Neuere Fettsäuren und Fette

  • F. L. Breusch
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Part of the Fortschritte der Chemischen Forschung book series (TOPCURRCHEM, volume 1/3)


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  1. 1.
    Abraham, E. P., E. L. Mowat and I. C. Smith: Effect of alkyl groups on addition of hydrogen bromide to double bonds. J. chem. Soc. 1937, 948.Google Scholar
  2. 2.
    Adam, N. K.: Properties of monomolecular films. Proc. Roy. Soc. [London]Google Scholar
  3. 3.
    Adams, R.: Influence of branched fatty acids on tuberculosis. J. Pharmacol. exp. Therapeut. 45, 121 (1932).Google Scholar
  4. 4.
    Adickes, F., u. G. Andresen: Serie der normalen β-Oxy-und α-Ketosäuren. Liebigs Ann. Chem. 555, 41 (1943).Google Scholar
  5. 5.
    Ahmad, K., F. M. Bumpus and F. M. Strong: Synthesis of cis-11-octadecenoic acid and trans-11-octadecenoic acid. J. Amer. chem. Soc. 70, 3391 (1948).CrossRefGoogle Scholar
  6. 5a.
    Alpar, S. R.: Einfache Methode zur Trennung gesättigter Fettsäuren von ungesättigten. Rev. Fac. Sci. Univ. Istanbul [A] 13, 30 (1948).Google Scholar
  7. 6.
    Anderson, R. I., and E. Chargaff: Tuberculostearic acid and phthioic acid. J. biol. Chem. 85, 77 (1929).Google Scholar
  8. 7.
    Appel, H., H. Böhm, W. Keil u. G. Schiller: Zur Kenntnis der Fette aus Fettsäuren mit ungerader Kohlenstoffatomzahl. 7. Mitt. Hoppe-Seylers Z. physiol. Chem. 282, 220 (1947).Google Scholar
  9. 8.
    Armendt, B. F., and R. Adams: Dialkyl-acetic acids and their bactericidal action toward bact. leprae. J. Amer. chem. Soc. 52, 1289 (1930).CrossRefGoogle Scholar
  10. 9.
    Arosenius, K. E., S. Ställberg, E. Stenhagen u. B. Tägtström-Eketorp: Long chain iso-acids; synthesis of acids with 13,15,17,24,25,26,36 carbon atoms and their X-ray study. Ark. Kem., Mineral. Geol. [A] 26, 1 (1948).Google Scholar
  11. 9a.
    Arosenius, K. E., S. Ställberg-Stenhagen u. E. Stenhagen: Dimethyl-C15 and C12 acid. Ark. Kem., Mineral. Geol. [A] (1950).Google Scholar
  12. 9b.
    Asano, M., T. Kanematsu: Über die Konstitution des Spilanthols. Ber. dtsch. chem. Ges. 65, 1602 (1932).CrossRefGoogle Scholar
  13. 10.
    Ashton, R., R. Robinson and J. C. Smith: Tricosanoic and tetracosanoic acids and derivates. J. chem. Soc. 1936, 283.Google Scholar
  14. 11.
    Bader, A. R.: Osmium-tetroxide oxidation of some long chain unsaturated fatty acids. J. Amer. chem. Soc. 70, 3938 (1948).CrossRefGoogle Scholar
  15. 12.
    Baer, E., and M. Kates: Synthesis of enantiomeric α-lecithins. Science 109, 31 (1949).—Baer, E., J. Amer. chem. Soc. 70, 1394 (1948).CrossRefGoogle Scholar
  16. 12a.
    -, and H. O. L. Fischer: Selachyl-alcohol and its geometrical isomer. J. biol. Chem. 170, 337 (1947).Google Scholar
  17. 12b.
    Bailey, A. E.: Melting and solidification of fats. Interscience Publ. New York 1949.Google Scholar
  18. 13.
    Baldwin, A. R., and B. F. Daubert: Spectrophotometric analysis of alkali-isomerized synthetic glycerides. Oil and Soap 22, 180 (1945).CrossRefGoogle Scholar
  19. 14.
