporins prepared from penicillins part 1 7 beta acylamino derivatives of 3 benzyl ceph 3 em carboxylic acids and 3 3 pyridylmethyl ceph 3 em 4 carboxylic acids

Brain, E. G.; Eglington, A. J.; James, B. G.; Nayler, J. H. C.; Osborne, N. F.; Pearson, M. J.; Smale, T. C.; Southgate, R.; Tolliday, P.; Et-Al, 1977: Structure activity relationships in cephalosporins prepared from penicillins part 2 analogs of cephalexin substituted in the 3 methyl group

Driedger P.E.; Blumberg P.M., 1980: Structure activity relationships in chick embryo fibroblasts for phorbol related di terpene esters showing anomalous activities in vivo

Mager P.P.; Wenzes U., 1979: Structure activity relationships in derivatives of salicylic acid and benzoic acid

De Benedetti P.G.; Frassineti C.; Cennamo C.; Rastelli A., 1981: Structure activity relationships in di hydro pteroate synthase inhibition by sulfanilamides comparison with the anti bacterial activity

Gill, D. M.; Pappenheimer, A. M-Jr, 1971: Structure activity relationships in diphtheria toxin

Ordukhanyan, A. A.; Kabankin, A. S.; Landau, M. A., 1979: Structure activity relationships in discrete manifestation of biological action 2. anti tumor activity of pyrimidine derivatives

Grehn L.; Ragnarsson U.; Datema R., 1986: Structure activity relationships in distamycin a analogues effect of alkyl groups on the pyrrole nitrogen at the non amidine end of the molecule combined with methyl elimination in the following ring

Fersht A.R.; Leatherbarrow R.J.; Wells T.N.C., 1987: Structure activity relationships in engineered proteins analysis of use of binding energy by linear free energy relationships

Lowe D.M.; Winter G.; Fersht A.R., 1987: Structure activity relationships in engineered proteins characterization of disruptive deletions in the alpha ammonium group binding site of tyrosyl transfer rna synthetase

Schreiber D.; Mendel J.; Heiderstaedt R., 1981: Structure activity relationships in experimental neuro oncology

Manabe A.; Kirino O.; Furuzawa K.; Takano H.; Hisada Y.; Tanaka S., 1987: Structure activity relationships in fungicidal 1 2 benzyl 3 3 dimethylbutanoylimidazoles and related compounds

Schaefer M.; Okulicz Kozaryn I.; Batt A M.; Siest G.; Loppinet V., 1981: Structure activity relationships in glucuronidation of substituted phenols

Mckinney J.D.; Singh P., 1981: Structure activity relationships in halogenated bi phenyls unifying hypothesis for structural specificity

Lebenstedt, E.; Schunack, W., 1975: Structure activity relationships in histamine analogs part 12 imidazo 4 5 g quinolines

Tintelnot M., 1987: Structure activity relationships in histamine h 2 receptor antagonists construction of a binding site model

Hansch, C.; Yoshimoto, M.; Doll, M. H., 1976: Structure activity relationships in immunochemistry part 4 inhibition of complement by benzyl pyridinium ions on the predictive value of correlation equations

Paris D.F.; Wolfe N.L.; Steen W.C., 1982: Structure activity relationships in microbial transformation of phenols

Rehse K.; Kapp W D., 1982: Structure activity relationships in oral anti coagulants barbituric acids and quinolones

Hansch, C.; Smith, R. N.; Rockoff, A.; Calef, D. F.; Jow, P. Y. C.; Fukunaga, J. Y., 1977: Structure activity relationships in papain and bromelain ligand interactions

Hansch, C.; Calef, D. F., 1976: Structure activity relationships in papain ligand interactions

Femmer, K.; Buerkner, U.; Gruenheid, K.; Roellig, H., 1975: Structure activity relationships in phenoxy alkanolamine derivatives with selective beta 1 receptor blockade

Clarke J.U., 1986: Structure activity relationships in polychlorinated biphenyls use of principal components analysis to predict inducers of mixed function oxidase activity

Kline T.B.; Benington F.; Morin R.D.; Beaton J.M., 1982: Structure activity relationships in potentially hallucinogenic n n di alkyl tryptamines substituted in the benzene moiety

Dvoryantseva G.G.; Pol'shakov V.I.; Sheinker Yu N.; Shvedov V.I.; Grynev A.N.; Mashkovsky M.D.; Karapetyan H.A.; Struchkov Yu T., 1985: Structure activity relationships in pyrazino 3 2 1 j k carbazole derivatives a new antidepressant pirlindole and related compounds

Van-Der-Heijden, A.; Van-Der-Wel, H.; Peer, H. G., 1985: Structure activity relationships in sweeteners 1. nitroanilines sulfamates oximes isocoumarins and dipeptides

Van-Der-Heijden, A.; Van-Der-Wel, H.; Peer, H. G., 1985: Structure activity relationships in sweeteners 2. saccharins acesulfames chlorosugars tryptophans and ureas

Birch G.G.; Shamil S., 1986: Structure activity relationships in sweetness

Matsuo K.; Kitaguchi I.; Takata Y.; Tanaka K., 1980: Structure activity relationships in tetramic acids and their copper ii complexes

Tanaka K.; Matsuo K.; Nakaizumi Y.; Morioka Y.; Takashita Y.; Tachibana Y.; Sawamura Y.; Kohda S., 1979: Structure activity relationships in tetronic acids and their copper ii complexes

Guthikonda R.N.; Cama L.D.; Quesada M.; Woods M.F.; Salzmann T.N.; Christensen B.G., 1987: Structure activity relationships in the 2 arylcarbapenem series synthesis of 1 methyl 2 arylcarbapenems

Metcalf R.L.; Francis B.M.; Metcalf R.A.; Farage Elawar M.; Hansen L.G., 1988: Structure activity relationships in the acute and delayed neurotoxicity of methylphosphonothionates and ethylphosphonothionates

Brufani M.; Cellai L.; Cerrini S.; Fedeli W.; Segre A.; Vaciago A., 1982: Structure activity relationships in the ansamycins molecular structure and activity of 3 carbomethoxy rifamycin s

Brufani, M.; Cellai, L.; Cerrini, S.; Fedeli, W.; Vaciago, A., 1978: Structure activity relationships in the ansamycins the crystal structure tolypomycinone

Bodor N.; Harget A.J.; Phillips E.W., 1983: Structure activity relationships in the anti inflammatory steroids a pattern recognition approach

White I.N.H., 1980: Structure activity relationships in the destruction of cytochrome p 450 mediated by certain ethynyl substituted compounds in rats

Adams, G. E.; Ahmed, I.; Clarke, E. D.; O'neill, P.; Parrick, J.; Stratford, I. J.; Wallace, R. G.; Wardman, P.; Watts, M. E., 1980: Structure activity relationships in the development of hypoxic cell radio sensitizers 3. effects of basic substituents in nitroimidazole side chains

Adams G.E.; Clarke E.D.; Flockhart I.R.; Jacobs R.S.; Sehmi D.S.; Stratford I.J.; Wardman P.; Watts M.E.; Parrick J.; Et Al, 1979: Structure activity relationships in the development of hypoxic cell radio sensitizers part 1 sensitization efficiency

Adams G.E.; Clarke E.D.; Gray P.; Jacobs R.S.; Stratford I.J.; Wardman P.; Watts M.E.; Parrick J.; Wallace R.G.; Smithen C.E., 1979: Structure activity relationships in the development of hypoxic cell radio sensitizers part 2 cyto toxicity and therapeutic ratio

Shenbagamurthi P.; Baffi R.; Khan S.A.; Lipke P.; Pousman C.; Becker J.M.; Naider F., 1983: Structure activity relationships in the dodeca peptide alpha factor of saccharomyces cerevisiae

Baffi R.A.; Becker J.M.; Lipke P.N.; Naider F., 1985: Structure activity relationships in the dodecapeptide alpha factor of saccharomyces cerevisiae position 6 analogs are poor inducers of agglutinability

Richards R.K., 1980: Structure activity relationships in the effects of phenacemide analogs on serum creatinine and anti convulsant activity

Barth A.; Mager H.; Fischer G.; Neubert K.; Schwarz G., 1980: Structure activity relationships in the enzymatic hydrolysis of di peptide arylamides by di peptidyl peptidase

Camilleri P.; Bowyer J.R.; Gilkerson T.; Odell B.; Weaver R.C., 1987: Structure activity relationships in the hill inhibitory activity of substituted phenylureas

Fitzgerald J.E.; Mcguire E.J.; Andrews L.K.; De La Iglesia F.A., 1986: Structure activity relationships in the induction of mammary gland neoplasia in male rats with substituted aminopyrazoles

Lesca P.; Lecointe P.; Pelaprat D.; Paoletti C.; Mansuy D., 1980: Structure activity relationships in the inhibitory effects of ellipticines on benzo a pyrene hydroxylase activity and 3 methyl cholanthrene mutagenicity

Murray M.; Wilkinson C.F.; Marcus C.; Dube C.E., 1983: Structure activity relationships in the interactions of alkoxymethylenedioxy benzene derivatives with rat hepatic microsomal mixed function oxidases in vivo

Stark A A.; Zeiger E.; Shtelzer S.; Sheradksy T.; Lifshitz Y.; Blum J., 1986: Structure activity relationships in the mutagenicity of n substituted derivatives of phenanthrene 9 10 imine

Sweeny J.G.; Iacobbucci G.A.; Brusick D.; Jagannath D.R., 1981: Structure activity relationships in the mutagenicity of quinone methides of 7 hydroxy flavylium salts for salmonella typhimurium

Thibault M.; Koumare B.; Soussy C.J.; Duval J., 1981: Structure activity relationships in the quinolone group anti bacterial activity of 2 new compounds

Tropsha A.E.; Nizhnii S.V.; Yaguzhinskii L.S., 1985: Structure activity relationships in the series of muscarinic agonists three types of agonist receptor complexes

Tropsha A.E.; Nizhnii S.V.; Yaguzhinskii L.S., 1985: Structure activity relationships in the series of muscarinic antagonists four modes of antagonist receptor binding

Blunden S.J.; Smith P.J.; Sugavanam B., 1984: Structure activity relationships in tri organo tin biocides the influence of the anionic radical

Iborra, F.; Labouesse, B.; Labouesse, J., 1975: Structure activity relationships in tryptophanyl transfer rna synthetase from beef pancreas influence of the alkylation of the sulfhydryl groups on the dimer monomer equilibrium

Gil, D. L.; Wilkinson, C. F., 1977: Structure activity relationships of 1 2 3 benzothiadiazole insecticide synergists as inhibitors of microsomal oxidation

Gil, D. L.; Wilkinson, C. F., 1976: Structure activity relationships of 1 2 3 benzothiadiazoles as synergists for carbaryl against the house fly musca domestica

Brown D.M.; Parker E.; Brown J.M., 1982: Structure activity relationships of 1 substituted 2 nitro imidazoles effect of partition coefficient and side chain hydroxyl groups on radio sensitization in vitro

De Oliveira Filho A.M.; Pinchin R.; Figueiredo M.J.; Muller C.A.; Goncalves J.R.S.; Gilbert B., 1981: Structure activity relationships of 110 candidate juvenile hormone analogs for panstrongylus megistus a vector of chagas disease hemiptera heteroptera reduviidae triatominae

Westwick J.; Williamson E.M.; Evans F.J., 1980: Structure activity relationships of 12 deoxy phorbol esters on human platelets

Brown, M. P.; Coy, D. H.; Gomez-Pan, A.; Hirst, B. H.; Hunter, M.; Meyers, C.; Reed, J. D.; Schally, A. V.; Shaw, B., 1978: Structure activity relationships of 18 somatostatin analogs on gastric secretion

Arneric S.P.; Maixner W.; Long J.P.; Mott J.; Barfknecht C.F.; Perez J.A.; Cannon J.G., 1982: Structure activity relationships of 2 amino tetralins and 2 amino indanes inhibitory neuro effector mechanisms in isolated guinea pig ilea

Scheffrahn R.H.; Su N Y., 1987: Structure activity relationships of 2 haloalkanoic acids and their esters as antitermitic agents against formosan subterranean termites isoptera rhinotermitidae

Murata, T.; Satoh, H.; Nohara, A.; Ukawa, K.; Sugihara, H.; Kanno, M.; Sanno, Y., 1977: Structure activity relationships of 3 substituted benzoyl propionic acids a new class of anti spasmodics for biliary smooth muscle

Gabbard R.B.; Hamer L.F.; Segaloff A., 1981: Structure activity relationships of 4 11 hydroxy estrones isomeric at the carbon 9 and carbon 11 positions

Danielson U.H.; Esterbauer H.; Mannervik B., 1987: Structure activity relationships of 4 hydroxyalkenals in the conjugation catalyzed by mammalian glutathione transferases

Ito S.; Kojima Y.; Fujimori K.; Matsunari K.; Shimazaki I.; Suda Y.; Nitta K., 1985: Structure activity relationships of 4 tert butylbenzamides and anilides against rice blast pyricularia oryzae

Fujii, T.; Sato, T.; Tamura, A.; Kometani, M.; Nakao, K.; Fujitani, K.; Kodama, K.; Akasu, M., 1988: Structure activity relationships of 4' o substituted 1 benzylisoquinolines with respect to their actions on the cell membrane of blood platelets and erythrocytes

Chen Y.L.; Chang C W.; Hedberg K.; Guarino K.; Welch W.M.; Kiessling L.; Retsema J.A.; Haskell S.L.; Anderson M.; Et Al, 1987: Structure activity relationships of 6 heterocyclyl methylene penam sulfones a new class of beta lactamase inhibitors

Gabbard R.B.; Segaloff A., 1983: Structure activity relationships of 9 beta estrogens

Levin R.J., 1988: Structure activity relationships of a homologous series of surfactants nonylphenoxypolyethoxyethanols on rat vaginal bioelectric activity over the estrous cycle

Strickland S.; Breitman T.R.; Frickel F.; Nurrenbach A.; Hadicke E.; Sporn M.B., 1983: Structure activity relationships of a new series of retinoidal benzoic acid derivatives as measured by induction of differentiation of murine f 9 terato carcinoma cells and human hl 60 pro myelocytic leukemia cells

Riehm J.P.; Rao K.R., 1982: Structure activity relationships of a pigment dispersing crustacean neuro hormone

Bowers C.Y.; Momany F.; Reynolds G.A.; Chang D.; Hong A.; Chang K., 1980: Structure activity relationships of a synthetic penta peptide that specifically releases growth hormone in vitro

Mukherjee, C.; Caron, M. G.; Mullikin, D.; Lefkowitz, R. J., 1976: Structure activity relationships of adenylate cyclase coupled beta adrenergic receptors determination by direct binding studies

Klunk W.E.; Covey D.F.; Ferrendelli J.A., 1982: Structure activity relationships of alkyl substituted gamma butyro lactones and succinimides

Ashcroft, S. J. H.; Harrison, D. E.; Poje, M.; Rocic, B., 1986: Structure activity relationships of alloxan like compounds derived from uric acid

Watanabe, T. X.; Noda, Y.; Chino, N.; Nishiuchi, Y.; Kimura, T.; Sakakibara, S.; Imai, M., 1988: Structure activity relationships of alpha human atrial natriuretic peptide

Warnick, J. E.; Maleque, M. A.; Bakry, N.; Eldefrawi, A. T.; Albuquerque, E. X., 1982: Structure activity relationships of amantadine 1. interaction of the n alkyl analogs with the ionic channels of the nicotinic acetyl choline receptor and electrically excitable membrane

Vigne P.; Frelin C.; Cragoe E.J.Jr; Lazdunski M., 1984: Structure activity relationships of amiloride and certain of its analogs in relation to the blockade of the sodium hydrogen exchange system

Hara, T. J., 1976: Structure activity relationships of amino acids in fish olfaction

Durette, P. L.; Bugianesi, R. L.; Ponpipom, M. M.; Shen, T. Y.; Cascieri, M. A.; Glitzer, M. S.; Katzen, H. M., 1978: Structure activity relationships of aminoalkyl glycosides and aryl glycosides having insulin like activity

Vasil, M. L.; Kabat, D.; Iglewski, B. H., 1977: Structure activity relationships of an exo toxin of pseudomonas aeruginosa

Bowers, W. S.; Nishino, C.; Montgomery, M. E.; Nault, L. R., 1977: Structure activity relationships of analogs of the aphid alarm pheromone trans beta farnesene

