This is a preview of subscription content, log in via an institution to check access.
Preview
Unable to display preview. Download preview PDF.
Literatur
Acher, R., J. Chauvet etM.-Th. Lenci: Purification et structure de l’ocytocine et de la vasopressine du cheval. Biochim. biophys. Acta (Amst.)31, 545 (1959a).
——, —— et ——: Purification et structure de l’ocytocine et de la vasopressine du mouton. C.R. Acad. Sci. (Paris)248, 1435 (1959b).
——, ——, ——,F. Morel etJ. Maetz: Présence d’une vasotocine dans la neurohypophyse de la grenouille (Rana esculenta L.). Biochim. biophys. Acta (Amst.)42, 379 (1960).
Arahawa, K., R. R. Smeby andF. M. Bumpus: Synthesis of succinyl1-isoleucyl5-angiotensin II and N-(poly-O-acetyl-seryl)-isoleucyl5-angiotensin II. J. Amer. chem. Soc.84, 1424 (1962).
Behrens, O. K., andW. W. Bromer: Biochemistry of the protein hormones. Ann. Rev. Biochim.27, 57 (1958).
Bell, P. H.: Purification and structure ofβ-corticotropin. J. Amer. Chem. Soc.76, 5565 (1954).
—,K. S. Howard, R. G. Shepherd, B. M. Finn andJ. H. Meisenheimer: Studies with corticotropin. II. Pepsin degradation ofβ-corticotropin. J. Amer. Chem. Soc.78, 5059 (1956).
Berde, B., R. Huguenin andE. Stürmer: The biological activities of arginine-vasotocine obtained by a new synthesis.Experientia (Basel)18, 444 (1962).
Bock, K. G.: Was weiß man heute über Hypertensin? CIBA-Symposium (Basel)10 (5/6), 224 (1962).
Boissonnas, R. A., andE. Sandrin: Synthesis of eledoisin. Experientia (Basel)18, 59 (1962).
Braunitzer, G., R. Gehring-Müller, N. Hilschmann, K. Hilse, G. Hoborn, V. Rudloff u.B. Wittmann-Liebold: Die Konstitution des normalen adulten Humanhämoglobins. Hoppe-Seylers Z. physiol. Chem.325, 283 (1961).
Brown, R. A., M. Davies, M. Englert andH. R. Cox: Studies with corticotropin. IV. Ultracentrifugal characterization ofβ-corticotropin. J. Amer. chem. Soc.78, 5077 (1956).
Bruce, H. M., A. S. Parkes andW. L. M. Perry: Assay of ACTH on the thymus of the nestling rat. Lancet1952I, 790.
Brunner, H., u.D. Regoli: Unterschiedliche Empfindlichkeit verschiedener Angiotensinderivate gegen Abbau durch Plasma oder Nierenhomogenat. Experientia (Basel)18, 504 (1962).
Bumpus, F. M., Ph. A. Khairallah, K. Arakawa, I. H. Page andR. R. Smeby: The relationship of structure to pressor and oxytocic actions of isoleucine5 angiotensin octapeptide and various analogues. Biochem. biophys. Acta (Amst.)46, 38 (1961).
—, andR. R. Smeby: Importance of amino acid side groups for biologic activity of angiotensin II. Circulation25, 183 (1961).
—— andI. H. Page: Angiotensin, the renal pressor hormone. Circulat. Res.9, 762 (1969).
Čehovič, G.: Action des hormones mélanophorétiques (MSH) sur la function thyroidienne chez le Cobaye. C. R. Acad. Sci. (Paris)254, 1872 (1962).
Cook, W. F., andG. W. Pickering: The location of renin in the rabbit kidney. J. Physiol. (Load.)149, 526 (1959)
Danowsky, T. S., K. Hofmann, H. Yajima andC. Moses: ACTH-Like activity in man of a synthetic 23 amino acid polypeptide. Metabolism10, 835 (1961).
Del Greco, F.: Comparative effects of valine-5 angiotensin II amide and pitressin on renal excretory function in diabetes insipidus. Proc. Soc. exp. Biol. (N.Y.)109, 105 (1962).