    Baliga, M. N., and T. P. Hilditch: Cis-Δ11, 12-eicosenic acid. J. chem. Soc. Suppl. 1, 91 (1949).CrossRefGoogle Scholar
  20. 14a.
    Baudart, P.: Sur les acides gras des poissons de cambodge. Bull. Soc. chim. France, Mém. 11, 174 (1944).—Baudart, P.: Chem. Abstracts 40, 3009 (1946).Google Scholar
  21. 14b.
    -: Synthèse de l'acide linoléique. Bull. Soc. chim. France, Mém. 11, 336 (1944); Chem. Abstracts 40, 1782 (1946).Google Scholar
  22. 14c.
    -: Synthèse des acides gras avec plusieurs groupes hydroxyliques. C. R. hebd. Séances Acid. Sci. 221, 205 (1945).—Baudart, P.: Chem. Abstracts 40, 2436 (1946).Google Scholar
  23. 15.
    Bergmann, M., u. N. M. Carter: Synthese von β-Glyceriden. Hoppe-Seylers Z. physiol. Chem. 191, 211 (1930).Google Scholar
  24. 15a.
    Beadle, B. W., O. H. M. Wilder and H. R. Kraybill: Deposition of trienoic fatty acids in the fats of the pig and the rat. J. biol. Chem. 175, 221 (1948).Google Scholar
  25. 16.
    Bergström, S., H. Theorell and K. Davide: Pyolipic acid, a metabolic product of Pseudomonas pyocyanea. Arch. Biochem. 10, 165 (1946).Google Scholar
  26. 17.
    -, and R. T. Holman: Lipoxydase and the autoxydation of unsaturated fatty acids, Referat. Advances Enzymol. 8, 425 (1948).Google Scholar
  27. 17a.
    Bergström, S., G. Aulin-Erdtman, B. Rolander u. B. Lindberg: Synthesis of hydroxy-and keto-octadecanoic acids. Acta chem. Scand. (1950).Google Scholar
  28. 18.
    Bernhard, K., u. F. Bullet: Untersuchungen über den Lipoidgehalt menschlicher und tierischer Därme. Helv. Physiol. Acta 5, 422 (1947).Google Scholar
  29. 18a.
    -, u. H. Corrodi: Über menschliches Knochenmark-und Depotfett. Helv. Chim. Acta 30, 1786 (1947).CrossRefGoogle Scholar
  30. 18b.
    -, u. H. Albrecht: Die Lipide aus Phycomyces Blakesleeanus. Helv. Chim. Acta 31, 62 (1948).Google Scholar
  31. 19.
    Birch, A. I., and R. Robinson: Long chain acids containing a quaternary carbon atom. J. chem. Soc. 1942, 488.Google Scholar
  32. 20.
    Bloor, W. R.: Biochemistry of fatty acids. New York: Reinhold Publ. Comp. 1943.Google Scholar
  33. 21.
    Boekenoogen, H. A.: De Scheikunde der Oilen en Vetten. Utrecht: Osthoeks Uitgever Mij. 1948.Google Scholar
  34. 22.
    Boer, I., B. C. P. Jansen and A. Kentie: Isolation of the growth promoting factor present in fatty acids of summer butter. Nature 158, 201 (1946).—Boer, I., B. C. P. Jansen and A. Kentie: J. Nutr. 33, 339, 359 (1947).CrossRefGoogle Scholar
  35. 23.
    Bonhorst, C. W., P. M. Althouse and H. O. Triebold: Physical properties of methyl, propyl and isopropylestres of even numbered fatty acids C8 to C18. Ind. Engng. Chem. 40, 2379 (1948).CrossRefGoogle Scholar
  36. 23a.
    Bougault, J., et L. Bourdier: Cire des conifères. C. R. hebd. Séances Acad. Sci. 147, 1313 (1908).Google Scholar
  37. 23b.
    Bowman, R. E.: Synthesis of erucic and brassidic acid. Nature 163, 95 (1949)CrossRefGoogle Scholar
  38. 24.