Di-Paolo, T., 1978: Structure activity relationships of anesthetic ethers using molecular connectivity/

Matsuzawa Y.; Oki T.; Takeuchi T.; Umezawa H., 1981: Structure activity relationships of anthracyclines relative to cyto toxicity and effects on macro molecular synthesis in l 1210 leukemia cells

Crooke, S. T.; Duvernay, V. H.; Galvan, L.; Prestayko, A. W., 1978: Structure activity relationships of anthracyclines relative to effects on macro molecular syntheses

Koga H.; Itoh A.; Murayama S.; Suzue S.; Irikura T., 1980: Structure activity relationships of anti bacterial 6 7 di substituted and 7 8 di substituted 1 alkyl 1 4 dihydro 4 oxo quinoline 3 carboxylic acids

Bawden D.; Tute M.S., 1981: Structure activity relationships of anti mycobacterial sulfones a study using physicochemical constants

Chomienne C.; Balitrand N.; Cost H.; Degos L.; Abita J.P., 1986: Structure activity relationships of aromatic retinoids on the differentiation of the human histiocytic lymphoma cell lines u 937

Robertson D.W.; Krushinski J.H.; Beedle E.E.; Leander J.D.; Wong D.T.; Rathbun R.C., 1986: Structure activity relationships of arylalkylimidazole anticonvulsants comparison of the fluorenylalkyimidazoles with nafimidone and denzimol

Robertson D.W.; Beedle E.E.; Krushinski J.H.; Pollock G.D.; Wilson H.; Wyss V.L.; Hayes J.S., 1985: Structure activity relationships of arylimidazopyridine cardiotonics discovery and inotropic activity of 2 2 methoxy 4 methylsulfinylphenyl 1h imidazo 4 5 c pyridine

Robertson D.W.; Krushinski J.H.; Beedle E.E.; Wyss V.; Pollock G.D.; Hayes J.S., 1986: Structure activity relationships of arylimidazopyridine cardiotonics synthesis and inotropic activity of benzothienyl and naphthyl substituted imidazopyridines and purines

Thibault, G.; Garcia, R.; Carrier, F.; Seidah, N. G.; Lazure, C.; Chretien, M.; Cantin, M.; Genest, J., 1984: Structure activity relationships of atrial natriuretic factor 1. natriuretic activity and relaxation of intestinal smooth muscle

Garcia, R.; Thibault, G.; Seidah, N. G.; Lazure, C.; Cantin, M.; Genest, J.; Chretien, M., 1985: Structure activity relationships of atrial natriuretic factor 2. effect of chain length modifications on vascular reactivity

De-Lean, A.; Thibault, G.; Seidah, N. G.; Lazure, C.; Gutkowska, J.; Chretien, M.; Genest, J.; Cantin, M., 1985: Structure activity relationships of atrial natriuretic factor iii. correlation of receptor affinity with relative potency on aldosterone production in zona glomerulosa cells

Lacey E.; Watson T.R., 1985: Structure activity relationships of benzimidazole carbamates as inhibitors of mammalian tubulin in vitro

Van't Riet B.; Kier L.B.; Elford H.L., 1980: Structure activity relationships of benzohydroxamic acid inhibitors of ribo nucleotide reductase

Wales, J. K.; Krees, S. V.; Grant, A. M.; Viktora, J. K.; Wolff, F. W., 1968: Structure activity relationships of benzothiadiazine compounds as hyper glycemic agents rat

Hajjar N.P.; Casida J.E., 1979: Structure activity relationships of benzoylphenyl ureas as toxicants and chitin synthesis inhibitors in oncopeltus fasciatus

Wong A.; Hwang S.M.; Cheng H Y.; Crooke S.T., 1987: Structure activity relationships of beta adrenergic receptor coupled adenylate cyclase implications of a redox mechanism for the action of agonists at beta adrenergic receptors

Takeuchi, H.; Yokoi, I.; Kurono, M., 1977: Structure activity relationships of beta hydroxy glutamic acid and its relatives on the excitability of an identifiable giant neuron of african giant snail achatina fulica

Canario A.V.M.; Scott A.P., 1988: Structure activity relationships of c21 steroids in an in vitro oocyte maturation bioassay in rainbow trout salmo gairdneri

Martinez J.; Bali J P.; Magous R.; Laur J.; Lignon M F.; Briet C.; Nisato D.; Castro B., 1985: Structure activity relationships of carboxyl terminal tripeptide and tetrapeptide fragments that inhibit gastrin activity

Pis'ko G.T.; Gudz' O.V., 1980: Structure activity relationships of cationic surface active substances

Vogel, W. H.; Evans, B. D., 1977: Structure activity relationships of certain hallucinogenic substances based on brain levels

Krapf R.; Illsley N.P.; Tseng H.C.; Verkman A.S., 1988: Structure activity relationships of chloride sensitive fluorescent indicators for biological application

Goldstein J.A.; Linko P.; Huckins J.N.; Stalling D.L., 1982: Structure activity relationships of chlorinated benzenes as inducers of different forms of cytochrome p 450 in rat liver

Goldblum, A., 1983: Structure activity relationships of cholin esterase ec 3.1.1.7 inhibitors 1. quantum mechanical study of affinities of phenyl n methyl carbamates

Andrews P.R.; Mark L.C.; Winkler D.A.; Jones G.P., 1983: Structure activity relationships of convulsant and anti convulsant barbiturates a computer graphic based pattern recognition analysis

Jones, M. T.; Hillhouse, E. W.; Burden, J. L., 1977: Structure activity relationships of cortico steroid feedback at the hypothalamic level

Edwards J.V.; Lax A.R.; Lillehoj E.B.; Boudreaux G.J., 1987: Structure activity relationships of cyclic and acyclic analogues of the phytotoxic peptide tentoxin

Schiller P.W.; Nguyen T.M D.; Maziak L.A.; Wilkes B.C.; Lemieux C., 1987: Structure activity relationships of cyclic opioid peptide analogues containing a phenylalanine residue in the 3 position

Brown D.D.; Metcalf R.L.; Sternburg J.G.; Coats J.R., 1981: Structure activity relationships of ddt type analogs based on in vivo toxicity to the sensory nerves of the cockroach periplaneta americana

Bradfield C.A.; Bjeldanes L.F., 1987: Structure activity relationships of dietary indoles a proposed mechanism of action as modifiers of xenobiotic metabolism

Barnett, C. J.; Cullinan, G. J.; Gerzon, K.; Hoying, R. C.; Jones, W. E.; Newlon, W. M.; Poore, G. A.; Robison, R. L.; Sweeney, M. J.; Et-Al, 1978: Structure activity relationships of dimeric catharanthus alkaloids deacetyl vinblastine amide vindesine sulfate

Conrad R.A.; Cullinan G.J.; Gerzon K.; Poore G.A., 1979: Structure activity relationships of dimeric catharanthus alkaloids part 2 experimental anti tumor activities of n substituted deacetyl vinblastine amide vindesine sulfates

Seiler M.P.; Stoll A.P.; Closse A.; Frick W.; Jaton A.; Vigouret J M., 1986: Structure activity relationships of dopaminergic 5 hydroxy 2 aminotetralin derivatives with functionalized n alkyl substituents

Audigier Y.; Mazarguil H.; Gout R.; Cros J., 1980: Structure activity relationships of enkephalin analogs at opiate and enkephalin receptors correlation with analgesia

Spatola A.F.; Saneii H.; Edwards J.V.; Bettag A.L.; Anwer M.K.; Rowell P.; Browne B.; Lahti R.; Von Voigtlander P., 1986: Structure activity relationships of enkephalins containing serially replaced thiomethylene amide bond surrogates

Day, A. R.; Lujan, M.; Dewey, W. L.; Harris, L. S.; Radding, J. A.; Freer, R. J., 1976: Structure activity relationships of enkephalins in the stimulated guinea pig ileum

Agresti A.; Buffoni F.; Kaufman J.J.; Petrongolo C., 1980: Structure activity relationships of eseroline and morphine ab initio quantum chemical study of the electrostatic potential and of the interaction energy with water

Segaloff A.; Gabbard R.B., 1984: Structure activity relationships of estrogens effects of esterification of the 11 beta hydroxyl group

Kirino O.; Shigeo Y.; Kato T., 1980: Structure activity relationships of fungicidal n benzoyl anthranilic esters

Takeuchi, H.; Yokoi, I.; Hiramatsu, M., 1977: Structure activity relationships of gamma amino butyric acid and its relatives on the excitability of an identified molluscan giant neuron achatina fulica

Bolte M.L.; Crow W.D.; Takahashi N.; Sakurai A.; Uji Ie M.; Yoshida S., 1985: Structure activity relationships of grandinol a germination inhibitor in eucalyptus

Bercher, H.; Grisk, A., 1976: Structure activity relationships of halogenated phenyl ethanolamines and phenoxypropanolamines

Hurst R.E.; Poon M C., 1983: Structure activity relationships of heparin independence of heparin charge density and anti thrombin binding domains in thrombin inhibition by anti thrombin and heparin cofactor ii

Nakamura A.; Ataka T.; Segawa H.; Takeuchi Y.; Takematsu T., 1983: Structure activity relationships of herbicidal 5 ethylamino 2 3 di cyano pyrazine and 5 propylamino 2 3 di cyano pyrazine

Hepp, M.; Schunack, W., 1980: Structure activity relationships of histamine analogs 21. synthesis and pharmacology of n alpha substituted histamines

Gerhard, G.; Schunack, W., 1981: Structure activity relationships of histamine analogs 23. absolute configuration and histamine like activity of the enantiomeric alpha chloromethyl histamines and n alpha methyl alpha chloromethyl histamines

Schwarz, S.; Schunack, W., 1982: Structure activity relationships of histamine analogs 24. absolute configuration and histamine type activity of the enantiomers of 4 2 aminopropyl 5 methyl imidazole

Chopra, I. J.; Teco, G. N. C.; Eisenberg, J. B.; Wiersinga, W. M.; Solomon, D. H., 1982: Structure activity relationships of inhibition of hepatic mono deiodination of thyroxine to 3 5 3' tri iodo thyronine by thio uracil and related compounds

Hatakoshi M.; Matsuo N.; Nakayama I.; Kirino O.; Takayama C., 1984: Structure activity relationships of insecticidal alpha cyanobenzyl and alpha ethynylbenzylcyclopropanecarboxylates

Hatakoshi M.; Takayama C.; Matsuo N.; Nakayama I.; Kirino O., 1985: Structure activity relationships of insecticidal alpha cyanobenzylcyclopropanecarboxylates

Ponpipom M.M.; Bugianesi R.L.; Brooker D.R.; Yue B Z.; Hwang S B.; Shen T Y., 1987: Structure activity relationships of kadsurenone analogues

Fagg G.E.; Foster A.C.; Harris E.W.; Lanthorn T.H.; Cotman C.W., 1982: Structure activity relationships of l glutamate receptor ligands role of the omega acidic terminal

Takeuchi, H.; Mori, A.; Kurono, M., 1977: Structure activity relationships of l homo cysteic acid and its relatives on the electrical activity of an identifiable molluscan giant neuron achatina fulica

Shinitzky, M.; Hazum, E.; Fridkin, M., 1976: Structure activity relationships of luliberin substituted at position 8

Peter R.E.; Nahorniak C.S.; Sokolowska M.; Chang J.P.; Rivier J.E.; Vale W.W.; King J.A.; Millar R.P., 1985: Structure activity relationships of mammalian chicken and salmon gonadotropin releasing hormones in vivo in goldfish

Kawazoe I.; Kawauchi H.; Hirano T.; Naito N., 1987: Structure activity relationships of melanin concentrating hormone

Morgan, B. A.; Smith, C. F. C.; Waterfield, A. A.; Hughes, J.; Kosterlitz, H. W., 1976: Structure activity relationships of methionine enkephalin

Benz, F. W.; Long, J. P., 1969: Structure activity relationships of n alkyl and heterocyclic analogs of hemicolinium 3 mouse rabbit

Ueda T.; Nakanishi T.; Murakami T.; Tobitsuka J.; Kozasa M.; Endo T.; Hanzawa T.; Aoki A., 1987: Structure activity relationships of n aryl 4 carboxy and n aryl 4 hydroxyphthalimides in control of plasmodiophora disease

Ueda T., 1988: Structure activity relationships of n aryl 4 substituted phthalimides in the control of plasmodiophora disease

Ariyoshi Y.; Takeuchi H., 1982: Structure activity relationships of n beta phenylpropionyl l tyrosine and its derivatives on the inhibition of an identifiable giant neuron of an african giant snail achatina fulica

Ginos J.Z.; Stevens J.M.; Nichols D.E., 1979: Structure activity relationships of n substituted dopamine and 2 amino 6 7 dihydroxy 1 2 3 4 tetrahydro naphthalene analogs behavioral effects in lesioned and reserpinized mice

Kohli J.D.; Weder A.B.; Goldberg L.I.; Ginos J.Z., 1980: Structure activity relationships of n substituted dopamine derivatives as agonists of the dopamine vascular and other cardio vascular receptors

Smith, S. H.; Harris, L. S.; Uwaydah, I. M.; Munson, A. E., 1978: Structure activity relationships of natural and synthetic cannabinoids in suppression of humoral and cell mediated immunity

Kluefers P.; Petersenn A.V.; Roeder E., 1986: Structure activity relationships of nefopam hydrochloride

Murofushi S.; Sano A.; Ina K., 1982: Structure activity relationships of neutral amino acids as feeding stimulants for sea bream chrysophrys major feeding stimulants for fishes 9

Vance W.A.; Okamoto H.S.; Wang Y.Y., 1986: Structure activity relationships of nitro and methyl nitro derivatives of indoline indole indazole and benzimidazole in salmonella typhimurium

Matsui, M.; Nagai, F.; Suzuki, E.; Okada, M., 1984: Structure activity relationships of nitrosamines and nitramines which stimulate udp glucuronosyltransferase ec 2.4.1.17 activities in vitro

Rainsford, K. D., 1978: Structure activity relationships of nonsteroid anti inflammatory drugs part 1 gastric ulcerogenic activity

Ohtsu A.; Tanaka T.; Kamimoto F.; Hoshina K.; Kurozumi S.; Naruchi T.; Hashimoto Y., 1980: Structure activity relationships of novel 3 acyl pyrrole derivatives new inhibitors of platelet aggregation

Pang K.; Johnson S.W.; Maayani S.; Freedman R., 1986: Structure activity relationships of phencyclidine derivatives in rat cerebellum

Martin, M.; Carbo, R.; Petrongolo, C.; Tomasi, J., 1975: Structure activity relationships of phenethylamine a comparison of quantum mechanical self consistent field ab initio and semi empirical calculations

Lambrecht, G., 1977: Structure activity relationships of piperidine derivatives with aromatic substituents part 3 esters of 1 methyl 4 phenyl 1 2 3 6 tetra hydro 3 pyridinol

Sorg, B.; Gschwendt, M.; Thielmann, H. W.; Hecker, E., 1980: Structure activity relationships of poly functional di terpenes of the tigliane type 4 1 3. derivatives of tigliane without or with opened cyclo propane ring and their irritant and promoting activity

Sorg, B.; Schmidt, R.; Hecker, E., 1987: Structure activity relationships of polyfunctional diterpenes of the ingenane type i. tumor promoting activity of homologous aliphatic 3 esters of ingenol and of delta 7 8 isoingenol 3 tetradecanoate

Templeton, J. F.; Kumar, V. P. S.; Kim, R. S.; Labella, F. S., 1987: Structure activity relationships of progesterone derivatives that bind to the digitalis receptor modifications in a and b rings

Link C.M.; Theoharides A.D.; Anders J.C.; Chung H.; Canfield C.J., 1985: Structure activity relationships of putative primaquine metabolites causing methemoglobin formation in canine hemolysates

Bialer, M.; Yagen, B.; Mechoulam, R.; Becker, Y., 1979: Structure activity relationships of pyrrole amidine anti viral antibiotics 1. modifications of the alkyl amidine side chain

Bialer, M.; Yagen, B.; Mechoulam, R.; Becker, Y., 1980: Structure activity relationships of pyrrole amidine anti viral antibiotics 2. preparation of mono pyrrole and tri pyrrole derivatives of congocidine