Dengler, H., u.G. Reichel: Untersuchungen zur intracellulären Lokalisation der Renin- und Hypertensinase-Aktivität. Experientia (Basel)16, 36 (1960).
Dixon, H. B. F., andL. R. Weitkamp: Conversion of the N-terminal serine residue of corticotrophin into glycine. Biochem. J.84, 462 (1962).
Dixon, J. S., andC. H. Li: The isolation and structure of α-melanocyte-stimulating hormones from horse pituitaries. J. Amer. chem. Soc.82, 4568 (1960).
Du Vigneaud, V., M. F. Bartlett andA. Jöhl: The synthesis of lysine-vasopressin. J. Amer. Chem. Soc.79, 5572 (1957)
——D. T. Gish, P. G. Katsoyannis andG. P. Hess: Synthesis of the pressor-antidiuretic hormone, arginine-vasopressin. J. Amer. chem. Soc.80, 3355 (1958).
——H. C. Lawler andE. A. Popenoe: Enzymatic cleavage of glycinamide from vasopressin and a proposed structure for this pressor-antidiuretic hormone of the posterior pituitary. J. Amer. chem. Soc.75, 4880 (1953b).
——C. Ressler andS. Trippett: The sequence of amino acids in oxytocin, with a proposal for the structure of oxytocin. J. biol. Chem.205, 949 (1953a).
Edmundson, A. B., andC. H. W. Hirs: The amino-acid sequence of sperm whale myoglobin. Chemical studies. Nature (Loud.)190, 663 (1961).
Elliott, D. F.: Bradykinin. Rec. Chem. Progr. (Kresge-Hooker Sci. Lib.)22, 157 (1961).
Elliott, D. F. andW. S. Peart: Amino-acid sequence in a hypertensin. Nature (Lond.)177, 527 (1956).
—— and ——: The amino acid sequence in a hypertensin. Biochem. J.65, 246 (1957).
Erspamer, V., andA. Anastasi: Structure and pharmacological actions of eledoisin, the active endecapeptide of the posterior salivary glands of Eledone. Experientia (Basel)18, 58 (1962).
Fisher, J. W., andJ. J. Crook: Influence of several hormones on erythropoiesis and oxygen consumption in the hypophysectomized rat. Blood19, 557 (1962)
Flückiger, E. W.: Die biologische Aktivität von synthetischem α-MSH. Intern. Congr. Endocrinology, Kopenhagen 1960. Advance Abstracts (Periodica, Kopenhagen) 333 (1960).
Fortier, C., andD. N. Ward: Limitations of the in vitro pituitary incubation system as an assay for corticotropin (ACTH)-releasing activity. Canad. J. Biochem.36, 111 (1958)
Garilhe, M. Privat De, andC. Gros: On the in vitro cotricotropin releasing factor (CRF) activity of the heptapeptide: Methionyl-glutaminyl-histidyl-phenylalanylarginyl-tryptophyl-glycine. Experientia (Basel)18, 92 (1962).
—— ——, andJ. Porath andE.-B. Lindner: Further studies on corticotropin releasing factor (CRF) ; corticotropin releasing activity of synthetic peptides. Experientia (Basel)16, 414 (1960).
Geschwind, I. I., C. H. Li andL. Barnafi: Isolation and structure of melanocyte-stimulating hormone from porcine pituitary glands. J. Amer. Chem. Soc.78, 4494 (1956).
———, —— and ——: The isolation and structure of a melanocyte-stimulating hormone from bovine pituitary glands. J. Amer. chem. Soc.79, 1003, 6394 (1957).
Glenner, G. G., P. J. McMillan andD. E. Folk: A mammalian peptidase, specific for the hydrolysis of N-terminal α-L-glutamyl- and aspartyl residues. Nature (Lond.)194, 867 (1962).
Grant, J. K.: The action of corticotrophin on enzymes of the adrenal cortex in man. Proceedings of the Sheffield Corticotropin Conf. (Ferring AB, Malmö) 1960, p. 57.
Gross, F.: Interrelationship of renal and adrenal hormones. Internatl. Congr. on Hormonal Steroids, Mailand (Academic Press Inc., New York and London) 1962.
—, andK. D. Bocx: Some contributions to the pharmacology of synthetic angiotensin. Circulation25, 193 (1962).
