Feodor Lynen (1911–1979)

Decker, Karl

doi:10.1007/BFb0034077

Karl Decker¹

Part of the book series: Reviews of Physiology, Biochemistry and Pharmacology ((REVIEWS,volume 90))

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Aus dem Schriftenverzeichnis von F. Lynen

Lynen F (1941) Über den aeroben Phosphatbedarf der Hefe. Ein Beitrag zur Kenntnis der Pasteur'schen Reaktion. Liebigs Ann Chem 546:120–141
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Lynen F, Reichert E, Rueff L (1951) Zum biologischen Abbau der Essigsäure VI. „Aktivierte Essigsäure”, ihre Isolierung aus Hefe und ihre chemische Natur. Liebigs Ann Chem 574:1–32
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Lynen F, Ochoa S (1953) Enzymes of fatty acid metabolism. Biochim Biophys Acta 12:299–314
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Lynen F (1955) Der Fettsäurecyclus. Angew Chem 67:463–470
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Holzer H, Schultz G, Lynen F (1956) Bestimmung des Quotienten DPNH/DPN in lebenden Hefezellen durch Analyse stationärer Alkohol-und Acetaldehyd-Konzentrationen. Biochem Z 328:252–263
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Lynen F, Decker K (1957) Das Coenzym A und seine biologischen Funktionen. Ergebn Physiol 49:327–424
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Schlossmann K, Lynen F (1957) Biosynthese des Cysteins aus Serin und Schwefelwasserstoff. Biochem Z 328:591–594
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Lynen F, Henning U. Bublitz C, Sörbo B, Kröplin-Rueff L (1958) Der chemische Mechanismus der Acetessigsäurebildung in der Leber. Biochem Z 330:269–295
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Lynen F, Eggerer H, Henning U, Kessel I (1958) Farnesylpyrophosphat und 3-Methyl-Δ³-butenyl-1-pyrophosphat, die biologischen Vorstufen des Squalens. Zur Biosynthese der Terpene. III. Angew Chem 70:738–742
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Lynen F, Hartmann G, Netter KJ, Schuegraf A (1959) Phosphate turnover and Pasteur-Effect. Ciba foundation symposium on cell metabolism. Ciba Foundation, London, pp 256–273
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Lynen F, Knappe J, Lorch E, Jütting G, Ringelmann E (1959) Die biochemische Funktion des Biotins. Angew Chem 71:481–486
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Lynen F, Agranoff BW, Eggerer H, Henning U, Möslein EM (1959) γ,γ-Dimethyl-allylpyrophosphat und Geranyl-pyrophosphat, biologische Vorstufen des Squalens. Zur Biosynthese der Terpene VI. Angew Chem 71:657–663
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Stadtman ER, Overath P, Eggerer H, Lynen F (1960) The role of biotin and vitamin B₁₂ coenzyme in propionate metabolism. Biochem Biophys Res Commun 2:1–7
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Bucher NLR, Overath P, Lynen F (1960) β-Hydroxy-β-methylglutaryl coenzyme A reductase, cleavage and condensing enzymes in relation to cholesterol formation in rat liver. Biochim Biophys Acta 40:491–501
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Eggerer H, Stadtman ER, Overath P, Lynen F (1960) Zum Mechanismus der durch Cobalamin-Coenzyme katalysierten Umlagerung von Methylmalonyl-CoA in Succinyl-CoA. Biochem Z 333:1–9
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Henning U, Möslein EM, Arreguin B, Lynen F (1961) Zur Bildung des Kautschuks aus Isopentenyl-pyrophosphat. Zur Biosynthese der Terpene, XI. Biochem Z 333:534–549
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Knappe J, Ringelmann E, Lynen F (1961) Zur biochemischen Funktion des Biotins. III. Die chemische Konstitution des enzymatisch gebildeten Carboxy-biotins. Biochem Z 335:168–176
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Grassl M, Coy U, Seyffert R, Lynen F (1963) Die chemische Konstitution des Cytohämins. Biochem Z 338:771–795
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Lynen F (1965) Der Weg von der „aktivierten Essigsäure” zu den Terpenen und den Fettsäuren. Angew Chem 77:929–944, Nobel Foundation, pp 2–41
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Rétey J, Coy U, Lynen F (1966) On the mechanism of the coenzyme B₁₂ dependent isomerization of (R)-methylmalonyl CoA to succinyl CoA. Biochem Biophys Res Commun 22:274–277