    Boyer, P. T., G. A. Ballou and I. M. Luck: Combination of fatty acids with proteins. J. biol. Chem. 167, 407 (1947).Google Scholar
  39. 25.
    Breusch, F. L., u. R. Tulus: β-Oxyfettsäuren. Enzymologia 11, 352 (1943).Google Scholar
  40. 26.
    -, u. H. Keskin: Synthese der α,γ-Diketofettsäuren. Enzymologia 11, 356 (1943).Google Scholar
  41. 27.
    -, and E. Ulusoy: Isolation and identification of fatty acids as bis (p-dimethylamino-phenyl)-ureides. Arch. Biochem. 11, 489 (1946).Google Scholar
  42. 28.
    Breusch, F. L. u. R. Tulus: Synthese von α, β-Di-oxy-fettsäuren. Rev. Fac. Sci. Univ. Istanbul [A] 12, 289 (1947).Google Scholar
  43. 29.
    -, and H. Keskin: Synthese von Oxy-und Keto-fettsäuren. Arch. Biochem. 18, 305 (1948).Google Scholar
  44. 30.
    -, Fatty acid catabolism (Referat). Advances Enzymol. 8, 843 (1948).Google Scholar
  45. 31.
    -, u. E. Ulusoy: Synthese von γ, ζ-Di-Ketofettsäuren. Rev. Fac. Sci. Univ. Istanbul [A] 13, 51 (1948).Google Scholar
  46. 32.
    Breusch, F. L. u. E. Ulusoy u. Baykut: Synthese verzweigter Oxy-Fettsäuren. Rev. Fac. Sci. Univ. Istanbul (im Druck).Google Scholar
  47. 32a.
    -: Verbrennung der Fettsäuren im tierischen Organismus. Z. angew. Chem. 62, 66 (1950).CrossRefGoogle Scholar
  48. 33.
    Brown, I. B.: Low temperature crystallisation of the fatty acids and glycerides (Referat). Chem. Reviews 29, 333 (1941).CrossRefGoogle Scholar
  49. 34.
    -, and E. Farmer: Highly unsaturated acids from oiticica oil. Biochem. J. 29, 631 (1939).Google Scholar
  50. 35.
    Butenandt, A., u. P. Schmidt-Thome: Umwandlung des Dehydroandrosterons. Ber. dtsch. chem. Ges. 72, 1116 (1939).Google Scholar
  51. 36.
    Buu-Hoi, N. Ph., u. P. Cagniant: Zur Kenntnis der biologischen Bedeutung der höheren verzweigter Fettsäuren. Hoppe-Seylers Z. physiol. Chem. 279, 76 (1943).Google Scholar
  52. 37.
    Campbell, A. D., C. L. Carter and S. N. Slater: Preparation of some branched-chain monocarboxylic acids. J. chem. Soc. 1948, 1741.Google Scholar
  53. 38.
    Carter, M. G., and T. Malkin: X-ray and thermal examination of triglycerides. J. chem. Soc. 1947, 554.Google Scholar
  54. 39.
    Carter, M. G., and T. Malkin: X-ray and thermal examination of unsymmetrical mixed triglycerides. J. chem. Soc. 1939, 577, 1518.Google Scholar
  55. 39a.
    Carter, H. E., W. P. Norris, F. J. Glick, G. E. Phillips and R. Harris: Isolation of di-hydro-sphingosin from cerebrosides of beef brain. J. biol. Chem. 170, 269 (1947).Google Scholar
  56. 40.
    Cason, J.: Branched chain fatty acids; I. Synthesis of 17-methyl-octadecanoic acid. J. Amer. chem. Soc. 64, 1106 (1942).CrossRefGoogle Scholar
  57. 41.
    -, C. E. Adams, L. L. Bennet and U. D. Register: Branched chain fatty acids; II. Synthesis of 15-methyl-octadecanoic acid and 14-methyl tetracosanoic acid. J. Amer. chem. Soc. 66, 1764 (1944).CrossRefGoogle Scholar
  58. 42.