Bialer, M.; Yagen, B.; Mechoulam, R.; Becker, Y., 1980: Structure activity relationships of pyrrole amidine anti viral antibiotics 3. preparation of distamycin and congocidine derivatives based on 2 5 di substituted pyrroles

Fernandez, J. P.; Grassy, G.; Terol, A.; Robbe, Y.; Chapat, J. P.; Granger, R.; Sentenac-Roumanou, H., 1978: Structure activity relationships of radioprotective derivatives of 2 phenyl 3 methyl 1 3 oxazolidine analysis in principal components

Weir M.P.; Chaplin M.A.; Wallace D.M.; Dykes C.W.; Hobden A.N., 1988: Structure activity relationships of recombinant human interleukin 2

Ilhan M.; Long J.P.; Flynn J.; Bhatnagar R.; Cannon J.G., 1984: Structure activity relationships of resorcinol substituted ring systems

Willhite, C. C.; Dawson, M. I.; Williams, K. J., 1984: Structure activity relationships of retinoids in developmental toxicology 1. studies on the nature of the polar terminus of the vitamin a molecule

Willhite, C. C., 1986: Structure activity relationships of retinoids in developmental toxicology ii. influence of the polyene chain of the vitamin a molecule

Howard, W. B.; Willhite, C. C.; Dawson, M. I.; Sharma, R. P., 1988: Structure activity relationships of retinoids in developmental toxicology iii. contribution of the vitamin a beta cyclogeranylidene ring

Newton D.L.; Henderson W.R.; Sporn M.B., 1980: Structure activity relationships of retinoids in hamster tracheal organ culture

Cadi R.; Dhouailly D.; Pautou M P., 1984: Structure activity relationships of retinoids in the morphogenesis of cutaneous appendages in the chick embryo

Kishi K.; Yazawa K.; Takahashi K.; Mikami Y.; Arai T., 1984: Structure activity relationships of saframycins

Schultz, T. W.; Moulton, B. A., 1985: Structure activity relationships of selected pyridines 1. substituent constant analysis

Schultz, T. W.; Applehans, F. M.; Riggin, G. W., 1987: Structure activity relationships of selected pyridines iii. log k o w analysis

Abeles, A. L., 1969: Structure activity relationships of several cardiotonic steroids with respect to inhibition of ion transport in frog muscle

Lawrence W.D.; Osawa Y.M.; Davis P.J.; Blas S.D., 1986: Structure activity relationships of sex steroid analogs determined in vitro in a thyroid hormone responsive membrane calcium atpase model

Rosenthal L.E.; Yamashiro D.J.; Rivier J.; Vale W.; Brown M.; Dharmsathaphorn K., 1983: Structure activity relationships of somatostatin analogs in the rabbit ileum and the rat colon

Verschoyle R.D.; Aldridge W.N., 1980: Structure activity relationships of some pyrethroids in rats

Sloan J.W.; Martin W.R.; Hook R.; Hernandez J., 1985: Structure activity relationships of some pyridine piperidine and pyrrolidine analogs for enhancing and inhibiting the binding of racemic tritiated nicotine to the rat brain p 2 preparation

Trieff, N. M.; Venkatasubramanian, N.; Ramanujam, V. M. S.; Young, T. R. Iii ; Levy, B., 1976: Structure activity relationships of some selected beta adrenergic blocking agents oxidation with n bromo succinimide

Chiotellis E.; Stassinopoulou C.I.; Varvarigou A.; Vavouraki H., 1982: Structure activity relationships of some technetium 99m labeled thio ethylamino carboxylates

Uberoi N.K.; Hendry L.B.; Muldoon T.G.; Myers R.B.; Segaloff A.; Bransome E.D.; Mahesh V.B., 1985: Structure activity relationships of some unique estrogens related to estradiol are predicted by fit into dna

Liskamp R.M.J.; Colstee J.H.; Ottenheijm H.C.J.; Lelieveld P.; Akkerman W., 1984: Structure activity relationships of sparsomycin and its analogs octyl sparsomycin the 1st analog more active than sparsomycin

Van Den Broek L.A.G.M.; Liskamp R.M.J.; Colstee J.H.; Lelieveld P.; Remacha M.; Vazquez D.; Ballesta J.P.G.; Ottenheijm H.C.J., 1987: Structure activity relationships of sparsomycin and its analogues inhibition of peptide bond formation in cell free systems and of l1210 and bacterial cell growth

Lazaro E.; Van Den Broek L.A.G.M.; Ottenheijm H.C.J.; Lelieveld P.; Ballesta J.P.G., 1987: Structure activity relationships of sparsomycin modification at the hydroxyl group

Wallace, K. B.; Niemi, G. J., 1988: Structure activity relationships of species selectivity in acute chemical toxicity between fish and rodents

Klangkalya B.; Chan A., 1988: Structure activity relationships of steroid hormones on muscarinic receptor binding

Brandstrom A.; Lindberg P.; Junggren U., 1985: Structure activity relationships of substituted benzimidazoles

Vedani A.; Meyer E.F.Jr, 1984: Structure activity relationships of sulfonamide drugs and human carbonic anhydrase c modeling of inhibitor molecules into the receptor site of the enzyme with an interactive computer graphics display

Hall S.S.; Loebenberg D.; Schumacher D.P., 1983: Structure activity relationships of synthetic antibiotic analogs of anisomycin

Komori T.; Sakane K.; Setoi H.; Kawai Y.; Teraji T.; Kohsaka M.; Imanaka H., 1985: Structure activity relationships of synthetic antibiotic analogs of chryscandin

Lavelle J.M.; Mangold J.B., 1987: Structure activity relationships of the azide metabolite azidoalanine in salmonella typhimurium

Mcquinn R.L.; Cone E.J.; Shannon H.E.; Su T P., 1981: Structure activity relationships of the cyclo alkyl ring of phencyclidine

Nishikawa, K.; Shimakawa, H.; Inada, Y.; Shibouta, Y.; Kikuchi, S.; Yurugi, S.; Oka, Y., 1976: Structure activity relationships of the diuretic activity of tri aza naphthalene and tetra aza naphthalene compounds

Li R L.; Zhang W S.; Wang J C.; Poe M., 1987: Structure activity relationships of the inhibition of escherichia coli dihydrofolate reductase mb1428 by 5 substituted phenylthio and 5 substituted phenylseleno 2 4 diaminopyrimidines

Narbonne J.F.; Cassand P.; Alzieu P.; Grolier P.; Mrlina G.; Calmon J.P., 1987: Structure activity relationships of the n methylcarbamate series in salmonella typhimurium

Faden A.I.; Sacksen I.; Noble L.J., 1988: Structure activity relationships of trh analogs in rat spinal cord injury

Shinoda H.; Adamek G.; Felix R.; Fleisch H.; Schenk R.; Hagan P., 1983: Structure activity relationships of various bis phosphonates

Belew, M.; Gerdin, B.; Lindeberg, G.; Porath, J.; Saldeen, T.; Wallin, R., 1980: Structure activity relationships of vasoactive peptides derived from fibrin or fibrinogen degraded by plasmin ec 3.4.21.7

Funaki Y.; Ishiguri Y.; Kato T.; Tanaka S., 1984: Structure activity relationships of vinyl triazole fungicides

Inouye S.; Tsuruoka T.; Goi H.; Iwamatsu K.; Miyauchi K.; Ishii T.; Tamura A.; Kazuno Y.; Matsuhashi M., 1984: Structure activity relationships on the terminal d amino acid moiety of a novel cephamycin mt 141 sodium 7 beta d 2 amino 2 carboxyethylthioacetamido 7 alpha methoxy 3 1 methyl 1h tetrazol 5 ylthiomethylceph 3 em 4 carboxylate

Myers H.M., 1987: Structure activity relationships sar of hydroxyapatite binding molecules

Burkhard L.P.; Andren A.W.; Armstrong D.E., 1983: Structure activity relationships using molecular connectivity indices with principal component analysis

Shahin M.M.; Rouers D.; Bugaut A.; Kalopissis G., 1980: Structure activity relationships within a series of 2 4 di aminoalkoxy benzene compounds

Cantor E.H.; Abraham S.; Marcum E.A.; Spector S., 1983: Structure activity requirements for hypotension and alpha adrenergic receptor blockade by analogs of atropine

Kirst H.A.; Wild G.M.; Baltz R.H.; Hamill R.L.; Ott J.L.; Counter F.T.; Ose E.E., 1982: Structure activity studies among 16 membered macrolide antibiotics related to tylosin

Johnson M.R.; Schaaf T.K.; Constantine J.W.; Hess H J., 1980: Structure activity studies leading to a tissue selective hypotensive prostaglandin analog 13 14 di hydro 16 phenyl omega tetra norprostaglandin e 2

Guzzi U.; Ciabatti R.; Padova G.; Battaglia F.; Cellentani M.; Depaoli A.; Galliani G.; Schiatti P.; Spina G., 1986: Structure activity studies of 16 methoxy 16 methylprostaglandins

Kawashima Y.; Amanuma F.; Sato M.; Okuyama S.; Nakashima Y.; Sota K.; Moriguchi I., 1986: Structure activity studies of 4 6 disubstituted 2 morpholinocarbonylfuro 3 2 b indole derivatives with analgesic and antiinflammatory activities

Diana G.D.; Oglesby R.C.; Akullian V.; Carabateas P.M.; Cutcliffe D.; Mallamo J.P.; Otto M.J.; Mckinlay M.A.; Maliski E.G.; Michalec S.J., 1987: Structure activity studies of 5 4 4 5 dihydro 2 oxazolylphenoxyalkyl 3 methylisoxazoles inhibitors of picornavirus uncoating

Kador, P. F.; Sharpless, N. E., 1978: Structure activity studies of aldose reductase ec 1.1.1.21 inhibitors containing the 4 oxo 4h chromen ring system

Hocart S.J.; Nekola M.V.; Coy D.H., 1987: Structure activity studies of antagonists of lhrh with emphasis on the amino terminal region

Stuper, A. J.; Jurs, P. C., 1978: Structure activity studies of barbiturates using pattern recognition techniques

Toll L.; Loew G.H.; Uyeno E.T.; Lawson J.A., 1984: Structure activity studies of beta carboline analogs

Codding, P. W., 1983: Structure activity studies of beta carbolines 1. molecular structure and conformation of cis 3 carboxylic acid 1 2 3 4 tetra hydro harmane di hydrate

Muir, A. K. S.; Codding, P. W., 1984: Structure activity studies of beta carbolines 2. crystal and molecular structures of n ethyl 3 carbamoyl beta carboline

Muir, A. K. S.; Codding, P. W., 1985: Structure activity studies of beta carbolines 3. crystal and molecular structures of methyl beta carboline 3 carboxylate

Abood L.G.; Salles K.S.; Maiti A., 1988: Structure activity studies of carbamate and other esters agonists and antagonists to nicotine

Gaudreau P.; St Pierre S.; Pert C.B.; Quirion R., 1987: Structure activity studies of carboxyl terminal and amino terminal fragments of cholecystokinin 26 33 in guinea pig isolated tissues

Schaaf T.K.; Johnson M.R.; Constantine J.W.; Bindra J.S.; Hess H J.; Elger W., 1983: Structure activity studies of configurationally rigid aryl prostaglandins

Darlak K.; Grzonka Z.; Janicki P.; Czlonkowski A.; Gumulka S.W., 1983: Structure activity studies of dermorphin synthesis and some pharmacological data of dermorphin and its 1 substituted analog

Darlak K.; Grzonka Z.; Krzascik P.; Janicki P.; Gumulka S.W., 1984: Structure activity studies of dermorphin the role of side chains of amino acid residues on the biological activity of dermorphin

Drouin J N.; Gaudreau P.; St Pierre S.A.; Regoli D., 1979: Structure activity studies of des 9 arginine brady kinin on the b 1 receptor of the rabbit aorta

Ferrell J.E.Jr; Sing P.D.G.C.; Loew G.; King R.; Mansour J.M.; Mansour T.E., 1979: Structure activity studies of flavonoids as inhibitors of cyclic amp phospho di esterase and relationship to quantum chemical indices

Munekata E.; Kubo K.; Tanaka H.; Osakada F., 1987: Structure activity studies of heptapeptide derivatives related to substance p neurokinin a b and other tachykinins on smooth muscles

Knittel J.J.; Sawyer T.K.; Hruby V.J.; Hadley M., 1983: Structure activity studies of highly potent cyclic 4 half cystine 10 half cystine melanotropin analogs

Lillquist J.S.; Simon P.L.; Summers M.; Jonak Z.; Young P.R., 1988: Structure activity studies of human il 1 beta with mature and truncated proteins expressed in escherichia coli

Cohen F.E.; Kosen P.A.; Kuntz I.D.; Epstein L.B.; Ciardelli T.L.; Smith K.A., 1986: Structure activity studies of interleukin 2

Panasci, L. C.; Fox, P. A.; Schein, P. S., 1977: Structure activity studies of methylnitroso urea anti tumor agents with reduced murine bone marrow toxicity

Loew G.; Keys C.; Luke B.; Polgar W.; Toll L., 1986: Structure activity studies of morphiceptin analogs receptor binding and molecular determinants of mu affinity and selectivity

Loew G.H.; Lawson J.A.; Uyeno E.T.; Toll L.; Frenking G.; Polgar W.; Ma L.Y.Y.; Camerman N.; Camerman A., 1988: Structure activity studies of morphine fragments 1 4 alkyl 4 m hydroxyphenylpiperidines

Narvaez J.N.; Lavine B.K.; Jurs P.C., 1986: Structure activity studies of musk odorants using pattern recognition bicyclobenzenoids and tricyclobenzenoids

Sugishita E.; Amagaya S.; Ogihara Y., 1982: Structure activity studies of some oleanane tri terpenoid glycosides and their related compounds from the leaves of tetrapanax papyriferum on anti inflammatory activities

Sunderland A.J.; Leake L.D.; Walker R.J., 1982: Structure activity studies of the amine receptor on the retzius cells of the leeches hirudo medicinalis and haemopis sanguisuga

Miller E.C.; Swanson A.B.; Phillips D.H.; Fletcher T.L.; Liem A.; Miller J.A., 1983: Structure activity studies of the carcinogenicities in the mouse and rat of some naturally occurring and synthetic alkenyl benzene derivatives related to safrole and estragole

Wiseman R.W.; Miller E.C.; Miller J.A.; Liem A., 1987: Structure activity studies of the hepatocarcinogenicities of alkenylbenzene derivatives related to estragole and safrole on administration to preweanling male c57bl 6j x c3h hej f 1 mice

Irie K.; Hagiwara N.; Tokuda H.; Koshimizu K., 1987: Structure activity studies of the indole alkaloid tumor promoter teleocidins

Green T.; Odum J., 1985: Structure activity studies of the nephrotoxic and mutagenic action of cysteine conjugates of chloroalkenes and fluoroalkenes

Moriguchi I.; Komatsu K., 1981: Structure activity studies of withaferin analogs using the adaptive least squares method

Glennon R.A.; Young R.; Hauck A.E.; Mckenney J.D., 1984: Structure activity studies on amphetamine analogs using drug discrimination methodology

Wyrick S.D.; Hall I.H.; Dubey A., 1984: Structure activity studies on anti hyper lipidemic n benzoyl sulfamates and n benzyl sulfamates and benzyl sulfonamides

Maryanoff B.E.; Nortey S.O.; Gardocki J.F., 1984: Structure activity studies on antidepressant 2 2 diarylethylamines

Dipaolo, T.; Hall, L. H.; Kier, L. B., 1978: Structure activity studies on hallucinogenic amphetamines using model interaction calculations

Kier, L. B.; Hall, L. H., 1977: Structure activity studies on hallucinogenic amphetamines using molecular connectivity

Gupta S.P.; Singh P.; Bindal M.C., 1981: Structure activity studies on lsd analogs using van der waals volume

Raghunathan, R.; Shantoo, G., 1976: Structure activity studies on mammalian tissue lytic enzymes chemical characterization and substrate specificity of rat kidney nuclear lysozyme

Glennon R.A.; Young R.; Hauck A.E., 1985: Structure activity studies on methoxy substituted phenylisopropylamines using drug discrimination methodology

Lamande, A.; Knoesel, R.; Jung, L., 1976: Structure activity studies on morphine analgesics part 3 charge transfer complexes from morphine and derivatives