——, andH. Turrian: Pharmacology of hypertensin and synthetic analogues. „Polypeptides which Affect Smooth Muscle and Blood Vessels”, S. 137. London: Pergamon Press 1960.
Guttmann, ST.: Synthèse de la Val5-D-Phe5-angiotensine-I et nouvelle synthèse de la Val5-angiotensine-I. Helv. chim. Acta44, 721 (1961).
——, etR. A. Boissonnas: Synthèse de l’α-Mélanotropine (α-MSH) de Porc. Helv. chim. Acta42, 1257 (1959)
—— —— Influence of the structure of the N-terminal extremity of α-MSH on the melanophore stimulating activity of this hormone. Experientia (Basel)17, 265 (1961).
—— —— Synthèse d’homologues de la lysine-vasopressine et de l’oxytocine contenant une séquence His-Sér ou Sér-His en position N-terminale. Helv. chim. Acta45, 2517 (1962).
Harris, J. I.: Studies on pituitary polypeptide hormones. 3. The structure of α-melanocyte-stimulating hormone from pig pituitary glands. Biochem. J.71, 451 (1959a).
——: Structure of a melanocyte-stimulating hormone from the human pituitary gland. Nature (Lond.)184, 167 (1959b).
——: The chemistry of pituitary polypeptide hormones. Brit. med. Bull.16, 189 (1960).
—— andA. B. Leaner: Amino-acid sequence of the a-melanocyte-stimulating hormone. Nature (Lond.)179, 1346 (1957)
—— andP. Roos: Amino-acid sequence of a melanophore-stimulating peptide. Nature (Lond.)178, 90 (1956).
—— ——: Studies on pituitary polypeptide hormones. 1. The structure ofβ-melanocyte-stimulating hormone from pig pituitary glands. Biochem. J.71, 434 (1959b).
—— ——: Studies on pituitary polypeptide hormones. 2. The action of pepsin and subtilision onβ-melanocyte-stimulating hormone. Biochem. J.71, 445 (1959b).
Hartroff, W. S., andP. M. Hartroff: New approaches in the study of cardiovascular disease: aldosterone, renin, hypertension and juxtaglomerular cells. Fed. Proc.20, No 4, 845 (1961).
Haynes jr., R. C., E. W. Sutherland andT. W. Ball: The role of cyclic adenylic acid in hormone action. Recent Progr. Hormone Res.16, 121 (1960).
Hechter, O., andG. Pincus: Genesis of the adrenocortical secretion. Physiol. Rev.34, 459 (1954).
Hirs, C. H. W., S. Moore andW. H. Stein: The sequence of the amino acid residues in performic acid-oxidized ribonuclease. J. biol. Chem.235, 633 (1960).
Hofmann, K., T.-Y. Liu, H. Yajima, N. Yanaihara, CH. Yanaihara andJ. L. Humes: Studies on polypeptides. XXII. High adrenocorticotropic activity in the rat and in man of a synthetic eicosapeptide amide. J. Amer. chem. Soc.84, 1054 (1962).
—: Studies on polypeptides. XV. Observations on the relation between structure and melanocyte-expanding activity of synthetic peptides. J. Amer. chem. Soc.82, 3721 (1960).
Hofmann, K., andH. Yajima: Studies on polypeptides. XX. Synthesis and corticotropic activity of a peptide amide corresponding to the N-terminal tridecapeptide sequence of the corticotropins. J. Amer. Chem. Soc.83, 2289 (1961).
——, ——: Synthetic pituitary hormones. Recent Progr. Hormone Res.18, 41 (1962).
——, —— andE. T. Schwartz: Studies on polypeptides. XVII. The synthesis of three acyltridecapeptide amides possessing a high level of melanocyte-expanding activity in vitro. J. Amer. chem. Soc.82, 3732 (1960).
——, ——T.-Y. Liu andN. Yanaihara: Studies on polypeptides. XXIV. Synthesis and biological evaluation of a tricosapeptide possessing essentially the full biological activity of ACTH. J. Amer, chem. Soc.84, 4475 (1962a).