    -, and F. S. Prout: Branched chain fatty acids; III. Synthesis in the C19 and C25 series; preparation of ketoesters. J. Amer. chem. Soc. 66, 46 (1944).CrossRefGoogle Scholar
  59. 43.
    : Concerning the structure of phthioic acid. J. Amer. chem. Soc. 70, 879 (1948).CrossRefGoogle Scholar
  60. 44.
    -: Branched chain fatty acids; relationship of melting point to structure. J. org. Chemistry 13, 227 (1948).CrossRefGoogle Scholar
  61. 45.
    -, H. J. Wolfhagen, W. Tarpay and R. E. Adams: Synthesis of acids with branching methyl groups near the carboxyl. J. org. Chemistry 14, 147 (1949).CrossRefGoogle Scholar
  62. 46.
    -, and W. C. Stanley: Synthesis of acids with symmetrical endgroups. J. org. Chemistry 14, 137 (1949).CrossRefGoogle Scholar
  63. 47.
    Castille, A.: Zur Kenntnis des fetten Öls der Samen von Ongokea Kleineana Pierre. Liebigs Ann. Chem. 543, 104 (1939).Google Scholar
  64. 48.
    Chargaff, E.: Über höhere Fettsäuren mit verzweigter Kohlenstoffkette. Ber. dtsch. chem. Ges. 65, 745 (1932).CrossRefGoogle Scholar
  65. 49.
    -, Lipoproteins. Referat in Anson-Edsall, Advances Protein Chem. 1, 1 (1944).CrossRefGoogle Scholar
  66. 50.
    Chen, Ch., and B. F. Daubert: Synthetic triacid glycerides of saturated fatty acids. J. Amer. chem. Soc. 67, 1256 (1945).CrossRefGoogle Scholar
  67. 51.
    Chibnall, A. C., S. H. Piper and E. F. Williams: The fatty acids of phrenosin and kerasin. Biochem. J. 30, 100 (1936).Google Scholar
  68. 51a.
    -, A. L. Latner, E. F. Williams and Ch. A. Ayre: The constitution of coccerin. Biochem. J. 28, 313 (1934).Google Scholar
  69. 52.
    Chuit, P., F. Boelsing, J. Hauser et G. Malet: Recherches dans la série de l'acide undécylénique et de ses homologues. Helv. Chim. Acta 10, 113 (1927).CrossRefGoogle Scholar
  70. 53.
    -, et I. Hauser: Sur les acides oxy-methylene-carboniques de 8 à 21 carbons. Helv. Chim. Acta 12, 463 (1929).CrossRefGoogle Scholar
  71. 54.
    Clutterbuck, P. W., H. Raistrick and Rintoul: Isolation of the lactone of γ-hydroxy, β, δ-dicarboxy-pentadecanoic acid. Trans. Roy. Soc. London [B] 220, 300 (1931).Google Scholar
  72. 55.
    Clarkson, C. E., and T. Malkin: Alternation in long-chain compounds; X-ray and thermal investigation of triglycerides. J. chem. Soc. 1934, 666.Google Scholar
  73. 56.
    Cole, H. J., and H. D. Cardoso: Alepric, aleprylic, alepristic and aleprolic acids, homologs of chaulmoogric acid. J. Amer. chem. Soc. 61, 2349, 3442 (1939).CrossRefGoogle Scholar
  74. 57.
    Colland, C.: Synthèse d'un acide oxy-16-hexadécène-6-oique et de sa lactone. Helv. Chim. Acta 25, 965 (1942).CrossRefGoogle Scholar
  75. 57a.
    Craig, L. C.: Counter-current distribution and some of its applications. Fortschr. chem. Forsch. 1, 309 (1949).Google Scholar
  76. 57b.
    Cremer, H. D., u. H. Schuhler: Tetrahydrofuran als Lösungsmittel für Fette und Lipoide. Biochem. Z. 320, 112 (1949).Google Scholar
  77. 57c.