Jung, L.; Koffel, J. C.; Toumi, A.; Cros, J., 1976: Structure activity studies on morphine analgesics part 4 role of phenylethylamino group in morphine and derivatives mechanisms of action

Ham C.L.; Jurs P.C., 1985: Structure activity studies on musk odorants using pattern recognition monocyclic nitrobenzenes

Kier, L. B.; Simons, R. J.; Hall, L. H., 1978: Structure activity studies on mutagenicity of nitrosamines using molecular connectivity

Jacoby, R. L.; Boon, D.; Darling, L. E.; Willette, R. E., 1981: Structure activity studies on narcotic antagonists 2. n substituted ethyl 3 m hydroxyphenyl nipecotate or ethyl 3 p hydroxyphenyl nipecotate

Horvath A.; Coy D.H.; Nekola M.V.; Coy E.J.; Hocart S.J.; Keri G.; Teplan I., 1986: Structure activity studies on new inhibitory analogs of lhrh

Rodenkirchen R.; Bayer R.; Steiner R.; Bossert F.; Meyer H.; Moeller E., 1979: Structure activity studies on nifedipine in isolated cardiac muscle

Kier, L. B.; Di-Paolo, T.; Hall, L. H., 1977: Structure activity studies on odor molecules using molecular connectivity

Couture R.; Fournier A.; Magnan J.; St Pierre S.; Regoli D., 1979: Structure activity studies on substance p

Benson, G. A.; Spillane, W. J., 1976: Structure activity studies on sulfamate sweeteners

Spillane, W. J.; Mcglinchey, G., 1981: Structure activity studies on sulfamate sweeteners 2. semi quantitative structure taste relationship for sulfamate sweeteners the role of r side chains

Fujiki H.; Suganuma M.; Nakayasu M.; Tahira T.; Endo Y.; Shudo K.; Sugimura T., 1984: Structure activity studies on synthetic analogs indolactams of the tumor promoter teleocidin

Belew M.; Gerdin B.; Larsson L E.; Lindeberg G.; Ragnarsson U.; Saldeen T.; Wallin R., 1980: Structure activity studies on synthetic analogs to vasoactive peptides derived from human fibrinogen

Gaudreau P.; Michaud J.; Cohen E.A.; Langelier Y.; Brazeau P., 1987: Structure activity studies on synthetic peptides inhibiting herpes simplex virus ribonucleotide reductase

Skinner W.A.; Rackur G.; Uyeno E., 1979: Structure activity studies on tetra hydro cannabinol and hexa hydro cannabinol derivatives

Allan R.D.; Dickenson H.W.; Fong J., 1986: Structure activity studies on the activity of a series of cyclopentane gamma aminobutyric acid analogues on gamma aminobutyric acid a receptors and gamma aminobutyric acid uptake

Sueiras Diaz J.; Lance V.A.; Murphy W.A.; Coy D.H., 1984: Structure activity studies on the amino terminal region of glucagon

Coy D.H.; Murphy W.A.; Sueiras Diaz J.; Coty E.J.; Lance V.A., 1985: Structure activity studies on the amino terminal region of growth hormone releasing factor

Escher E.; Couture R.; Poulos C.; Pinas N.; Mizrahi J.; Theodoropoulos D.; Regoli D., 1982: Structure activity studies on the carboxyl terminal amide of substance p

Poulos C.; Stavropoulos G.; Brown J.R.; Jordan C.C., 1987: Structure activity studies on the carboxyl terminal hexapeptide of substance p with modifications at the glutaminyl and methioninyl residues

Wheal, H. V.; Kerkut, G. A., 1976: Structure activity studies on the excitatory receptor of the crustacean neuro muscular junction

Theodoropoulos D.; Pinas N.; Poulos C.; Couture R.; Mizrahi J.; Regoli D.; Escher E., 1982: Structure activity studies on the glutamine residues of substance p

Krogsgaard-Larsen, P.; Johnston, G. A. R., 1978: Structure activity studies on the inhibition of gamma amino butyric acid binding to rat brain membranes by muscimol and related compounds

Wood J.D.; Tsui D.; Phillis J.W., 1979: Structure activity studies on the inhibition of gamma amino butyric acid uptake in brain slices by compounds related to nipecotic acid

Zeiger E.; Pagano D.A.; Nomeir A.A., 1982: Structure activity studies on the mutagenicity of tris 2 3 di bromopropyl phosphate and its metabolites in salmonella typhimurium

Singh H.; Gombar V.; Jain D.V.S., 1980: Structure activity studies on the phenolic substrates in microsomal hydroxylation

Morgan P.F.; Stone T.W., 1983: Structure activity studies on the potentiation of benzodiazepine receptor binding by ethylenediamine analogs and derivatives

Hall, L. H.; Kier, L. B., 1977: Structure activity studies using valence molecular connectivity

Szalay K.S.; De Wied D.; Stark E.; Folly G., 1985: Structure activity studies with acth alpha msh fragments on corticosteroid secretion of isolated zona glomerulosa and fasciculata cells

Baldino F.Jr; Davis L.G.; Wolfson B., 1985: Structure activity studies with carboxyl and amino terminal fragments of neurotensin on hypothalamic neurons in vitro

Holland J.; Hirst B.H.; Shaw B., 1982: Structure activity studies with cholecystokinin on gastric secretion in the cat

Hirst B.H.; Coy D.H., 1984: Structure activity studies with somatostatin role of lysine in positions 4 and 9 for gastric activity

Hirst B.H.; Shaw B.; Meyers C.A.; Coy D.H., 1980: Structure activity studies with somatostatin the role of tryptophan in position 8

Armstrong, F. B.; Lipscomb, E. L.; Crout, D. H. G.; Morgan, P. J., 1985: Structure activity studies with the alpha beta dihydroxyacid dehydratase ec 4.2.1.9 of salmonella typhimurium

Courriere, P.; Paubel, J. P.; Niviere, P.; Foussard-Blanpin, O., 1978: Structure activity study in a series of local anesthetic agents part 1 physicochemical properties and molecular orbital study correlation with their pharmacodynamical activity

Boulanger W.A.; Katzenellenbogen J.A., 1986: Structure activity study of 6 substituted 2 pyranones as inactivators of alpha chymotrypsin

Gupta, S. P.; Singh, P., 1978: Structure activity study of anti helminthic analogs of 2 2 di chlorovinyldimethyl phosphate dichlorvos

Ogino A.; Matsumura S.; Fujita T., 1980: Structure activity study of anti ulcerous and anti inflammatory drugs by discriminant analysis

Dunn, W. J. Iii ; Wold, S.; Martin, Y. C., 1978: Structure activity study of beta adrenergic agents using the simca method of pattern recognition

Parness J.; Kingston D.G.I.; Powell R.G.; Harracksingh C.; Horwitz S.B., 1982: Structure activity study of cyto toxicity and micro tubule assembly in vitro by taxol and related taxanes

Mizuta, E.; Nishikawa, K.; Omura, K.; Oka, Y., 1976: Structure activity study of diuretic aza naphthalene derivatives

Fujinami, A.; Satomi, T.; Mine, A.; Fujita, T., 1976: Structure activity study of herbicidal n chloroacetyl n phenyl glycine esters

Gaudreau P.; Barabe J.; St Pierre S.; Regoli D., 1981: Structure activity study of kinins in vascular smooth muscles

Tanaka, S.; Kato, T.; Yamamoto, S.; Yoshioka, H., 1977: Structure activity study of s n butyl s p tert butylbenzyl n 3 pyridyl di thio carbonimidate s 1358 denmert and its derivatives

Tamaru M.; Ogawa H.; Nishimura T.; Takahashi Y.; Sasaki S I., 1988: Structure activity study of systemic acaricidal n substituted chloromethanesulfonamides by the ormucs method

Loike, J. D.; Brewer, C. F.; Sternlicht, H.; Gensler, W. J.; Horwitz, S. B., 1978: Structure activity study of the inhibition of micro tubule assembly in vitro by podophyllo toxin and its congeners

Kirino O.; Oshita H.; Oishi T.; Kato T., 1980: Structure activity study on n substituted amino acetonitriles possessing preventive activity against fusarium disease

Lumma W.C.Jr; Baldwin J.J.; Bicking J.B.; Bolhofer W.A.; Hoffman J.M.; Phillips B.T.; Robb C.M.; Torchiana M.L.; Schlegel H.B.; Smith G.M.; Et Al, 1984: Structure activity theoretical and x ray studies on the intra molecular interactions in a series of novel histamine h 2 receptor antagonists

Tanii H.; Hashimoto K., 1985: Structure acute toxicity relationship of dinitriles in mice

Shibuya T.; Field R.; Watanabe Y.; Sato K.; Salafsky B., 1984: Structure affinity relationships between several new benzodiazepine derivatives and tritium labeled diazepam receptor sites

Baldwin J.J.; Huff J.R.; Randall W.C.; Vacca J.P.; Zrada M.M., 1985: Structure affinity relationships for yohimbine analogs at central alpha adrenoceptors

Huff J.R.; Baldwin J.J.; Desolms S.J.; Guare J.P.Jr; Hunt C.A.; Randall W.C.; Sanders W.S.; Smith S.J.; Vacca J.P.; Zrada M.M., 1988: Structure affinity relationships of arylquinolizines at alpha adrenoceptors

Crouzy, R., 1977: Structure alterations and the spectral law of light diffusion during corneal edema

Lisciani R.; Lembo S.; Cozzolino S.; La Rotonda M.I.; Silipo C.; Vittoria A., 1986: Structure analgesic activity relationships in a set of 2 aminobenzamide derivatives

Hase, S.; Ikenaka, T.; Matsushima, Y., 1978: Structure analyses of oligo saccharides by tagging of the reducing end sugars with a fluorescent compound

Collin S.; Norberg B.; Evrard G.; Durant F.; Tollenaere J.P.; Moereels H., 1988: Structure analyses of r 48455 a potent d 2 antagonist and its inactive isomer r 49399

Reinhardt E.R.; Erhardt R.; Schwarzmann P.; Bloss W.H.; Ott R., 1979: Structure analysis and classification of cervical cells using a processing system based on television

Ladenstein, R.; Epp, O.; Bartels, K.; Jones, A.; Huber, R.; Wendel, A., 1979: Structure analysis and molecular model of the seleno enzyme glutathione peroxidase ec 1.11.1.9 at 2.8 angstrom resolution

Allet B.; Rochaix J D., 1979: Structure analysis at the ends of the intervening dna sequences in the chloroplast 23s ribosomal genes of chlamydomonas reinhardii

Das, B. C.; Cosson, J. P.; Lukacs, G., 1977: Structure analysis by carbon 13 nmr spectroscopy of pleiocraline a new bis indole alkaloid from alstonia deplanchei

Rosa M.D., 1981: Structure analysis of 3 phage t 7 late messenger rna ribosome binding sites

Garner W.H.; Balaji V.N., 1988: Structure analysis of bovine lens calf gamma ii crystallin residue assignments of the five histidine ce1 resonances observed by proton nmr spectroscopy

Beijbom L.; Larsson U.; Kaveus U.; Hebert H., 1988: Structure analysis of fibrinogen by electron microscopy and image processing

Tanada S.; Boki K.; Toumiya T.; Kinugasa H.; Nakamura T., 1982: Structure analysis of micro porous activated carbon by measurement of the adsorption isotherm of hydrogen sulfide

Evans F.E.; Miller D.W.; Cairns T.; Baddeley G.V.; Wenkert E., 1982: Structure analysis of proximadiol cryptomeridiol by carbon 13 nmr spectroscopy

Boelter M.; Meyer Reil L A.; Dawson R.; Liebezeit G.; Wolter K.; Szwerinski H., 1981: Structure analysis of shallow water ecosystems interaction of microbiological chemical and physical characteristics measured in the overlying waters of sandy beach sediments

Mulleniz P., 1981: Structure analysis of spontaneous behavior during the estrous cycle of the rat

Warner T.G.; O'brien J.S., 1982: Structure analysis of the major oligo saccharides accumulating in canine gm 1 gangliosidosis liver

Vuilhorgne, M.; Ennifar, S.; Das, B. C.; Paschal, J. W.; Nagarajan, R.; Hagaman, E. W.; Wenkert, E., 1977: Structure analysis of the nucleoside di saccharide antibiotic anthelmycin by carbon 13 nmr spectroscopy a structural revision of hikizimycin and its identity with anthelmycin

Hider R.C.; Drake A.F.; Morrison I.E.G.; Kupryszewski G.; Wilusz T., 1987: Structure analysis of trypsin inhibitors isolated from cucurbitaceae seeds circular dichroism studies

Yamada, H., 1988: Structure analysis on the yeast cytoplasmic membrane by freeze fracture electron microscopy

Dudley, R. K.; Odell, J. T.; Howell, S. H., 1982: Structure and 5' termini of the large and 19s rna transcripts encoded by the cauliflower mosaic virus genome

Ealick S.E.; Van Der Helm D.; Gross R.A.Jr; Weinheimer A.J.; Ciereszko L.S.; Middlebrook R.E., 1980: Structure and absolute configuration at low temperature of the acetate derivative of plexaurolone a marine cembranoid

Allen F.H.; Cruse W.B.T.; Kennard O., 1980: Structure and absolute configuration of 22 r 3 beta acetoxy 5 alpha 8 alpha 3 5 dioxo 4 phenyl 1h 2h 1 2 4 triazol 1 2 diyl 24 trimethylsilylchol 6 en 23 yn 22 yl p bromo benzoate at 279 plus or minus 1 kelvin

Homma K.; Fukuyama K.; Katsube Y.; Kimura Y.; Hamasaki T., 1980: Structure and absolute configuration of an atrovenetin like metabolite from aspergillus silvaticus

Matsuo A.; Uto S.; Nozaki H.; Nakayama M., 1984: Structure and absolute configuration of dextro vitrenal a novel carbon skeletal sesqui terpenoid having plant growth inhibitory activity from the liverwort lepidozia vitrea

Kalsi P.S.; Arora G.S.; Chhina K., 1985: Structure and absolute configuration of khusitoneol a new 14 carbon ketoalcohol from vetiver oil

Matsuo A.; Sato S.; Nakayama M.; Hayashi S., 1979: Structure and absolute configuration of levo taylorione a novel carbon skeletal sesqui terpene ketone of ent 1 10 seco aromadendrane form from mylia taylorii liverwort

Anderson, J. B.; Aggarwal, N. D.; Nieforth, K. A.; Hite, G., 1978: Structure and absolute configuration of levo trans 4 methyl 10b methoxycarbonyl 1 2 3 4 4a 5 6 10b octa hydro benzo f quinoline hydro bromide mono hydrate

Cardllina J.H.II; Arnold E.V.; Clardy J.; Moore R.E., 1979: Structure and absolute configuration of malyngolide an antibiotic from the marine blue green alga lyngbya majuscula

Wagner A., 1980: Structure and absolute configuration of r alaproclate 2 4 chlorophenyl 1 1 dimethylethyl 2 amino propanoate hydro chloride a selective inhibitor of neuronal 5 hydroxy tryptamine uptake

Kikuchi T.; Mori Y.; Yokoi T.; Nakazawa S.; Kuroda H.; Masada Y.; Kitamura K.; Kuriyama K., 1983: Structure and absolute configuration of sargatriol a new isoprenoid chromenol from a brown alga sargassum tortile

Ahmad, Y.; Fatima, K.; Atta-Ur-Rahman ; Occolowitz, J. L.; Solheim, B. A.; Clardy, J.; Garnick, R. L.; Le-Quesne, P. W., 1977: Structure and absolute configuration of strictamine and strictalamine from rhazya stricta stereochemistry of the picralima alkaloids

Roberts K.R.; Stewart K.D.; Mattox K.R., 1984: Structure and absolute configuration of the flagellar apparatus in the iso gametes of batophora dasycladales chlorophyta

Karlsson, R.; Losman, D., 1976: Structure and absolute configuration of the sesqui terpene lemnacarnol

De-Oliveira, A. B.; De-Oliveira, G. G.; Liberalli, C. T. M.; Gottlieb, O. R.; Magalhaes, M. T., 1976: Structure and absolute configuration of the sesqui terpenoid emmotins

Albers-Schonberg, G.; Arison, B. H.; Hensens, O. D.; Hirshfield, J.; Hoogsteen, K.; Kaczka, E. A.; Rhodes, R. E.; Kahan, J. S.; Kahan, F. M.; Et-Al, 1978: Structure and absolute configuration of thienamycin