——, —— —— ——C. Yanaihara andL. Humes: Studies on polypeptides. XXV. The adrenocorticotropic potency of an eicosapeptide amide corresponding to the N-terminal portion of the ACTH molecule; contribution to the relation between peptide chain length and biological activity. J. Amer. chem. Soc.84, 4481 (1962b).
——, ——N. Yanaihara, T.-Y. Liu andS. Lande: Studies on polypeptides. XIII. The synthesis of a tricosapeptide possessing essentially the full biological activity of natural ACTH. J. Amer. chem. Soc.83, 487 (1961).
——,N. Yanaihara, S. Lande andH. Yajima: Studies on polypeptides. XXIII. Synthesis and biological activity of a hexadecapeptide corresponding to the N-terminal sequence of the corticotropins. J. Amer. Chem. Soc.84, 4470 (1962c).
IMHOF, P.: Angiotensin, Experimentelle und klinische Erfahrungen mit dem synthetischen Val5-Angiotensin II-amid. Ned. milit. geneesk. T. (im Druck) (1963)
Iselin, B., u.R. Schwyzer: Synthese von Peptid-Zwischenprodukten für den Aufbau eines corticotrop wirksamen Nonadecapeptids. Helv. chim. Seta44, 169 (1961).
Kaplan, N. M., andF. C. Bartter: The effect of ACTH, renin, angiotensin II, and various precursors on biosynthesis of aldosterone by adrenal slices. J. clin. Invest.41, 715 (1962).
Kappeler, H.: Synthese von L-Glutaminyl-L-histidyl-L-phenylalanyl-L-arginyl-L-tryptophyl-glycin. Helv. chim. Acta44, 476 (1961).
— Noch nicht publizierte Beobachtung (1961).
—— andR. Schwyzer: Synthetic peptides related to the corticotropins (ACTH) and the melanophore stimulating hormones (MSH) possessing corticotropin releasing activity (CRF-activity). Experientia (Basel)16, 415 (1960a).
—— Synthese eines Heptapeptides mit starker CRF-Wirkung. Helv. chim. Acta43, 1453 (1960b).
—— Die Synthese eines Tetracosapeptides mit der Aminosäuresequenz eines hoch-aktiven Abbauproduktes desβ-Corticotropins (ACTH) aus Schweinehypophysen. Helv. chim. Acta44, 1136 (1961).
Kass, E. H., O. Hechter, I. A. Macchi andT. W. Mou: Changes in patterns of secretion of corticosteroids in rabbits after prolonged treatment with ACTH. Proc. Soc. exp. Biol. (N.Y.)85, 583 (1954).
Katsoyannis, P. G., andV. Du Vigneaud: Active principles of the neurohypophysis of cold-blooded vertebrates. Arginine Vasotocin. Nature (Lond.)184, 1465 (1959).
Kendrew, J. C., H. C. Watson, B. E. Strandberg, R. E. Dickerson, D. C. Phillips andV. C. Shore: The amino-acid sequence of sperm whale myoglobin. A partial determination by X-ray methods, and its correlation with chemical data. Nature (Lond.)190, 666 (1961).
Khairallah, A., I. H. Page, F. M. Bumpus andR. R. Smeby: Angiotensin II: its metabolic fate. Science138, 523 (1962).
Krivoy, W. A., andR. Guillemin: Antagonism of chlorpromazine byβ-melanocyte stimulating hormone (β-MSH). Experientia (Basel)18, 20 (1962).
Lee, T. H., andA. B. Lerner: Isolation of melanocyte-stimulating hormone from hog pituitary gland. J. biol. Chem.221, 943 (1956).
Lee, T. H., A. B. Lerner, andV. Buettner-Janusch: Isolation and structure of human corticotropin (ACTH). J. Amer. Chem. Soc.81, 6084 (1959)
——, ——, and —— The isolation and structure ofα- andβ-melanocyte-stimulating hormones from monkey pituitary glands. J. biol. Chem.236, 1390 (1961).
Lerner, A. B.: Hormonal control of pigmentation. Ann. Rev. Med.11, 187 (1960).
Leyssac, P. P., U. V. Lassen andJ. H. Thaysen: Inhibition of sodium transport in isolated renal tissue by angiotensin. Biochim. biophys. Acta (Amst.)48, 602 (1961).