    Dann, O.: Anlagerung von Brom an Octatriensäure. Ber. dtsch. chem. Ges. 80, 427 (1947).Google Scholar
  78. 57d.
    Dauben, W. G.: Synthesis of palmitic acid labeled with C14. J. Amer. chem. Soc. 70, 1376 (1948).CrossRefGoogle Scholar
  79. 57e.
    Daubert, B. F., and C. G. King: The relative stability of aromatic and aliphatic monoglycerides. J. Amer. chem. Soc. 60, 3003 (1938).CrossRefGoogle Scholar
  80. 58.
    : Preparation of α, β-diglycerides of fatty acids. J. Amer. chem. Soc. 61, 3328 (1939).CrossRefGoogle Scholar
  81. 59.
    : Synthetic fatty acid glycerides of known constitution (Referat). Chem. Reviews 29, 269 (1941).CrossRefGoogle Scholar
  82. 60.
    -, H. H. Fricke and H. E. Longenecker: Unsymmetrical mono-oleodisaturated triglycerides. J. Amer. chem. Soc. 65, 2142 (1943).CrossRefGoogle Scholar
  83. 61.
    -, C. J. Spiegel and H. E. Longenecker: Unsymmetrical di-oleo-monosaturated triglycerides. J. Amer. chem. Soc. 65, 2144 (1943).CrossRefGoogle Scholar
  84. 62.
    -, and A. R. Baldwin: Unsymmetrical mixed triglycerides containing linoleic acid. J. Amer. chem. Soc. 66, 1507 (1944).CrossRefGoogle Scholar
  85. 63.
    -, and H. E. Longenecker: Unsaturated symmetrical mixed diglycerides. J. Amer. chem. Soc. 66, 53, (1944).CrossRefGoogle Scholar
  86. 64.
    Daubert, B. F., and A. E. Baldwin: Synthetic 1-monoglycerides and simple triglycerides of linoleic and linolenic acids. J. Amer. chem. Soc. 66, 997 (1944).CrossRefGoogle Scholar
  87. 65.
    -, and T. H. Clarke: Polymorphism of synthetic glycerides (Referat). Oil a. Soap 22, 113 (1945).CrossRefGoogle Scholar
  88. 66.
    Davies, L. A., and R. Adams: Synthesis of 11-hydroxypentadecanoic and 11-hydroxy-hexadecanoic acid. J. Amer. chem. Soc. 50, 1749 (1928).CrossRefGoogle Scholar
  89. 67.
    Desnuelle, P., et M. Naudet: Transesterification entre triglycerides. Bull. Soc. chim. France Mém. (5) 13, 90, 595 (1946).Google Scholar
  90. 68.
    Dikman, E.: Synthesis of branched fatty acids. Rev. Fac. Sci. Univ. Istanbul (1950).Google Scholar
  91. 69.
    Dolby, D. E., L. C. A. Nunn and I. Smedley-McLean: The constitution of arachidonic acid; prel. communication. Biochem. J. 34, 1422 (1940).Google Scholar
  92. 70.
    English, J. Jr., J. Bonner and A. J. Hagen-Smith: The wound hormones of plants; isolation of a crystalline active substance. Proc. Nat. Acad. Sci. U.S.A. 25, 323, (1939). — Science 90, 329 (1939).CrossRefGoogle Scholar
  93. 71.
    -, and J. D. Gregory: Performic acid hydroxylation of α, β-unsaturated acids and esters. J. Amer. chem. Soc. 69, 2120 (1947).CrossRefGoogle Scholar
  94. 71a.
    Fairbairn, D.: Free fatty acids in animal tissues. J. biol. Chem. 157, 645 (1945).Google Scholar
  95. 72.
    Fairbourne, A., and G. W. Cowdrey: Partial esterification of polyhydric alcohols; unreliability of proofs of structure of disubstituted glycerols. J. chem. Soc. 1929, 129.Google Scholar
  96. 73.
    Farmer, E. H., and E. Sunderland: Highly unsaturated compounds; 4; A triene acid from the seeds of pomegranates. J. chem. Soc. 1936, 1809.Google Scholar
  97. 74.