Majumder P.L.; Joardar S.; Dinda B.N.; Bandyopadhyay D.; Joardar S.; Basu A., 1981: Structure and absolute stereochemistry of 19 epi dextro echitoveniline a new indole alkaloid of the leaves of alstonia venenata

Auret B.J.; Boyd D.R.; Cassidy E.S.; Hamilton R.; Turley F.; Drake A.F., 1985: Structure and absolute stereochemistry of thioacetal sulfoxides obtained by fungal metabolism of 2 alkyl 1 3 dithianes

Hayashi T.; Koyama J.; Mcphail A.T.; Lee K H., 1987: Structure and absolute stereochemistry of tomenphantopin a and b two cytotoxic sesquiterpene lactones from elephantopus tomentosus

Egebjerg J.; Leffers H.; Christensen A.; Andersen H.; Garrett R.A., 1987: Structure and accessibility of domain i of escherichia coli 23s rna in free rna in the l24 rna complex and in 50s subunits implications for ribosomal assembly

Cropper E.C.; Miller M.W.; Tenebaum R.; Kolks M.A.G.; Kupfermann I.; Weiss K.R., 1988: Structure and action of buccalin a modulatory neuropeptide localized to an identified small cardioactive peptide containing cholinergic motor neuron of aplysia californica

Toth G.P.; Blumenthal K.M., 1983: Structure and action of hetero nemertine poly peptide toxins binding of cerebratulus lacteus toxin b iv to axon membrane vesicles

Blumenthal, K. M.; Kem, W. R., 1976: Structure and action of hetero nemertine poly peptide toxins primary structure of cerebratulus lacteus toxin b iv

Blumenthal K.M.; Keim P.S.; Kem W.R.; Heinrikson R.L., 1981: Structure and action of heteronemertine poly peptide toxins amino acid sequence of cerebratulus lacteus toxin b ii and revised structure of toxin b iv

Blumenthal K.M., 1980: Structure and action of heteronemertine poly peptide toxins di sulfide bonds of cerebratulus lacteus toxin a iii

Blumenthal, K. M.; Kem, W. R., 1977: Structure and action of heteronemertine poly peptide toxins di sulfide bonds of cerebratulus lacteus toxin b iv

Blumenthal K.M.; Kem W.R., 1980: Structure and action of heteronemertine poly peptide toxins inactivation of cerebratulus lacteus toxin b iv by tyrosine nitration

Blumenthal K.M., 1980: Structure and action of heteronemertine poly peptide toxins inactivation of cerebratulus lacteus toxin b iv concomitant with tryptophan alkylation

Blumenthal K.M., 1982: Structure and action of heteronemertine poly peptide toxins membrane penetration by cerebratulus lacteus toxin a iii

Blumenthal K.M.; Kem W.R., 1980: Structure and action of heteronemertine poly peptide toxins primary structure of cerebratulus lacteus toxin a iii

Dumont J.A.; Blumenthal K.M., 1985: Structure and action of heteronemertine polypeptide toxins importance of amphipathic helix for activity of cerebratulus lacteus toxin a iii

Lieberman D.L.; Blumenthal K.M., 1986: Structure and action of heteronemertine polypeptide toxins specific cross linking of cerebratulus lacteus toxin b iv to lobster axon membrane vesicles

Lebenstedt, E.; Schunack, W., 1977: Structure and action of histamine analogs part 14 4 aminomethyl benzimidazole and 9 amino naphth 1 2 d imidazole

Nomura K.; Suzuki N.; Ohtake H.; Isaka S., 1983: Structure and action of sperm activating peptides from the egg jelly of a sea urchin anthocidaris crassispina/

Gagnon J., 1984: Structure and activation of complement c 2 and factor b

Taparowsky E.; Shimizu K.; Goldfarb M.; Wigler M., 1983: Structure and activation of the human n ras gene

Wilkinson, K. D.; Cox, M. J.; O'connor, L. B.; Shapira, R., 1986: Structure and activities of a variant ubiquitin sequence from baker's yeast

Linhardt R.J.; Rice K.G.; Merchant Z.M.; Kim Y.S.; Lohse D.L., 1986: Structure and activity of a unique heparin derived hexasaccharide

Minelli E.B.; Ercoli N., 1980: Structure and activity of antimonials antimony iii antagonism of anti parasitic action by their organic radicals in vivo and in vitro

Pays E., 1975: Structure and activity of chromatin in vitro

Carter P.E.; Dunbar B.; Fothergill J.E., 1984: Structure and activity of complement c 1r and complement c 1s

Collier, R. J.; Kandel, J., 1971: Structure and activity of diphtheria toxin part 1 thiol dependent dissociation of a fraction of toxin into enzymically active fragments

Drazin, R.; Kandel, J.; Collier, R. J., 1971: Structure and activity of diphtheria toxin part 2 attack by trypsin at a specific site within the intact toxin molecule

Weitzel, G.; Bauer, F. U.; Eisele, K., 1976: Structure and activity of insulin part 14 further studies on the 3 step increase in activity due to the aromatic amino acids b 24 to b 26 phenyl alanine phenyl alanine tyrosine

Weitzel, G.; Bauer, F. U.; Rehe, A., 1977: Structure and activity of insulin part 15 further evidence for the importance of arginine residue b 22 in the activity of insulin semi syntheses of depenta peptide b 26 30 insulins varied in b 22 using denona peptide b 22 30 insulin and tetra peptides

Weitzel, G.; Bauer, F. U.; Eissele, K., 1978: Structure and activity of insulin part 16 semi syntheses of dehepta peptide b 24 30 up to destri peptide b 28 30 insulin with lysine or alanine in place of arginine in position b 22 influence on the 3 step increase of activity in positions b 24 26

Pundak, S.; Eisenberg, H., 1981: Structure and activity of malate dehydrogenase ec 1.1.1.37 from the extreme halophilic bacteria of the dead sea israel 1. conformation and interaction with water and salt between 5 molar and 1 molar sodium chloride concentration

Pundak, S.; Aloni, H.; Eisenberg, H., 1981: Structure and activity of malate dehydrogenase ec 1.1.1.37 from the extreme halophilic bacteria of the dead sea israel 2. inactivation dissociation and unfolding at sodium chloride concentrations below 2 molar salt salt concentration and temperature dependence of enzyme stability

Paull, B. R.; Gleich, G. J.; Atassi, M. Z., 1979: Structure and activity of ragweed antigen e 2. allergenic cross reactivity of the subunits

Roberts P.A.; Macphail L.A., 1985: Structure and activity of salivary gland chromosomes of drosophila gibberosa

Duine, J. A.; Frank, J.; Verwiel, P. E. J., 1980: Structure and activity of the prosthetic group of methanol dehydrogenase ec 1.1.99.8

Schindelmeiser J., 1985: Structure and activity of the thyroid gland in intrauterine and extrauterine larvae of the ovoviviparous salamandra salamandra amphibia urodela

Moav B.; Horowitz M.; Cohen J.B.; Rechavi G.; Eliyahu E.; Oren M.; Givol D., 1986: Structure and activity of the translocated c myc in mouse plasmacytoma xrpc 24

Walde P.; Peng Q.; Fadnavis N.W.; Battistel E.; Luisi P.L., 1988: Structure and activity of trypsin in reverse micelles

Li L.H.; Wallace T.L.; Dekoning T.F.; Warpehoski M.A.; Kelly R.C.; Prairie M.D.; Krueger W.C., 1987: Structure and activity relationship of several novel cc 1065 analogs

Zanotti, G.; Del-Pra, A.; Bombieri, G.; Tamburro, A. M., 1978: Structure and activity relationships of platinum complexes related to anti tumor activity the crystal and molecular structure of trans di chloro bis cyclo hexylamine platinum ii

Shataeva L.K.; Chernova I.A.; Sel'tser A.V.; Shashkov B.V.; Deryabin I.I.; Samsonov G.V., 1984: Structure and adsorption properties of the regenerated hemosorbent scn

Miller C.N.; La Pasha C.A., 1983: Structure and affinities of athrotaxites berryi an early cretaceous conifer

Jennings J.R.; Karrfalt E.E.; Rothwell G.W., 1983: Structure and affinities of protostigmaria eggertiana

Nishida, M.; Nishida, H., 1986: Structure and affinities of the petrified plants from the cretaceous of northern japan and sakhalin ussr iii. petrified plants from the upper cretaceous of sakhalin 1

Nishida, H.; Nishida, M., 1986: Structure and affinities of the petrified plants from the cretaceous of northern japan and sakhalin ussr iv. petrified plants from the upper cretaceous of sakhalin 2

Pejler G.; Backstrom G.; Lindahl U.; Paulsson M.; Dziadek M.; Fujiwara S.; Timpl R., 1987: Structure and affinity for antithrombin of heparan sulfate chains derived from basement membrane proteoglycans

Zorina Z.A.; Markina N.V.; Deryagina M.A., 1986: Structure and age peculiarities in the manipulatory activity of the hooded crow corvus cornix

Stepanov P.F.; Sapozhnikov V.G., 1980: Structure and age related changes in the micro circulation tracts of the human parathyroid gland

Kaliszan R.; Damasiewicz B.; Nasal A.; Radwanska A.; Foks H.; Kuzmierkiewicz W.; Pancechowska Ksepko D.; Rudnicka K.; Wisterowicz A.; Osmialowski K., 1985: Structure and alpha adrenergic activity of pyrazinimidazolines

Tsvetkov V.F.; Nikonov V.V., 1985: Structure and amount of needle phytomass in young pine forests of the kola peninsula russian sfsr ussr

Jacob, J.; Grimmer, G., 1968: Structure and amount of positional isomers of mono unsaturated fatty acids in human depot fat

Vlasuk G.P.; Miller J.; Bencen G.H.; Lewicki J.A., 1986: Structure and analysis of the bovine atrial natriuretic peptide precursor gene

Brock T.C.M.; Arts G.H.P.; Goossen I.L.M.; Rutenfrans A.H.M., 1983: Structure and annual biomass production of nymphoides peltata menyanthaceae

Sallam M.A.E., 1981: Structure and anomeric configuration of the 3 6 anhydro osazone derivatives obtained from d altro 2 heptulose phenyl osazone

Sallam M.A.E.; Hegazy E.I.A., 1981: Structure and anomeric configuration of the 3 6 anhydro osazone derivatives obtained from d lyxo hexulose phenyl osazone and d xylo hexulose phenyl osazone

Sallam M.A.E., 1982: Structure and anomeric configuration of the c nucleoside analogs obtained by dehydration of 7 deoxy l manno 2 heptulose phenyl osazone

Henichart J.P.; Houssin R., 1981: Structure and anti arrhythmic activity of 3 keto phosphonium salts

Relimpio, A. M., 1977: Structure and anti cholin esterase activity of series of ethyl substituted phenylmethyl phosphonates

Tomchin, A. B.; Aleksandrova, A. E.; Vinogradov, V. M., 1978: Structure and anti hypoxic action of alpha di carbonyl compounds and their derivatives

Henichart, J. P.; Lablanche, B.; Houssin, R.; Navarro, J., 1977: Structure and anti inflammatory properties of a new amino pentanoic acid

Grin' V.O.; Mazur I.A.; Shumeiko V.A.; Synyak R.S.; Steblyuk P.M., 1979: Structure and anti microbial activity of n 4 quinazolyl alpha amino carboxylic acids and their derivatives

Yamada H.; Kawaguchi N.; Ohmori T.; Takeshita Y.; Taneya S I.; Miyazaki T., 1984: Structure and anti tumor activity of an alkali soluble poly saccharide from cordyceps ophioglossoides

Biyushkin V.N.; Chumakov Yu N., 1982: Structure and anti tumor activity of pyridine aldehyde thio semi carbazone derivatives

Westermark P.; Sletten K.; Natvig J.B., 1981: Structure and antigenic behavior of kappa i immuno globulin light chain amyloid proteins

Lund B.; Lindberg F.; Normark S., 1988: Structure and antigenic properties of the tip located p pilus proteins of uropathogenic escherichia coli

Hunter S.W.; Fujiwara T.; Brennan P.J., 1982: Structure and antigenicity of the major specific glyco lipid antigen of mycobacterium leprae

Hunter S.W.; Gaylord H.; Brennan P.J., 1986: Structure and antigenicity of the phosphorylated lipopolysaccharide antigens from the leprosy and tubercle bacilli

Mcneil M.; Tsang A.Y.; Brennan P.J., 1987: Structure and antigenicity of the specific oligosaccharide hapten from the glycopeptidolipid antigen of mycobacterium avium serotype 4 the dominant mycobacterium isolated from patients with acquired immune deficiency syndrome

Andreeva I.M.; Babeshko O.M.; Bondarenko E.M.; Barchan I.A.; Lyashik O.T.; Medyantseva E.A.; Simkina Yu N., 1985: Structure and antimicrobial activity of 2 hydroxycinnamic aldehyde derivatives

Pejler G.; Danielsson A.; Bjork I.; Lindahl U.; Nader H.B.; Dietrich C.P., 1987: Structure and antithrombin binding properties of heparin isolated from the clams anomalocardia brasiliana and tivela mactroides

Ohno N.; Suzuki I.; Yadomae T., 1986: Structure and antitumor activity of a beta 1 3 glucan isolated from the culture filtrate of sclerotinia sclerotiorum ifo 9395

Killilea S.D.; O'carra P., 1985: Structure and apoprotein linkages of phycourobilin

Fritzsche H.; Cross T.A.; Opella S.J.; Kallenbach N.R., 1981: Structure and architecture of the bacterial virus fd an ir linear dichroism study

Meulemans J.T.; Roos P.J., 1985: Structure and architecture of the periphytic community on dead reed stems in lake maarsseveen the netherlands

Udeh F.N., 1982: Structure and architecture of the prostatic capsule

Laghi, G. F.; Russo, F., 1978: Structure and architecture of the valves of chiton olivaceus polyplacophora mollusca

Allen, R. D.; Baumann, P., 1971: Structure and arrangement of flagella in species of the genus beneckea and photobacterium fischeri

Huang P.L.; Roberts B.E.; Pratt D.M.; David J.R.; Miller J.S., 1984: Structure and arrangement of the beta tubulin genes of leishmania tropica

Matsuo Kato H.; Fujisawa H.; Minagawa T., 1981: Structure and assembly of bacterio phage t 3 tails

Penn E.J.; Burdett I.D.J.; Hobson C.; Magee A.I.; Rees D.A., 1987: Structure and assembly of desmosome junctions biosynthesis and turnover of the major desmosome components of madin darby canine kidney cells in low calcium medium

Penn E.J.; Hobson C.; Rees D.A.; Magee A.I., 1987: Structure and assembly of desmosome junctions biosynthesis processing and transport of the major protein and glycoprotein components in cultured epithelial cells

Marvin, D. A.; Wachtel, E. J., 1976: Structure and assembly of filamentous bacterial viruses

Wejman J.C.; Hovsepian D.; Wall J.S.; Greer J.; Hainfeld J.F., 1984: Structure and assembly of hapto globin polymers by electron microscopy

Franklin, R. M.; Hinnen, R.; Schaefer, R.; Tsukagoshi, N., 1976: Structure and assembly of lipid containing viruses with special reference to bacterio phage pm 2 as 1 type of model system

Vinuela, E.; Camacho, A.; Jimenez, F.; Carrascosa, J. L.; Ramirez, G.; Salas, M., 1976: Structure and assembly of phage phi 29

King, J.; Botstein, D.; Casjens, S.; Earnshaw, W.; Harrison, S.; Lenk, E., 1976: Structure and assembly of the capsid of bacterio phage p 22

Lewis M.J.; Mazzarella R.A.; Green M., 1986: Structure and assembly of the endoplasmic reticulum biosynthesis and intracellular sorting of erp 61 erp 59 and erp 49 three protein components of murine endoplasmic reticulum

Lewis M.J.; Turco S.J.; Green M., 1985: Structure and assembly of the endoplasmic reticulum biosynthetic sorting of endoplasmic reticulum proteins

Lewis M.J.; Mazzarella R.A.; Green M., 1985: Structure and assembly of the endoplasmic reticulum the synthesis of 3 major endoplasmic reticulum proteins during lipopolysaccharide induced differentiation of murine lymphocytes