Li, C. H.: Hormones of the anterior pituitary gland. Part I. Growth and adrenocorticotropic hormones. Advanc. Protein Chem.11, 102 (1956).
— Hormones of the anterior pituitary gland. Part II. Melanocyte-stimulating and lactogenic hormone. Advanc. Protein Chem.12, 269 (1957)
— The relation of chemical structure to the biologic activity of pituitary hormones. Lab. Invest.8, 574 (1959).
—D. Chung, J. Ramachandran andB. Gorup: The synthesis of a heptadecapeptide possessing adrenocorticotropic, melanotropic and lipolytic activities. J. Amer. chem. Soc.84, 2460 (1962).
—J. S. Dixon andD. Chung: The structure of bovine corticotropin. J. Amer. chem. Soc.80, 2587 (1958).
—I. I. Geschwind, R. D. Cole, I. D. Raacke, J. I. Harris andJ. S. Dixon: Amino-acid sequence of alpha-corticotropin (sheep). Nature (Lond.)176, 687 (1955).
—J. Meienhofer, E. Schnabel, D. Chung, T.-B. Lo andJ. Ramachandran: The synthesis of a nonadecapeptide possessing adrenocorticotropic and melanotropic activities. J. Amer. chem. Soc.82, 5760 (1960).
—————— Synthesis of a biologically active nonadecapeptide corresponding to the first nineteen amino acid residues of adrenocorticotropins. J. Amer. chem. Soc.83, 4449 (1961).
—E. Schnabel andD. Chung: The synthesis of L-histidyl-L-phenylalanyl-L-ornithylL-tryptophyl-glycine and L-histidyl-D-phenylalanyl-L-ornithyl-L-tryptophyl-glycine and their melanocyte-stimulating activity. J. Amer. chem. Soc.82, 2062 (1960).
——— andT.-B. Lo: Synthesis of L-methionyl-L-glutamyl-L-histidyl-L-phenylalanyl-L-arginyl-L-tryptophyl-glycine and its melanocyte-stimulating and corticotropin releasing activity. Nature (Lond.)189, 143 (1961).
Light, A., andV. Du Vigneaud: On the nature of oxytocin and vasopressin from human pituitary. Proc. Soc. exp. Biol. (N.Y.)98, 692 (1958).
Lo, T.-B., J. S. Dixon andC. H. Li: Isolation of methionine sulfoxide analogue ofα-melanocyte-stimulating hormone from pituitary glands. Biochim. biophys. Acta (Amst.)53, 584 (1961).
Maetz, J., F. Morel andB. Lahlouh: Natriferin: a new hormonal principle in the neurohypophysis of certain vertebrates. Nature (Lond.)184, 1236 (1959a).
—— etB. Race: Mise en évidence dans la neurohypophyse de Rana esculenta L. d’un facteur hormonal nouveau stimulant le transport actif de sodium à travers la peau. Biochim. biophys. Acta (Amst.)36, 317 (1959b).
Matsubara, H., andE. L. Smith: The amino acid sequence of human heart cytochrome c. J. biol. Chem.237, PC 3575 (1962)
Nicol, D. S. H. W., andL. F. Smith: Amino-acid sequence of human insulin. Nature (Loud.)187, 483 (1960).
Page, I. H., andF. M. Bumpus: Angiotensin. Physiol. Rev.41, 331 (1961).
—— Angiotensin — A Renal Hormone. Recent Progr. Hormone Res.18, 167 (1962).
Paiva, A. C. M., andT. B. Paiva: The importance of the N-terminal end of angiotensin II for its pressor and oxytocic activities. Biochem. Pharmacol.5, 187 (1960).
—— The photo-oxidative inactivation of angiotensinamide. Biochim. biophys. Acta (Amst.)48, 412 (1961).
Paiva, T. B., andA. C. M. Paiva: Some pharmacological actions of synthetic analogues of angiotensinamide. Brit. J. Pharmacol.15, 557 (1960b).
Perutz, M. F., M. G. Rossmann, A. F. Cullis, H. Muirhead, G. Will andA. C. T. North: Structure of haemoglobin. A three-dimensional Fourier synthesis at 5-5-Å resolution, obtained by X-ray analysis. Nature (Lond.)185, 416 (1960).