    Fieser, L. F., and J. Szmuszkovicz: Synthesis of keto acids by chromic anhydride oxydation of tertiary alcohols. J. Amer. chem. Soc. 70, 3352 (1948).CrossRefGoogle Scholar
  98. 75.
    Filer, L. J., S. S. Sidhu, B. F., Daubert and H. E. Longenecker: X-Ray investigation of glycerides; 3, Diffraction analysis of symmetrical monooleyl-disaturated triglycerides. J. Amer. chem. Soc. 68, 168 (1946).CrossRefGoogle Scholar
  99. 76.
    X-Ray investigation of glycerides: Isomeric monoglycerides. J. Amer. chem. Soc. 66, 1333 (1944); 67, 2085 (1945); 68, 167 (1946).CrossRefGoogle Scholar
  100. 77.
    Fischer, E.: Acylwanderung bei Glyceriden. Ber. dtsch. chem. Ges. 53, 1621 (1920).CrossRefGoogle Scholar
  101. 78.
    Flaschenträger, B.: Verhalten von Dicarbonsäure und Sebamidsäure im Tierkörper. Hoppe-Seylers Z. physiol. Chem. 159, 297 (1926).Google Scholar
  102. 78a.
    Flössner, O.: Synthetische Fette, Beiträge zur Ernährungsphysiologie. Leipzig: Johann Ambrosius Barth, 1948.Google Scholar
  103. 79.
    Folch, K.: The isolation of phosphatidyl serine from brain cephaline. J. biol. Chem. 139, 973 (1941); 146, 35 (1942).Google Scholar
  104. 80.
    Folch-Pi, J., and W. M. Sperry: Chemistry of the lipids, Referat. Annual Rev. Biochem. 17, 147 (1948).CrossRefGoogle Scholar
  105. 81.
    Fordyce, C. R., and J. R. Johnson: Branched chain aliphatic acids, isomyristic, isopalmitic, isostearic acids. J. Amer. chem. Soc. 55, 3368 (1933).CrossRefGoogle Scholar
  106. 82.
    Foreman, H. D., and I. B. Brown: Solubilities of fatty acids in organic solvents at low temperatures. Oil and Soap 21, 183 (1944).CrossRefGoogle Scholar
  107. 83.
    Francis, F., A. M. King and J. A. Willis: Long chain fatty acids. J. chem. Soc. 1937, 999.Google Scholar
  108. 84.
    -, and S. H. Piper: High aliphatic fatty acids and their methyl and ethylesters. J. Amer. chem. Soc. 61, 577 (1939).CrossRefGoogle Scholar
  109. 85.
    Gilman, H., and G. M. Ford: Derivatives of high molecular fatty acids. Jowa State Coll. J. Sci. 13, 135 (1939).Google Scholar
  110. 86.
    Goldsmith, H. A.: Polyhydric alcohol esters of fatty acids, their preparation, properties and uses (Referat). Chem. Reviews 33, 257 (1943).CrossRefGoogle Scholar
  111. 87.
    Greer, C. M., and R. Adams: Bactericidal properties of branched pentadecanoic, heptadecanoic, nonadecanoic acids. J. Amer. chem. Soc. 52, 2540 (1930).CrossRefGoogle Scholar
  112. 88.
    Grondal, B. J., and D. A. Rogers: Melting curves of binary fatty acid mixtures. Oil and Soap 21, 303 (1944).CrossRefGoogle Scholar
  113. 89.
    Groot, E. H., A. Kentie et H. W. Knol: Sur l'acide vaccénique. Rec. Trav. chim. Pays-Bas 66, 633 (1947).CrossRefGoogle Scholar
  114. 90.
    Grün, A., u. P. Schacht: Synthese symmetrischer Glyceride. Ber. dtsch. chem. Ges. 40, 1778 (1907).CrossRefGoogle Scholar
  115. 91.