Hogle, J. M.; Maeda, A.; Harrison, S. C., 1986: Structure and assembly of turnip crinkle virus i. x ray crystallographic structure analysis at 3.2 angstrom resolution

Sorger, P. K.; Stockley, P. G.; Harrison, S. C., 1986: Structure and assembly of turnip crinkle virus ii. mechanism of reassembly in vitro

Carrington, J. C.; Morris, T. J.; Stockley, P. G.; Harrison, S. C., 1987: Structure and assembly of turnip crinkle virus iv. analysis of the coat protein gene and implications of the subunit primary structure

Saint Girons I.; Duchange N.; Cohen G.N.; Zakin M.M., 1984: Structure and autoregulation of the met j regulatory gene in escherichia coli

Daly, R. F.; Patau, K.; Therman, E.; Sarto, G. E., 1977: Structure and barr body formation of an xp plus chromosome with 2 inactivation centers

Hore A., 1980: Structure and behavior of chromosomes as an aid to the study of phylogeny of umbelliferae with special reference to the tribe apieae ammineae and saniculeae

Jose J.; Sharma A.K., 1985: Structure and behavior of chromosomes in piper and peperomia family piperaceae

Mukherjee S.; Sharma A.K., 1987: Structure and behavior of chromosomes in the strains of cicer arietinum l

Pandey A.K., 1980: Structure and behavior of endothelium in some compositae

Dubois Dalcq M.; Rentier B.; Baron A.; Van Evercooren N.; Burge B.W., 1981: Structure and behavior of rat primary and secondary schwann cells in vitro

Srivastav S.P.; Swarup K.; Srivastav A.K., 1985: Structure and behavior of stannius corpuscles in relation to vitamin d 3 induced hypercalcemia in male clarias batrachus

Srivastav S.P.; Swarup K., 1985: Structure and behavior of the corpuscles of stannius the ultimobranchial gland and the prolactin cells in response to prolactin induced hypercalcemia in male catfish clarias batrachus

Federici B.A.; Lucarotti C.J., 1986: Structure and behavior of the meiospore of coelomomyces dodgei during encystment on the copepod host acanthocyclops vernalis

Omoto C.K.; Brokaw C.J., 1982: Structure and behavior of the sperm terminal filament

Kuligowski Andres J.; Faivre M.; Tourte Y., 1982: Structure and behavior of the spermatic nucleus during fertilization in a fern marsilea vestita effect of colchicine

Swarup K.; Srivastav S.P., 1984: Structure and behavior of ultimobranchial gland in response to vitamin d 3 induced hypercalcemia in male clarias batrachus

O'malley J.B.E.; Evans R.M., 1982: Structure and behavior of white pelican pelecanus erythrorhynchos formation flocks

Peterson T.; Falk K E.; Leong S.A.; Klein M.P.; Neilands J.B., 1980: Structure and behavior spermidine siderophores

Goldberg, I., 1977: Structure and binding in molecular complexes of cyclic poly ethers part 4 crystallographic study of a chiral system an inclusion complex of a macro cyclic ligand with phenyl glycine methyl ester

Blake, C. C. F.; Cassels, R.; Dobson, C. M.; Poulsen, F. M.; Williams, R. J. P.; Wilson, K. S., 1981: Structure and binding properties of hen lysozyme ec 3.2.1.17 modified at tryptophan 62

Feijo M.A.L.; Duarte J.H.; Mackenzie S.L.; Gorin P.A.J., 1982: Structure and bio degradation of the poly saccharide components of egg masses isolated from snails of an ampullarius species

Drochmans, P.; Freudenstein, C.; Wanson, J. C.; Laurent, L.; Keenan, T. W.; Stadler, J.; Leloup, R.; Franke, W. W., 1978: Structure and biochemical composition of desmosomes and tono filaments isolated from calf muzzle epidermis

Chaudry F.; Harvey R.; Smith A.E., 1982: Structure and biochemical functions of 4 sv 40 truncated large t antigens

Demason D.A.; Sexton R.; Gorman M.; Reid J.S.G., 1985: Structure and biochemistry of endosperm breakdown in date palm phoenix dactylifera seeds

Henderson D.; Eibl H.; Weber K., 1979: Structure and biochemistry of mouse hepatic gap junctions

Kermani-Arab, V.; Burger, D. R.; Leslie, G. A., 1976: Structure and biologic functions of human immuno globulin d part 10 enhancement of phyto hem agglutinin responsiveness by anti delta activated lymphocytes

Ruddick, J. H.; Leslie, G. A., 1977: Structure and biologic functions of human immuno globulin d part 11 identification and ontogeny of a rat lymphocyte immuno globulin having antigenic cross reactivity with human immuno globulin d

Danko S.J.; Kono Y.; Daly J.M.; Suzuki Y.; Takeuchi S.; Mccrery D.A., 1984: Structure and biological activity of a host specific toxin produced by the fungal corn pathogen phyllosticta maydis

Armentrout, R. W.; Skoog, L.; Ruthberg, L., 1971: Structure and biological activity of dna from bacillus bacterio phage phi 105 effects of escherichia coli exo nucleases

Ototani N.; Kikuchi M.; Yosizawa Z., 1982: Structure and biological activity of finback whale balaenoptera physalus heparin octa saccharide chemical carbon 13 nmr enzyme and biological studies

Paladini, A. C., 1977: Structure and biological activity of growth hormones

Cutfield J.F.; Cutfield S.M.; Dodson E.J.; Dodson G.G.; Emdin S.F.; Reynolds C.D., 1979: Structure and biological activity of hagfish myxine glutinosa insulin

Casu B., 1979: Structure and biological activity of heparin and other glycosamino glycans

Bonner T.I.; Kerby S.B.; Sutrave P.; Gunnell M.A.; Mark G.; Rapp U.R., 1985: Structure and biological activity of human homologues of the raf mil oncogene

Randall, M. H.; Altman, L. J.; Lefkowitz, R. J., 1977: Structure and biological activity of levo tritiated di hydro alprenolol a radio ligand for studies of beta adrenergic receptors

Cavalleri B.; Arnone A.; Di Modugno E.; Nasini G.; Goldstein B.P., 1988: Structure and biological activity of lipiarmycin b

Ubukata M.; Uramoto M.; Uzawa J.; Isono K., 1986: Structure and biological activity of neopeptins a b and c inhibitors of fungal cell wall glycan synthesis

Rapp U.R.; Goldsborough M.D.; Mark G.E.; Bonner T.I.; Groffen J.; Reynolds F.H.Jr; Stephenson J.R., 1983: Structure and biological activity of v raf a unique onco gene transduced by a retrovirus

Gundersen, K. R.; Corbin, J. S.; Hanson, C. L.; Hanson, M. L.; Hanson, R. B.; Russell, D. J.; Stollar, A.; Yamada, O., 1976: Structure and biological dynamics of the oligotrophic ocean photic zone off the hawaiian islands usa

Simonov, V. I.; Tseikinsky, V. M.; Kamernitsky, A. V.; Kulikova, L. E.; Levina, E. S., 1981: Structure and biological function of 16 alpha 17 alpha cyclo progesterones pregna d' pentarans

Kermani-Arab, V.; Roberts, J. L.; Leslie, G. A., 1978: Structure and biological function of human immuno globulin d part 16 thymus derived lymphocytes and bone marrow derived lymphocytes in pityriasis rosea

Kermani-Arab, V.; Leslie, G. A.; Burger, D. R., 1977: Structure and biological function of human immuno globulin d part 9 anti immuno globulin d activation of human lymphocytes

Kermani-Arab, V.; Leslie, G. A.; Burger, D. R., 1977: Structure and biological functions of human immuno globulin d part 12 anti immuno globulin d enhancement of phyto hem agglutinin responsiveness in patients with chronic lymphocytic leukemia

Leslie, G. A.; Teramura, G., 1977: Structure and biological functions of human immuno globulin d part 14 the development of a solid phase radio immunoassay for the quantitation of immuno globulin d in human sera and secretions

Lertora, J. J. L.; Gomez-Perez, F. J.; Leslie, G. A., 1975: Structure and biological functions of human immuno globulin d part 5 insulin antibodies of the immuno globulin d class in sera from some diabetic patients

Luster, M. I.; Leslie, G. A.; Bardana, E. J., 1976: Structure and biological functions of human immuno globulin d part 7 immuno globulin d anti nuclear antibodies in sera of patients with auto immune disorders

Robinson A.; Hawkins D.C., 1983: Structure and biological properties of solubilized envelope proteins of bordetella pertussis

Amano K I.; Williams J.C.; Missler S.R.; Reinhold V.N., 1987: Structure and biological relationships of coxiella burnetii lipopolysaccharides

Schuch R.; Ahmad F., 1987: Structure and biological significance of triacylglycerols containing cyclopropene acyl moieties

Barron G.L., 1983: Structure and biology of a new harposporium attacking bdelloid rotifers

Barron G.L., 1983: Structure and biology of a new tolypocladium attacking bdelloid rotifers

Lang G.E.; Reiners W.; Pike L.H., 1980: Structure and biomass dynamics of epiphytic lichen communities of balsam fir abies balsamea forests in new hampshire usa

Murphy P.G.; Lugo A.E., 1987: Structure and biomass of a subtropical dry forest in puerto rico usa

Djebrouni M.; Huon A., 1988: Structure and biomass of a typha stand revealed by multidimensional analysis

Tsybikova N.M., 1979: Structure and biometric indices of lumbar ganglia in the cat sympathetic trunk under normal conditions and under hormonal stimulation

Parisot D.; Devys M.; Barbier M., 1985: Structure and biosynthesis of 5 deoxyfusarubin and anhydro 5 deoxyfusarubin naphthoquinone pigments from nectria haematococca

Mikkelsen J.D., 1979: Structure and biosynthesis of beta di ketones in barley spike epi cuticular wax

Maes C.M.; Steyn P.S.; Vleggaar R.; Kirby G.W.; Robins D.J.; Stark W.M., 1985: Structure and biosynthesis of bipolaramide a novel dioxopiperazine from bipolaris sorokiniana

Suga T.; Shishibori T., 1980: Structure and biosynthesis of cleome prenols from the leaves of cleome spinosa

Kolattukudy, P. E.; Croteau, R.; Brown, L., 1974: Structure and biosynthesis of cuticular lipids hydroxylation of palmitic acid and decarboxylation of 28 carbon 30 carbon and 32 carbon acids in vicia faba flowers

Yin H.L.; Kwiatkowski D.J.; Mole J.E.; Cole F.S., 1984: Structure and biosynthesis of cytoplasmic and secreted variants of gelsolin

O'leary M.A.; Hanson J.R.; Yeoh B.L., 1984: Structure and biosynthesis of hinnuli quinone a pigment from nodulisporium hinnuleum

Dobberstein B.; Kvist S.; Roberts L., 1982: Structure and biosynthesis of histo compatibility antigens h 2 hla

Tung J S.; Shen F W.; Deere M.C.; Boyse E.A., 1984: Structure and biosynthesis of lyt 1

Suga T.; Shishibori T.; Nakaya K., 1980: Structure and biosynthesis of malloprenols from mallotus japonicus

Devys M.; Ferezou J P.; Topgi R.S.; Barbier M.; Bousquet J F.; Kollmann A., 1984: Structure and biosynthesis of phomenoic acid an antifungal compound isolated from phoma lingam

Sundar Raj C.V.; Freeman I.L., 1982: Structure and biosynthesis of rabbit lens capsule collagen

Kakinuma, K.; Imamura, N.; Ikekawa, N.; Tanaka, H.; Minami, S.; Omura, S., 1980: Structure and biosynthesis of setomimycin a novel 9 9' bi anthryl antibiotic

Rohr, T.; Troy, F. A., 1980: Structure and biosynthesis of surface polymers containing poly sialic acid in escherichia coli

Fiedler F.; Steber J., 1984: Structure and biosynthesis of teichoic acids in the cell walls of staphylococcus xylosus dsm 20266

Grienenberger, J. M.; Simon, D., 1975: Structure and biosynthesis of the rna from the oncogenic bacterium agrobacterium tumefaciens

Van Brederode J.; Kamps Heinsbroek R., 1981: Structure and biosynthesis of vitexin 2 o xyloside in silene alba

Golubev V.P.; Kozel'tsev V.L.; Silaeva S.A., 1980: Structure and biosynthetic functions of rat liver mitochondrial fractions

Gienapp, E.; Schroeder, K. L., 1975: Structure and bitter taste in the hulupone series

Huber, L.; Klostermeyer, H., 1977: Structure and bitter taste of synthetic phenyl alanine derivatives and peptides

Stasinska, A., 1976: Structure and blastogeny of palaeofavosipora clausa new genus new name new combination tabulata silurian

Zdebska E.; Krauze R.; Koscielak J., 1983: Structure and blood group i activity of poly glycosyl ceramides

Sokolov, V. V., 1978: Structure and blood supply of cardiac valves in some domestic and wild birds

Tsipis C.A.; Bakalbassis E.G.; Papageorgiou V.P.; Bakola Christianopoulou M.N., 1982: Structure and bonding of mononuclear and homo binuclear chelates of some divalent metal ions with the ligand 1 8 di hydroxy anthra quinone

Vijayaraghavan M.R.; Jain A., 1985: Structure and breakdown of protein bodies in cotyledonary cells during seed germination in lens culinaris

Scheffler, A.; Schneider, U.; Brumm, P., 1978: Structure and calculation of irradiation time tables for cobalt 60 irradiation devices

Reifel, C. W.; Travill, A. A., 1977: Structure and carbohydrate histochemistry of the esophagus in 10 teleostean species

Reifel C.W.; Travill A.A., 1979: Structure and carbohydrate histochemistry of the intestine in 10 teleostean species

Mori, T., 1978: Structure and carbohydrate histochemistry of the major salivary glands of the cow

Onouchi, T., 1977: Structure and carbohydrate histochemistry of the major salivary glands of the rabbit

Imai M.; Shibata T.; Higashi N., 1982: Structure and carbohydrate histochemistry of the minor salivary glands of the japanese macaque macaca fuscata yakui

Reifel, C. W.; Travill, A. A., 1978: Structure and carbohydrate histochemistry of the stomach in 8 species of teleosts

Higuchi, K., 1977: Structure and carbohydrate histochemistry on the major salivary glands of the horse

Kamiya, N., 1977: Structure and carbohydrate histochemistry on the major salivary glands of the pig

Steyn P.S.; Vleggaar R.; Wessels P.L.; Cole R.J.; Scott D.B., 1979: Structure and carbon 13 nmr assignments of versiconal acetate versiconol acetate and versiconol metabolites from cultures of aspergillus parasiticus treated with dichlorvos

Huneck, S.; Hoefle, G., 1978: Structure and carbon 13 nmr spectroscopy of chlorine containing lichen xanthones

Shashkov A.S.; L'vov V.L.; Tokhtamysheva N.V.; Dmitriev B.A.; Kochetkov N.K., 1981: Structure and carbon 13 nmr spectrum of shigella boydii type 4 specific poly saccharide

Kurfuerst M.; Ghisla S.; Presswood R.; Hastings J.W., 1982: Structure and catalytic inactivity of the bacterial beneckea harveyi luciferase neutral flavin radical

Ator M.A.; David S.K.; Ortiz De Montellano P.R., 1987: Structure and catalytic mechanism of horseradish peroxidase regiospecific meso alkylation of the prosthetic heme group by alkylhydrazines

Lamprecht J., 1986: Structure and causation of the dominance hierarchy in a flock of bar headed geese anser indicus

Ferris F.G.; Beveridge T.J.; Marceau Day M.L.; Larson A.D., 1984: Structure and cell envelope associations of flagellar basal complexes of vibrio cholerae and campylobacter fetus

D'onofrio, C.; Colantuoni, V.; Cortese, R., 1985: Structure and cell specific expression of a cloned human retinol binding protein gene the 5' flanking region contains hepatoma specific transcriptional signals

Anikeeva L.A.; Fursov O.V.; Idgeev B.K.; Darkanbaev T.B., 1982: Structure and certain properties of starch granules of wheat grain

Yosii, R., 1976: Structure and chaetotaxy of labrum as the taxonomic character of collembola

Kooiman M.; Linhart Y.B., 1986: Structure and change in herbaceous communities of four ecosystems in the front range colorado usa

Fekete A.; Peter A.; Foldvari I., 1979: Structure and changes in the vacuum uv spectra of dna thin films