Peters, G.: Renal tubular effect of Val5-angiotensin II amide in rats. Proc. Soc. exp. Biol. (N.Y.)112, 771 (1963).
Pickering, B. T., andH. Heller: Active principles of the neurohypophysis of cold-blood vertebrates. Chromatographic and biological characteristics of fish and frog neurohypophyseal extracts. Nature (Lond.)184, 1463 (1959).
Pierce, J. V., andM. E. Webster: Human plasma kallidins: isolation and chemical studies. Biochem. biophys. Res. Commun.5, 353 (1961).
Raben, M. S., R. Landolt, F. A. Smith, K. Hofmann andH. Yajima: Adipokinetic activity of synthetic peptides related to corticotropin. Nature (Lond.)189, 681 (1961).
Regoli, D., H. Brunner andB. Riniker: The enzymatic degradation of various angiotensin II derivatives by serum, plasma, or kidney homogenate. Biochem. Pharmacol.12, 637 (1963).
Riniker, B., H. Brunner u.R. Schwyzer:β-Asp1, Val5-Angiotensin II, ein Hypertensin-Analoges besonders hoher biologischer Aktivität. Angew. Chem.74, 469 (1962).
—, u.R. Schwyzer: Synthetische Analoge des Hypertensins. Helv. chim. Acta44, 674, 677, 685 (1961a).
—— Die sterische Einheitlichkeit des synthetischen Val5-Hypertensin II-Asp1-β-amids. Helv. chim. Acta44, 658 (1961b).
Rittel, W.: Synthese von Peptid-Zwischenprodukten für den Aufbau eines corticotrop wirksamen Nonadekapeptides. Helv. chim. Acta45, 2465 (1962).
Rudman, D.: Adipokinetic action of polypeptide and amine hormones upon the adipose tissue of various animal species. J. Lipid Res.4, 119 (1963).
Sanger, F.: Chemistry of insulin. Brit. med. Bull.16, 183 (1960).
Sawyer, W. H., R. A. Munsick andH. B. Van Dyke: Active principles of the neurohypophysis of cold-blooded vertebrates. Pharmacological evidence for the presence of arginine vasotocin and oxytocin in neurohypophyseal extracts from cold-blooded vertebrates. Nature (Lond.)184, 1464 (1959)
——— Avian neurohypophyseal hormones: pharmacological properties and tentative identification. Endocrinology66, 860 (1960).
Schally, A. V., H. S. Lipscomb andR. Guillemin: Isolation and amino acid sequence of α2-corticotropin-releasing factor (α2 CRF) from hog pituitary glands. Endocrinology71, 164 (1962).
Schnabel, E., andC. H. Li: The synthesis of glycyl-L-histidyl-L-phenylalanyl-L-arginyl-L-tryptophyl-glycine and its melanocyte stimulating activity. J. biol. Chem.235, 2010 (1960a).
—— The synthesis of L-histidyl-D-phenylalanyl-L-arginyl-L-tryptophylglycine and its melanocyte-stimulating activity. J. Amer. Chem. Soc.82, 4576 (1960b).
Schuler, F.: Persönliche Mitteilung (1962).
Schwarz, H., F. M. Bumpus andI. H. Page: Synthesis of a biologically active octapeptide similar to natural isoleucine angiotonin octapeptide. J. Amer. Chem. Soc.79, 5697 (1957).
Schwyzer, R.: Chemical pathways to naturally occurring polypeptides. Rec. Chem. Progr. (Kresge-Hooker Sci. Lib.)20, 147 (1959).
— Structure-activity relationships among physiologically active polypeptides. Vortr. am 1st Internat. Pharmacological Meeting in Stockholm. Pharmacological vol., London: Pergamon Press (1961a).
— Recent synthetic developments in the field of polypeptide hormones. Protides of the Biological Fluids, Ed.H. Peeters, S. 27. Amsterdam: Elsevier Publ. Co. 1961b.
— Synthetische Analoge des Hypertensins. Helv. chim. Acta44, 667 (1961c).
Schwyzer, R.: Chemistry of synhtetic angiotensin. Circulation25, 175 (1961d).