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Lynen F (1967) The role of biotin-dependent carboxylations in biosynthetic reactions. Biochem J 102:381–400
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Lynen F, Hagen A, Hopper-Kessel I, Oesterhelt D, Reeves HC, Schweizer E, Willecke K, Yalpani M (1967) Multienzyme complex of fatty acid synthetase. In: Vogel HJ, Lampen JO, Bryson V (eds) Organizational biosynthesis. Academic Press, New York, pp 243–266
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Gehring U, Riepertinger C, Lynen F (1968) Reinigung und Kristallisation der Thiolase, Untersuchungen zum Wirkungsmechanismus. Eur J Biochem 6:264–280
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Willecke K, Ritter E, Lynen F (1969) Isolation of an acyl carrier protein component from the multienzyme complex of yeast fatty acid synthetase. Eur J Biochem 8:503–509
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Sumper M, Oesterhelt D, Riepertinger C, Lynen F (1969) Die Synthese verschiedener Carbonsäuren durch den Multienzymkomplex der Fettsäuresynthese aus Hefe und die Erklärung ihrer Bildung. Eur J Biochem 10:377–387
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Back P, Hamprecht B, Lynen F (1969) Regulation of cholesterol biosynthesis in rat liver: diurnal changes of activity, influence of bile acids. Arch Biochem Biophys 133:11–21
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Sumper M, Riepertinger C, Lynen F (1969) Dissociation and reconstitution of the stable multienzyme complex fatty acid synthetase from yeast. FEBS Lett 5:45–49
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Oesterhelt D, Bauer H, Lynen F (1969) Crystallization of a multienzyme complex: fatty acid synthetase from yeast. Proc Natl Acad Sci USA 63:1377–1382
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Kresze G-B, Oesterhelt D, Lynen F, Castorph H, Schweizer E (1976) Localization of the central and peripheral SH-groups on the same polypeptide chain of yeast fatty acid synthetase. Biochem Biophys Res Commun 69:893–899
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Lynen F (1976) My expeditions into sulfur biochemistry. In: Kornberg A, Horecker BL, Cornudella L, Oro J (eds) Reflections on biochemistry. Pergamon Press, Oxford, pp 151–160
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Dimroth P, Ringelmann E, Lynen F (1976) 6-Methylsalicylic acid synthetase from penicillium patulum. Some catalytic properties of the enzyme and its relation to fatty acid synthetase. Eur J Biochem 68:591–596
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Wieland F, Siess EA, Renner L, Verfürth C, Lynen F (1978) Distribution of yeast fatty acid synthetase subunits: threedimensional model of the enzyme. Proc Natl Acad Sci USA 75:5792–5796
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Wieland F, Renner L, Verfürth C, Lynen F (1979) Studies on the multi-enzyme complex of yeast fatty acid synthetase. Reversible dissociation and isolation of two polypeptide chains. Eur J Biochem 94:189–197
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Lynen F (†) (1980) Structure and function of fatty acid synthetase. In: Nover L, Lynen F, Mothes K (eds) Cell compartmentation and metabolic channeling. VEB Fischer, Jena, Elsevier/North-Holland Biomedical, Amsterdam, pp 125–234
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Biochemisches Institut der Albert-Ludwigs-Universität, Hermann-Herder-Straße 7, D-7800, Freiburg
Karl Decker

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Decker, K. (1981). Feodor Lynen (1911–1979). In: Reviews of Physiology, Biochemistry and Pharmacology, Volume 90. Reviews of Physiology, Biochemistry and Pharmacology, vol 90. Springer, Berlin, Heidelberg. https://doi.org/10.1007/BFb0034077

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DOI: https://doi.org/10.1007/BFb0034077
Published: 21 June 2005
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-10657-9
Online ISBN: 978-3-540-38616-2
eBook Packages: Springer Book Archive

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