Clemen, G., 1978: Structure and changes of the dental laminae in the palate of the larval salamandra salamandra before and during metamorphosis salamandridae amphibia/

Non B.M.; Fauquet A., 1983: Structure and characteristics of scales in mullus barbatus and mullus surmuletus studied by scanning electron microscopy

Nikolaeva S.S.; Khoroshkov Yu A.; Dubinskaya V.A., 1981: Structure and characteristics of the tendon collagen complex during disintegration of the basal substance of connective tissue

Merritt C.M.; Board P.G., 1988: Structure and characterization of a duplicated human alpha 1 acid glycoprotein gene

Pereira, H., 1988: Structure and chemical composition of cork from calotropis procera ait. r. br

Linck R.W.; Langevin G.L., 1982: Structure and chemical composition of insoluble filamentous components of sperm flagellar micro tubules

Darling, S.; Theilade, J.; Birch-Andersen, A., 1972: Structure and chemical composition of pro spheroplast envelopes of saccharomyces cerevisiae and hansenula anomala

Leela Vallabhan D., 1982: Structure and chemical composition of the cuticle of cirolana fluviatilis sphaeroma walkeri and sphaeroma terebrans

Ouazana R., 1982: Structure and chemical composition of the cuticular integument of the nematodes

Grozeva M.; Dimitrov E.P.; Dzhorgov I., 1986: Structure and chemical composition of the spruce stands biomass from the rila dagh range bulgaria

Dolinskii A.S.; Makar I.A., 1979: Structure and chemical composition of the wool cortex of fine wooled sheep

Hori, K.; Cormier, M. J., 1973: Structure and chemical synthesis of a biologically active form of renilla sea pansy luciferin

Tobe H.; Morishima H.; Naganawa H.; Takita T.; Aoyagi T.; Umezawa H., 1979: Structure and chemical synthesis of amastatin

Lee S.L.; Veis A., 1980: Structure and chemistry of dentin collagen phosphophoryn covalent complexes

Mccorkindale N.J.; Calzadilla C.H.; Hutchinson S.A.; Kitson D.H.; Ferguson G.; Campbell I.M., 1981: Structure and chemistry of pebrolide deacetyl pebrolide and 1 deoxy pebrolide sesqui terpene benzoates from penicillium brevicompactum

Mahe C.; Patin H.; Van Hulle M T.; Barton D.H.R., 1981: Structure and chemistry of pi allyl palladium complexes from steroids

Duxbury, T.; Gray, T. R. G.; Sharples, G. P., 1977: Structure and chemistry of walls of rods cocci and cystites of arthrobacter globiformis

Bakana P.; Claeys M.; Totte J.; Pieters L.A.C.; Van Hoof L.; Tamba Vemba; Van Den Berghe D.A.; Vlietinck A.J., 1987: Structure and chemotherapeutical activity of a polyisoprenylated benzophenone from the stem bark of garcinia huillensis

Lee J.S.; Verma D.P.S., 1984: Structure and chromosomal arrangement of leghemoglobin genes in kidney bean phaseolus vulgaris suggest divergence in soybean glycine max leghemoglobin gene loci following tetraploidization

Nedwin G.E.; Jarrett Nedwin J.; Smith D.H.; Naylor S.L.; Sakaguchi A.Y.; Goeddel D.V.; Gray P.W., 1985: Structure and chromosomal localization of the human lymphotoxin gene

Evans B.A.; Yun Z.X.; Close J.A.; Tregear G.W.; Kitamura N.; Nakanishi S.; Callen D.F.; Baker E.; Et Al, 1988: Structure and chromosomal localization of the human renal kallikrein gene

Diaz F.; Fernandez J.A.; Jouve N., 1986: Structure and chromosomal location of malate dehydrogenase zone 2 isozymes in common and durum wheats

Meyer, W. W.; Rumpelt, H. J.; Yao, A. C.; Lind, J., 1978: Structure and closure mechanism of the human umbilical artery

Picard J., 1986: Structure and clustering of multivariate evolutive curves methods

Cox E.C.; Horner D.L., 1983: Structure and coding properties of a dominant escherichia coli mutator gene mut d

Pankhurst N.W.; Lythgoe J.N., 1982: Structure and color of the integument of the european eel anguilla anguilla

Geraudie J.; Meunier F.J., 1984: Structure and comparative morphology of camptotrichia of lungfish fins

Carroll S.L.; Bergsma D.J.; Schwartz R.J., 1986: Structure and complete nucleotide sequence of the chicken alpha smooth muscle aortic actin gene an actin gene which produces multiple messenger rna species

Suminami Y.; Kishi F.; Torigoe T.; Nakazawa A., 1988: Structure and complete nucleotide sequence of the gene encoding chicken cytosolic adenylate kinase

Coussens, P. M.; Velicer, L. F., 1988: Structure and complete nucleotide sequence of the marek's disease herpesvirus gp57 65 gene

Ostrovskaya L.K.; Gamayunova M.S.; Silaeva A.M.; Grigora M.Yu; Manuil'skaya S.V., 1979: Structure and composition differences between grana thylakoids and intergrana thylakoids

Held, M. E.; Winstead, J. E., 1976: Structure and composition of a climax forest system in boone county kentucky usa

Cameron, M. R-Iii ; Winstead, J. E., 1978: Structure and composition of a climax mixed mesophytic forest system in laurel county kentucky usa

Sidiyasa K.; Sutomo S.; Prawira R.S.A., 1985: Structure and composition of a lowland dipterocarp forest at leuweung sancang nature reserve west java indonesia

Hickey D.R.; Younker J.L., 1981: Structure and composition of a pennsylvanian benthic community

Zak J.C.; Wicklow D.T., 1980: Structure and composition of a post fire ascomycete community role of abiotic and biotic factors

Schaffner G.; Matile P., 1981: Structure and composition of bakers yeast saccharomyces cerevisiae lipid globules

Lomov S.P.; Sosin P.M.; Sosnovskaya V.P., 1982: Structure and composition of buried soils in the tadzhik ssr ussr

Alvisi V.; Pazzi P.; Massari M.; D'ambrosi A., 1986: Structure and composition of cholesterol gallstones not responding to udca therapy

Sokolov, V. V.; Gorizontova, M. N.; Chulina, N. A., 1970: Structure and composition of chromosomes of human bone marrow cells under the influence of some physical and chemical factors

Mann S.; Bannister J.V.; Williams R.J.P., 1986: Structure and composition of ferritin cores isolated from human spleen limpet patella vulgata hemolymph and bacterial pseudomonas aeruginosa cells

Boerner R.E.J.; Cho D S., 1987: Structure and composition of goll woods an old growth forest remnant in northwestern ohio usa

Manocha, M. S.; Letourneau, D. R., 1978: Structure and composition of host parasite interface in a myco parasite system

Goodloe R.S.; Light R.J., 1982: Structure and composition of hydro carbons and fatty acids from a marine blue green alga synechococcus sp

Cusack S.; Ruigrok R.W.H.; Krysgsman P.C.J.; Mellema J.E., 1985: Structure and composition of influenza virus a small angle neutron scattering study

Frappart L.; Boudeulle M.; Boumendil J.; Lin H.C.; Martinon I.; Palayer C.; Mallet Guy Y.; Raudrant D.; Bremond A.; Rochet Y.; Feroldi J., 1984: Structure and composition of microcalcifications in benign and malignant lesions of the breast study by light microscopy transmission electron microscopy scanning electron microscopy microprobe analysis and x ray diffraction

Walter W.M.Jr; Schadel W.E., 1983: Structure and composition of normal skin periderm and wound tissue from cured sweet potatoes

Morales Nin B.Y.O., 1986: Structure and composition of otoliths of cape hake merluccius capensis

Pearlmutter N.L.; Lembi C.A., 1980: Structure and composition of pithophora oedogonia chlorophyta cell walls

Cameron Mills V., 1980: Structure and composition of protein bodies purified from barley hordeum vulgare endosperm by silica sol density gradients

Sugita, M.; Dulaney, J. T.; Moser, H. W., 1974: Structure and composition of sulfatides isolated from livers of patients with meta chromatic leuko dystrophy galactosyl sulfatide and lactosyl sulfatide

Heyting C.; Dietrich A.J.J.; Redeker E.J.W.; Vink A.C.G., 1985: Structure and composition of synaptonemal complexes isolated from rat spermatocytes

Brown, D. T.; Westphal, M.; Burlingham, B. T.; Winterhoff, U.; Doerfler, W., 1975: Structure and composition of the adenovirus type 2 core

Bottom C.B.; Siehr D.J., 1980: Structure and composition of the alkali insoluble cell wall fraction of coprinus macrorhizus var microsporus

Siegel V., 1986: Structure and composition of the antarctic krill stock in the bransfield strait antarctic peninsula during the second international biomass experiment sibex

Dikov M.M.; Osipov M.M.; Egorov A.M.; Berezin I.V.; Mustafaev M.I.; Kabanov V.A., 1984: Structure and composition of the complexes of synthetic water soluble polyelectrolytes with formate dehydrogenase and alcohol dehydrogenase

Sloboda, R. D.; Dickersin, K., 1980: Structure and composition of the cytoskeleton of nucleated erythrocytes 1. the presence of micro tubule associated protein 2 in the marginal band

Centonze, V. E.; Ruben, G. C.; Sloboda, R. D., 1985: Structure and composition of the cytoskeleton of nucleated erythrocytes ii. immunogold labeled microtubules and crossbridges in platinum carbon replicas of the marginal band of bufo marinus erythrocyte cytoskeletons

Centonze, V. E.; Ruben, G. C.; Sloboda, R. D., 1986: Structure and composition of the cytoskeleton of nucleated erythrocytes iii. organization of the cytoskeleton of bufo marinus erythrocytes as revealed by freeze dried platinum carbon replicas and immunofluorescence microscopy

Roca P.; Sainz F.; Gonzalez M.; Alemany M., 1984: Structure and composition of the eggs from several avian species

Cotelli F.; Andronico F.; Brivio M.; Lamia C.L., 1988: Structure and composition of the fish egg chorion carassius auratus

Heegaard S.; Jensen O.A.; Prause J.U., 1986: Structure and composition of the inner limiting membrane of the retina scanning electron microscopy on frozen resin cracked and enzyme digested retinas of macaca mulatta

Huffman J.E., 1986: Structure and composition of the metacercarial cyst wall of sphaeridiotrema globulus trematoda

Groome, N. P.; Belyavin, G.; Lansdell, A.; Ashford, D., 1977: Structure and composition of the n 2 neuraminidase ec 3.2.1.18 of influenza virus effect of carbohydrate content on the validity of molecular weight estimations

Sacarrao, G. F.; Soares, A. A., 1976: Structure and composition of the nest of cyanopica cyanus aves corvidae preliminary comparative study

Schroeder H.E.; Doerig Schwarzenbach A., 1982: Structure and composition of the oral mucous membrane on the lips and cheeks of the monkey macaca fascicularis

Schwarz H.P., 1985: Structure and composition of thylakoid membranes from chlorophyll deficient mutants of pea pisum sativum

Mcbride J.R.; Froehlich D., 1984: Structure and condition of older stands in parks and open space areas of san francisco california usa

Gyul'khandanyan M.Z.; Manukyan K.G., 1986: Structure and conductance of contact zone of two artificial lipid proteolipid membranes

Nurmatova M.P.; Zainutdinov U.N.; Kamaev F.G.; Aslanov Kh A., 1979: Structure and configuration of a new di terpenoid lactone of lagochilus hirsutissimus

Hesbain Frisque A M.; Van Schaftingen E.; Hers H G., 1981: Structure and configuration of fructose 2 6 bis phosphate by phosphorus 31 nmr and carbon 13 nmr

Samikov K.; Shakirov R.; Yunusov S.Yu, 1982: Structure and configuration of stenanzine

Khasanov T.Kh; Malikov V.M.; Melibaev S., 1979: Structure and configuration of tavimolidin

Verma K.S.; Sood G.R.; Gupta S.R.; Gujral V.K., 1979: Structure and configuration of tecoside a new iridoid glucoside from tecomella undulata

Davini E.; Iavarone C.; Trogolo C.; Esposito P., 1981: Structure and configuration of unedide an iridoid glucoside from arbutus unedo

Lambrecht, G., 1978: Structure and conformation activity correlations of hetero cyclic acetyl choline analogs part 5 on the stereochemistry of cis 4 acetoxy 1 methylthionia cyclo hexane and trans 4 acetoxy 1 methylthionia cyclo hexane

Lambrecht, G., 1977: Structure and conformation activity relations of hetero cyclic acetyl choline analogs part 3 the stereochemistry of cis 3 and trans 3 acetoxy 1 methyl thionium cyclo hexane

Lambrecht, G., 1982: Structure and conformation activity relationships of hetero cyclic acetyl choline analogs 14. acetyl cholin esterase ec 3.1.1.7 and base catalyzed hydrolysis of enantiomeric 3 acetoxy quinuclidines

Lambrecht, G., 1976: Structure and conformation activity relationships of hetero cyclic acetyl choline analogs part 1 muscarinic activity of 3 acetoxy quinuclidine and 3 acetoxy piperidine enantiomers

Lambrecht, G., 1977: Structure and conformation activity relationships of hetero cyclic acetyl choline analogs part 2 cholinergic activity of 3 acetoxythia cyclo hexane isomers

Lipkowitz K.B.; Rabideau P.W.; Raber D.J.; Hardee L.E.; Schleyer P.V.R.; Kos A.J.; Kahn R.A., 1982: Structure and conformation of 1 4 di hydro benzene 1 4 di hydro naphthalene and 9 10 di hydro anthracene a theoretical study

Srikrishnan T.; Parthasarathy R.; Alderfer J.L.; Dutta S.P.; Chheda G.B., 1988: Structure and conformation of 1 beta d ribofuranosylpyridin 4 one 3 carboxamide a novel nucleoside from human urine with a rare ribose pucker

Williamson M.P.; Gauvreau D.; Williams D.H.; Waring M.J., 1982: Structure and conformation of 14 antibiotics of the quinoxaline group determined by proton nmr

Tringali C.; Oriente G.; Nicolosi G.; Piattelli M., 1984: Structure and conformation of 2 new dolabellane based diterpenes from dictyota sp

Birnbaum, G. I.; Budesinsky, M.; Beranek, J., 1987: Structure and conformation of 2' 5' anhydroarabinosylcytosine x ray proton nmr and carbon 13 nmr and analyses

Birnbaum, G. I.; Giziewicz, J.; Gabe, E. J.; Lin, T. S.; Prusoff, W. H., 1987: Structure and conformation of 3' azido 3' deoxythymidine azt an inhibitor of the hiv aids virus

Quail, J. W.; Ekiel, I.; El-Kabbani, O. A. L.; Tourigny, G.; Delbaere, L. T. J.; Stuart, A. L.; Gupta, S. V., 1986: Structure and conformation of 5 methoxymethyl 1 2' deoxy beta d lyxofuranosyluracil

Birnbaum G.I.; Gentry G.A., 1983: Structure and conformation of 5 methylarabinosyl cytosine a potential antiviral nucleoside

Birnbaum, G. I.; Budesinsky, M.; Beranek, J., 1988: Structure and conformation of 5' chloro 5' deoxyarabinosylcytosine x ray proton and carbon 13 nmr analyses

Birnbaum G.I.; Cygler M.; Ekiel I.; Shugar D., 1982: Structure and conformation of 8 bromo 9 beta d xylofuranosyl adenine in the solid state and in solution

Chen, C. S.; Parthasarathy, R., 1977: Structure and conformation of amino acids containing sulfur part 5 n formyl l methionine

Kuenzle, C. C.; Weibel, M. H.; Pelloni, R. R.; Hemmerich, P., 1973: Structure and conformation of bilirubin opposing views that invoke tautomeric equilibria hydrogen bonding and a betaine may be reconciled by a single resonance hybrid

Druyan, M. E.; Coulter, C. L.; Walter, R.; Kartha, G.; Ambady, G. K., 1976: Structure and conformation of cyclo tri l prolyl in the crystalline state

Raber D.J.; Hardee L.E.; Rabideau P.W.; Lipkowitz K.B., 1982: Structure and conformation of di hydro aromatic compounds 1 alkyl 1 4 di hydro benzenes 1 alkyl 1 4 di hydro naphthalenes and 9 alkyl 9 10 di hydro anthracenes