— Chemical structure and biological activity in the field of polypeptide hormones. Vortr. am IUPAC-Kongr. für Pharmazeutische Chemie, Florenz [vgl. Pure and Appl. Chemistry6, 265 (1963a)].
— Synthèses récentes dans le domaine des hormones hypophysaires. Atti delle VII Giornate Biochimiche Latine, S. Margherita Ligure, 23.–26. Mai 1963, Herausgeg. vom Istituto di Chimica Biologica dell’Università di Genova, S. 229 (1963b).
—,A. Costopanagiotis u.P. Sieber: Neue Synthesen auf dem Gebiete der melanophorenstimulierenden and corticotropin Hormone. Chimia16, 295 (1962).
——, —— u. —— Zwei Synthesen desα-Melanotropins (α-MSH) mit Hilfe leicht entfernbarer Schutzgruppen. Helv. shim. Acta46, 870 (1963)
—B. Iselin, H. Kappeler, B. Riniker, W. Rittel u.H. Zuber: Synthese von Hypertensin-Peptiden. Über die partielle Hydrolyse von Hypertensin-Asp-β-amiden zu den entsprechenden Dicarbonsäuren. Hypertensin II-Analoge. Chimia11, 335 (1957)
——, ——, ——, ——, —— u. —— Synthese hochwirksamer Oktapeptide mit der vermutlichen Aminosäauresequenz des noch unbekannten Hypertensins II aus Rinderserum (Val5-Hyper-tensin II and Val5-Hypertensin II-Asp-β-amid). Helv. chim. Acta41, 1287 (1958).
Synthese desβ-melanophorenstimulierenden Hormons (β-MSH) des Rindes. Helv. chim. Acta46, im Druck (1963)
—, u.H. Kappeler: Synthese von Zwischenprodukten für den Aufbau corticotrop wirksamer Polypeptide. Helv. chim. Acta44, 1991 (1961).
—— Synthese eines Tetracosapeptides mit hoher corticotropir Wirksamkeit:β 1–24-Corticotropin. Helv. chim. Acta46, 1550 (1963)
——, ——,B. Iselin, W. Rittel u.H. Zuber: Synthese und biologische Aktivität von geschützten Polypeptidsequenzen desβ-melanophorenstimulierenden Hormons (β-MSH) des Rindes. Helv. chim. Acta42, 1702 (1959)
—, andC. H. Li: A new synthesis of the pentapeptide L-Histidyl-L-phenylalanyl-L-arginyl-L-tryptophyl-glycine and its melanocyte-stimulating activity. Nature (Lond.)182, 1669 (1958).
—, u.W. Rittel: Synthese von Peptid-Zwischenprodukten für den Aufbau eines corticotrop wirksamen Nonadecapeptides. Helv. chim. Acta44, 159 (1961).
—— u.A. Costopanagiotis:β 1–16-Corticotropinmethylester. Helv. chim. Acta45, 2474 (1962).
——,H. Kappeler u.B. Iselin: Synthese eines Nonadeka-peptides mit hoher corticotroper Wirksamkeit. Angew. Chem.72, 915 (1960).
———— Synthese von Peptiden mit hoher corticotropir Wirkung. Chimia15, 312 (1961).
—, u.P. Sieber: The total synthesis of adrenocorticotrophic hormone. Nature (Lond.)199, 172 (1963).
—, andH. Turrian: The chemistry and pharmacology of angiotensin. Vitam. and Horm.18, 237 (1960).
Shepherd, R. G., K. S. Howard, P. H. Bell, A. R. Cacciola, R. G. Child, M. C. Davies, J. P. English, B. M. Finn, J. H. Meisenhelder, A. W. Moyer andJ. Van Der Scheer: Studies with corticotropin. I. Isolation, purification and properties ofβ-corticotropin. J. Amer. chem. Soc.78, 5051 (1956a).
—,S. D. Willson, K. S. Howard, P. H. Bell, D. S. Davies, S. B. Davis, E. A. Signer andN. Shakespeare: Studies with corticotropin. III. Determination of the structure ofβ-corticotropin and its active degradation products. J. Amer. chem. Soc.78, 5067 (1956b).