    -, u. E. Theimer: Unsymmetrische Glyceride. Ber. dtsch. chem. Ges. 40, 1792 (1907).CrossRefGoogle Scholar
  116. 92.
    -, u. A. Skopnik: Synthese der dreifach gemischten Glyceride. Ber. dtsch. chem. Ges. 42, 3750 (1909).CrossRefGoogle Scholar
  117. 93.
    -: Umesterungen von Glyceriden und ihre technischen Anwendungen. Z. angew. Chem. 38, 827 (1925).CrossRefGoogle Scholar
  118. 94.
    -, u. R. Limpächer: Acetonierung mehrwertiger Alkohole. Ber. dtsch. chem. Ges. 59, 695 (1926).CrossRefGoogle Scholar
  119. 95.
    Haller, A., Bauer: Synthèses avec l'aide de NaNH2. Ann. Chim. (9) 1, 15 (1914).Google Scholar
  120. 96.
    Helferich, B., u. H. Sieber: Synthese partiell acylierter Glyceride. Hoppe-Seylers Z. physiol. Chem. 175, 31, 311 (1928).Google Scholar
  121. 97.
    Hibbert, H., and N. M. Carter: The wandering of acyl groups in glycerol esters. J. Amer. chem. Soc. 51, 1601 (1929).CrossRefGoogle Scholar
  122. 98.
    Hilditch, T. P., L. M. Meara and Y. A. H. Zaky: Component fatty acids of sterculia foetida seed fats. J. Soc. chem. Ind. 60, 198 (1941).CrossRefGoogle Scholar
  123. 99.
    -: The chemical constitution of natural fats. London: Chapman & Hall 1949.Google Scholar
  124. 100.
    -, and L. M. Meara: Constitution of natural triglycerides. J. Soc. chem. Ind. 61, 117 (1942).CrossRefGoogle Scholar
  125. 101.
    -, and I. Riley: Ultra-violett spectroscopy of highly unsaturated fatty acids. Analyst 70, 68 (1945).CrossRefGoogle Scholar
  126. 101a.
    Hilditch, T. P., Recent advances in the Study of Component Acids and Component Glycerides of Natural Fats. In Fortschritte der Chemie organischer Naturstoffe (Zechmeister) Bd. 5, S. 72–100. Wien 1948.Google Scholar
  127. 101b.
    Holman, R. T., and L. Hagdahl: Displacement analysis of lipides. Arch. Biochem. 17, 301 (1948).Google Scholar
  128. 102.
    Holmes, H., R. E. Corbet, W. B. Geiger, N. Kornblum and W. Alexander: Isolation of batyl alkohol from yellow bone marrow. J. Amer. chem. Soc. 63, 2607 (1941).CrossRefGoogle Scholar
  129. 102a.
    Hopkins, C. Y.: Fatty acids of hare's ear mustard seed oil. Canad. J. Research. [B] 24, 211 (1946).Google Scholar
  130. 103.
    Houston, D. F.: γ-Palmito-lactone and γ-hydroxy-palmitic acid. J. Amer. chem. Soc. 69, 517 (1947).CrossRefGoogle Scholar
  131. 104.
    Hunter, J. R., R. L. Roberts and E. B. Kester: Dimyristo-and crucostearo cephalin. J. Amer. chem. Soc. 70, 3246 (1948).Google Scholar
  132. 104a.
    Jacobson, M.: The structure of pellitorin. J. Amer. chem. Soc. 71, 366 (1949).CrossRefGoogle Scholar
  133. 104b.
    -Herculin, a pungent insecticidal. J. Amer. chem. Soc. 70, 4234 (1948).CrossRefGoogle Scholar
  134. 105.
    Jackson, D. T., and C. G. King: Synthetic glycerides, esters of aromatic and aliphatic acids. J. Amer. chem. Soc. 55, 678 (1933).CrossRefGoogle Scholar
  135. 106.
    Jackson, F. L., B. F. Daubert, C. G. King and H. Longenecker: Symmetrical mono-oleo-disaturated triglycerides. J. Amer. chem. Soc., 66, 289 (1944).CrossRefGoogle Scholar
  136. 106a.