Barna J.C.J.; Williams D.H.; Strazzolini P.; Malabarba A.; Leung T W.C., 1984: Structure and conformation of epimers derived from the antibiotic teicoplanin

Haruna M.; Sakakibara Y.; Ito K., 1986: Structure and conformation of eupafortunin a new germacrane type sesquiterpene lactone from eupatorium fortunei turcz

Arora S.K.; Kook A.M., 1987: Structure and conformation of halomycin b in solid state and solution

Guy O.; Lombardo D.; Brahms J.G., 1981: Structure and conformation of human pancreatic carboxyl ester hydrolase

Birnbaum, G. I., 1977: Structure and conformation of hydroxy lubimin a sesqui terpenoid phyto alexin

Subramanian, E.; Lalitha, V.; Bordner, J., 1984: Structure and conformation of linear peptides 1. structure of l tyrosyl l tyrosine

Lalitha, V.; Subramanian, E.; Bordner, J., 1984: Structure and conformation of linear peptides 2. structure of glycylglycyl l isoleucine

Lalitha, V.; Subramanian, E.; Bordner, J., 1984: Structure and conformation of linear peptides 3. structure of glycylglycyl l valine

Murali, R.; Subramanian, E., 1987: Structure and conformation of linear peptides ix. structure of l tyrosyl l phenylalanine

Lalitha, V.; Subramanian, E.; Parthasarathy, R., 1986: Structure and conformation of linear peptides v. structure of l prolylglycylglycine

Murali, R.; Lalitha, V.; Subramanian, E.; Parthasarathy, R., 1986: Structure and conformation of linear peptides vi. structure of dl alanyl dl norvaline

Lalitha, V.; Murali, R.; Subramanian, E., 1986: Structure and conformation of linear peptides vii. structure of l valyl glycyl glycine

Murali, R.; Subramanian, E.; Parthasarathy, R., 1986: Structure and conformation of linear peptides viii. structure of tert butyloxycarbonyl glycyl l phenylalanine

Murali, R.; Subramanian, E., 1987: Structure and conformation of linear peptides x. structure of glycylglycyl l phenylalanine hydrochloride

Subramanian, E.; Parthasarathy, R., 1987: Structure and conformation of linear peptides xi. structure of glycyl l leucyl l tyrosine

Fronza G.; Fuganti C.; Grasselli P., 1982: Structure and conformation of n benzoyl derivatives of the biologically important 3 amino 2 3 6 trideoxy l hexoses and their synthetic precursor gamma lactones and delta lactones a proton nmr and carbon 13 nmr study

Tringali C.; Piattelli M.; Nicolosi G., 1984: Structure and conformation of new di terpenes based on the dolabellane skeleton from a dictyota species

Benedetti E.; Di Blasio B.; Pavone V.; Pedone C.; Germain G.; Goodman M., 1979: Structure and conformation of peptides n benzyloxycarbonyl gamma ethyl l glutamyl gamma ethyl l glutamic acid ethyl ester

Lipnick R.L.; Fissekis J.D.; O'brien J.P., 1981: Structure and conformation of pseudo uridine analogs

Ekiel, I.; Darzynkiewicz, E.; Birnbaum, G. I.; Shugar, D., 1979: Structure and conformation of pyrimidine lyxo furanosides 1 beta d lyxofuranosyl uracil 1 beta d lyxofuranosyl cytosine and some o' methyl derivatives

Springer J.P.; Cole R.J.; Dorner J.W.; Cox R.H.; Richard J.L.; Barnes C.L.; Van Der Helm D., 1984: Structure and conformation of roseo toxin b

Lown J.W.; Hanstock C.C.; Joshua A.V.; Arai T.; Takahashi K., 1983: Structure and conformation of saframycin r determined by high field proton and carbon 13 nmr and its interactions with dna in solution

Birnbaum G.I.; Blonski W.J.P.; Hruska F.E., 1983: Structure and conformation of the anti codon nucleoside 5 methoxy uridine in the solid state and in solution

Birnbaum, G. I.; Cygler, M.; Watanabe, K. A.; Fox, J. J., 1982: Structure and conformation of the anti viral nucleoside 2' fluoro 5 iodo arabinosyl cytosine the gauche effect in nucleosides

El-Kabbani, O. A. L.; Ekiel, I.; Delbaere, L. T. J.; Tourigny, G.; Stuart, A. L.; Gupta, S. V., 1986: Structure and conformation of the antiviral agent 5 methoxymethyl 2' deoxyuridine

Lee, M.; Huss, S.; Gosselin, G.; Imbach, J. L.; Hartley, J. A.; Lown, J. W., 1987: Structure and conformation of the branch core triribonucleotide containing 2' 5' and 3' 5' phosphodiester linkages in solution essential for yeast messenger rna splicing deduced from proton nmr

Debart, F.; Rayner, B.; Imbach, J. L.; Lee, M.; Chang, D. K.; Pon, R. T.; Lown, J. W., 1987: Structure and conformation of the duplex consensus 5' splice site d cpapgpgptpapapgpt apcptptpapcpcptpg deduced from high field proton nmr of the non exchangeable and imino protons

Debart F.; Rayner B.; Imbach J L.; Chang D K.; Lown J.W., 1986: Structure and conformation of the duplex consensus acceptor exon intron junction d cptpapcpapgpgpt apcpcptpgptpapg deduced from high field proton nmr of non exchangeable and imino protons

Birnbaum G.I.; Watanabe K.A.; Fox J.J., 1980: Structure and conformation of the hydro chloride of pseudo iso cytidine an anti leukemic c nucleoside

Esteban Calderon C.; Martinez Ripoll M.; Garcia Blanco S.; Temprano F.; Gonzalo Rodriguez J., 1986: Structure and conformation of the n beta propionic acids of cyclohexan b indole and cyclooctan b indole

Birnbaum G.I.; Cygler M.; Kusmierek J.T.; Shugar D., 1981: Structure and conformation of the potent anti herpes agent 9 2 hydroxyethoxymethyl guanine acyclo guanosine

Hossain M.B.; Jalal M.A.F.; Benson B.A.; Barnes C.L.; Van Der Helm D., 1987: Structure and conformation of two coprogen type siderophores neocoprogen i and neocoprogen ii

Andrews, P. R.; Gulbis, J. M.; Iskander, M. N.; Mackay, M. F., 1987: Structure and conformations of gaba transaminase inhibitors iii. synthesis and crystal structure of a novel tetracyclic benzoxazaborinone

Andrews, P. R.; Cody, V.; Iskander, M. N.; Jeffrey, A. I.; Mackay, M. F.; Oliver, P. J.; Sadek, M., 1986: Structure and conformations of gamma aminobutyric acid transaminase inhibitors i. multisubstrate analogues

Andrews, P. R.; Cody, V.; Gulbis, J. M.; Iskander, M. N.; Jeffrey, A. I.; Mackay, M. F.; Di-Paola, C.; Sadek, M., 1986: Structure and conformations of gamma aminobutyric acid transaminase inhibitors ii. transition state analogues

Tabbert E.; Bollmann R.; Schmidt K P., 1987: Structure and construction of a 3 dimensional irradiation planning system for the microcomputer k 1630

Edelstein W.; Keller M.; Wahlen K., 1984: Structure and content in social cognition conceptual and empirical analyses

Deiker, T.; Chambers, H. E., 1978: Structure and content of hallucinations in alcohol withdrawal and functional psychosis

Fuller, G. M.; Brinkley, B. R., 1976: Structure and control of assembly of cytoplasmic micro tubules in normal and transformed cells

Vencl, F.; Soucek, B., 1976: Structure and control of duet singing in the white crested laughing thrush garrulax leucolophus

Evans, P. R.; Hudson, P. J., 1979: Structure and control of phospho fructo kinase ec 2.7.1.11 from bacillus stearothermophilus

Hamilton H.G.H.; Brakel W.H., 1984: Structure and coral fauna of east african reefs

Nemtsov A.V., 1979: Structure and correlation of fast and slow background impulse activity of visual cortex neurons

Okada Y., 1982: Structure and cuticle formation of the reticulated carapace of the ostracod bicornucythere bisanensis

Marte, M.; Caporali, L., 1976: Structure and cytochemistry of the haustorial apparatus of plasmopara helianthi

Lakshmi V.K.; Shivanna K.R., 1985: Structure and cytochemistry of the pistil in arachis hypogaea

Malti K.R.S., 1984: Structure and cytochemistry of the pistil of crotalaria retusa

Berggren B., 1987: Structure and cytochemistry of the procambium in salix buds during dormancy and dormancy breaking

Palmer J.M.; Coyle F.A.; Harrison F.W., 1982: Structure and cytochemistry of the silk glands of the mygalomorph spider antrodiaetus unicolor araneae antrodiaetidae

Ghosh S.; Shivanna K.R., 1984: Structure and cytochemistry of the stigma and pollen pistil interaction in zephyranthes

Harder D.E.; Chong J.; Rohringer R.; Kim W.K., 1986: Structure and cytochemistry of the walls of uredospores germ tubes and appressoria of puccinia graminis tritici

Frances R., 1983: Structure and determinants of job satisfaction in managers

Phipps M., 1984: Structure and development in agricultural landscape

Stal L.J.; Van Gemerden H.; Krumbein W.E., 1985: Structure and development of a benthic marine microbial mat

Fjell I., 1987: Structure and development of adventitious roots in salix caprea and salix caprea x salix viminalis

Sanes, J. R.; Hildebrand, J. G., 1976: Structure and development of antennae in a moth manduca sexta

Rohde K.; Georgi M., 1983: Structure and development of austramphilina elongata cestodaria amphilinidea

Bezerra, J. L.; Kimbrough, J. W., 1976: Structure and development of cleistoiodophanus conglutinatus new genus new species ascobolaceae

Wilder, G. J., 1981: Structure and development of cyclanthus bipartitus cyclanthaceae with reference to other cyclanthaceae 1. rhizome inflorescence root and symmetry

Wilder, G. J., 1981: Structure and development of cyclanthus bipartitus cyclanthaceae with reference to other cyclanthaceae 2. adult leaf

Thanki Y.J.; Kothari I.L., 1980: Structure and development of endocarpic stomata in the fruit of momordica dioica

Dathan A.S.R.; Singh D., 1979: Structure and development of female gametophyte and seed in hydnocarpus laurifolia

Hopping, M. E., 1976: Structure and development of fruit and seeds in chinese gooseberry actinidia chinensis

Chapela, I. H.; Boddy, L.; Rayner, A. D. M., 1988: Structure and development of fungal communities in beech logs four and a half years after felling

Singh, V.; Jain, D. K., 1976: Structure and development of hairs in tinantia fugax commelinaceae

Agarwal K.C.; Sharma R.K., 1987: Structure and development of haustorium of striga lutea lour

Meyer R.J.; Fuller M.S., 1985: Structure and development of hyphal septa in allomyces

Teraguchi, S.; Teraguchi, M.; Upchurch, R., 1977: Structure and development of insect communities in an ohio usa old field

Ghiradella H., 1985: Structure and development of iridescent lepidopteran scales the papilionidae as a showcase family

Wilder, G. J., 1976: Structure and development of leaves in carludovica palmata cyclanthaceae with reference to other cyclanthaceae and palmae

Kimbrough J.W.; Thorne B.L., 1982: Structure and development of mattirolella crustosa termitariales deuteromycetes on panamanian termites

Dixon R.A.; Hultsch D.F., 1983: Structure and development of meta memory in adulthood

Sokolova, E. A.; Tikhomirov, A. N.; Semenova, G. S.; Semenova, T. I., 1978: Structure and development of micro circulatory bed of pleural villi in man and animals

Thompson W.; Rayner A.D.M., 1982: Structure and development of mycelial cord systems of phanerochaete laevis in soil

Jennings L.; Watkinson S.C., 1982: Structure and development of mycelial strands in serpula lacrimans

Lopresti, V.; Macagno, E. R.; Levinthal, C., 1973: Structure and development of neuronal connections in isogenic organisms cellular interactions in the development of the optic lamina of daphnia

Lopresti, V.; Macagno, E. R.; Levinthal, C., 1974: Structure and development of neuronal connections in isogenic organisms transient gap junctions between growing optic axons and lamina neuro blasts

Macagno, E. R.; Lopresti, V.; Levinthal, C., 1973: Structure and development of neuronal connections in isogenic organisms variations and similarities in the optic system of daphnia magna

Rao N.V.; Inamdar J.A., 1981: Structure and development of normal and abnormal stomata in the seedlings of some cruciferae

Ojeda J.L.; Garcia Porrero J.A., 1982: Structure and development of parietal podocytes in renal glomerular cysts induced in rabbits with methyl prednisolone acetate

Finer J.J.; Smith R.H., 1983: Structure and development of plastids in epidermal cells of african violet saintpaulia ionantha cultivar marge winters in culture

De Vecchi L., 1982: Structure and development of plastids in hypsophylls of euphorbia pulcherrima and bougainvillea sp

Shah G.L.; Rangayya S.; Kothari I.L., 1983: Structure and development of pod of calliandra tweedii

Terekhin E.S.; Serafimovich N.B., 1984: Structure and development of rhynchocorys orientalis scrophulariaceae seeds

Narang, A. K.; Chandra, N., 1977: Structure and development of seed coat in crotalaria and tephrosia species

Singh, D.; Dathan, A. S. R., 1976: Structure and development of seed coat in cucurbitaceae part 10 seeds of trichosanthes

Lamba, L. C., 1975: Structure and development of seed in brassica nigra

Gupta V.; Lamba L.C., 1985: Structure and development of seed in eschscholzia californica

Khan, A. M., 1975: Structure and development of seed in talinum patens

Khan P.S.H.; Singh R.P., 1986: Structure and development of seeds of wrightia species apocynaceae

Evert, R. F.; Bornman, C. H.; Butler, V.; Gilliland, M. G., 1973: Structure and development of sieve areas in leaf veins of welwitschia

Neuberger, D. S.; Evert, R. F., 1975: Structure and development of sieve areas in the hypocotyl of pinus resinosa

Neuberger, D. S.; Evert, R. F., 1976: Structure and development of sieve cells in the primary phloem of pinus resinosa

Kruatrachue, M.; Evert, R. F., 1978: Structure and development of sieve elements in the root of isoetes muricata

Thanki Y.J.; Kothari I.L., 1979: Structure and development of spine in momordica dioica

Siddiqui S.A.; Ahmad R.; Masood R., 1980: Structure and development of stomata and trichomes on the leaves of some moraceae

Paliwal, G. S.; Gupta, B. P.; Malasi, C. B., 1980: Structure and development of stomata in centrospermae 1. amaranthaceae and nyctaginaceae

Inamdar J.A.; Bhatt D.C.; Chaudhari G.S., 1983: Structure and development of stomata in some acanthaceae

Bhatt, D. C.; Inamdar, J. A., 1975: Structure and development of stomata in some scrophulariaceae

Bhatt D.C.; Avita S.; Inamdar J.A., 1979: Structure and development of stomata in some verbenaceae

Dave, Y.; Kuriachen, P. M., 1987: Structure and development of stomata on the fruit wall of calotropis procera ait. r. br

Cassier P.; Claret J.; Porcheron P., 1979: Structure and development of the abdominal integument of the pupa of pieris brassicae role of the prothoracic gland and ecdysterone

Kronestedt E., 1982: Structure and development of the air pores in ricciocarpus natans

Lodkina M.M., 1982: Structure and development of the androecium in 2 species of the genus chrozophora euphorbiaceae

Lacalli T.C., 1981: Structure and development of the apical organ in trochophores of spirobranchus polycerus phyllodoce maculata and phyllodoce mucosa polychaeta

Ramm Anderson S.M.; Wetherbee R., 1982: Structure and development of the carposporophyte of nemalion helminthoides nemalionales rhodophyta

Fernandez J.; Olea N.; Matte C., 1987: Structure and development of the egg of the glossiphoniid leech theromyzon rude characterization of developmental stages and structure of the early uncleaved egg

Zunke, U., 1978: Structure and development of the eye of succinea putris mollusca stylommatophora part 1 light microscopic results

Blaxter J.H.S.; Gray J.A.B.; Best A.C.G., 1983: Structure and development of the free neuromasts and lateral line system of the herring clupea harengus

Nikolaevskaya T.S., 1979: Structure and development of the inflorescence of dactylis glomerata poaceae


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