Shizume, K., A. B. Lerner andT. B. Fitzpatrick: In vitro bioassay for the melanocyte stimulating hormone. Endocrinology54, 553 (1954).
Skeggs, L. T., K. E. Lentz, J. R. Kahn, N. P. Shumway andK. R. Woods: The amino acid sequence of hypertensin II. J. exp. Med.104, 193 (1956).
Smythe, D. G., W. H. Stein andS. Moore: On the sequence of residues 11 to 18 in bovine pancreatic ribonuclease. J. biol. Chem.237, 1845 (1962).
Spackman, D. H., W. H. Stein andS. Moore: The disulfide bonds of ribonuclease. J. biol. Chem.235, 648 (1960).
Stack-Dunne, M. P.: The bioassay of corticotrophns. Proc. of the Sheffield Corticotropin Conf. (Ferring AB, Malmö), 1960, p. 19.
Steelman, S. L., R. N. Anderson andR. M. McGregor: A simplified procedure for the preparation ofα- andβ-melanocyte-stimulating hormones. Biochim. biophys. Acta (Amst.)33, 256 (1959)
—, andR. Guillemin: ACTH-activity ofα-melanocyte-stimulating hormone (α-MSH). Proc. Soc. exp. Biol. (N.Y.)101, 600 (1959).
Studer, R. O., andV. Du Vigneaud: Synthetic work related to arginine-vasopressin. J. Amer. chem. Soc.82, 1499 (1960).
Symington, T.: The effect of ACTH on the human adrenal cortex. Proc. of the Sheffield Corticotropin Conf. (Ferring AB., Malmö), 1960, p. 51.
Tuppy, H.: The amino-acid sequence in oxytocin. Biochim. biophys. Acta (Amst.)11, 449 (1953)
— Aminosäure-Sequenzen in Proteinen. Naturwissenschaften46, 35 (1959).
—, u.G. Kreil: Über die beim tryptischen Abbau von Pferde-Cytochrom c entstehenden Peptide. Mh. Chem. (Wien)93, 780 (1962).
Vallee, B. L.: Biochemistry, physiology and pathology of zinc. Physiol. Rev.39, 443 (1959).
Vogler, K., R. O. Studer u.W. Lergier: Synthese von Dab1-Dab9-Bradykinin. Helv. chim. Acta44, 1495 (1961)
Waller, J. P., andH. B. F. Dixon: Selective acetylation of the terminal amino group of corticotrophin. Biochim. J.75, 320 (1960).
Watson, H. C., andJ. C. Kendrew: The amino-acid sequence of sperm whale myoglobin. Comparison between the amino-acid sequences of sperm whale myoglobin and of human myoglobin. Nature (Lond.)190, 670 (1961).
Werle, E.: Kinine und Angiotensine. Pharmakologie, Chemie, physiologische und pathologische Bedeutung. Angew. Chem.73, 689 (1961).
—,I. Trautschold u.G. Leysath: Isolierung und Struktur des Kallidins. Hoppe-Seylers Z. physiol. Chem.326, 174 (1961).
Wettstein, A.: Biosynthèse des hormones stéroides. Experientia (Basel)17, 329 (1961).
White, W. F., andW. A. Landmann: Studies on adrenocorticotropin. XI. A preliminary comparison of corticotropin-A withβ-corticotropin. J. Amer. Chem. Soc77, 1711 (1955)
Author information
Authors and Affiliations
Additional information
Herrn Professor A. v. Muralt zum 60. Geburtstag gewidmet.
Rights and permissions
Copyright information
© 1963 Springer-Verlag
About this paper
Cite this paper
Schwyzer, R. (1963). Synthetische Polypeptide mit physiologischer Wirkung. In: Ergebnisse der physiologie biologischen chemie und experimentellen pharmakologie. Ergebnisse der Physiologie, biologischen Chemie und experimentellen Pharmakologie, vol 53. Springer, Berlin, Heidelberg. https://doi.org/10.1007/BFb0117001
Download citation
DOI: https://doi.org/10.1007/BFb0117001
Published:
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-02973-1
Online ISBN: 978-3-540-37067-3
eBook Packages: Springer Book Archive