    Jones, M. E., F. C. Koch, A. E. Heath and P. L. Munson: Isolation of α-mono-palmitin from hog pancreas. J. biol. Chem. 181, 755 (1949).Google Scholar
  137. 106b.
    Kapp, R., and A. Knoll: Synthesis of Δ16, 17-und Δ16, 17-octadecenoic acid. J. Amer. chem. Soc. 65, 2062 (1943).CrossRefGoogle Scholar
  138. 106c.
    Karrer, P., u. H. Koenig: Beitrag zur Kenntnis der essentiellen Fettsäuren. Helv. Chim. Acta 26, 619 (1943).CrossRefGoogle Scholar
  139. 107.
    Kaufmann, H. P., J. Baltes u. S. Funke: Konstitution der Parinarsäure. Fette u. Seifen 45, 302 (1938).CrossRefGoogle Scholar
  140. 107a.
    -, Umsetzung von Tetranitromethan mit Fettsäuren und Fetten. Ber. dtsch. chem. Ges. 75, 1201 (1942).CrossRefGoogle Scholar
  141. 108.
    -, u. M. Keller: Vorkommen von Parinarsäuren. Ber. dtsch. chem. Ges. 81, 152 (1948).Google Scholar
  142. 109.
    -, Konjugiert ungesättigte Fettsäuren in Naturstoffen. Ber. dtsch. chem. Ges. 81, 159 (1948).Google Scholar
  143. 109a.
    -, u. R. Berger: Die Rolle des Sauerstoffs bei der Bildung von Ölfilmen. Angew. Chem. 62, 41 (1950).Google Scholar
  144. 110.
    Keil, W.: Zur Kenntnis der Fette aus Fettsäuren mit ungerader Kohlenstoffzahl. Hoppe-Seylers Z. physiol. Chem. 274, 175 (1942); 276, 26 (1944); 282, 137 (1947).Google Scholar
  145. 111.
    Kenyon, R. L., S. W. Gloyer and C. C. Georgian: Selective extraction of vegetable oils with furfural. Ind. Engng. Chem. 40, 1162 (1948).CrossRefGoogle Scholar
  146. 111a.
    Kerschbaum: Über Lactone mit großen Ringen. Ber. dtsch. chem. Ges. 60, 903 (1927).Google Scholar
  147. 112.
    Keskin, H.: Synthesis of chloral methylketones and keto fatty acids. Rev. Fac. Sci. Univ. Istanbul, [A] 15 1 (1950).Google Scholar
  148. 113.
    King, A. M., and W. E. Garner: Heat of crystallisation of methyl and ethylesters of fatty acids. J. chem. Soc. 1936, 1368.Google Scholar
  149. 114.
    Kleinzeller, A.: Synthesis of lipids (Referat). Advances Enzymol. 8, 299 (1948).Google Scholar
  150. 115.
    Klenk, E.: Über die Cerebroside des Gehirns. Hoppe-Seylers Z. physiol. Chem. 166, 268 (1927).Google Scholar
  151. 115a.
    -, u. L. Clarenz: Über Cerebronsäure. Hoppe-Seylers Z. physiol. Chem. 257, 268 (1939).Google Scholar
  152. 116.
    -, u. R. Sakai: Inosit-monophosphorsäure, ein Spaltprodukt der Sojabohnenphosphatide. Hoppe-Seylers Z. physiol. Chem. 258, 33 (1939).Google Scholar
  153. 117.
    -: Über Ganglioside, eine neue Gruppe von zuckerhaltigen Gehirnlipoiden. Hoppe-Seylers Z. physiol. Chem. 273, 76 (1942).Google Scholar
  154. 117a.
    Klenk, E.: Neuraminsäure. Hoppe-Seylers Z. physiol. Chem. 268, 50 (1941); 282, 84 (1947).Google Scholar
  155. 118.
    -, u. F. Rennkamp: Über Reindarstellung von Sphingomyclin aus Gehirn. Hoppe-Seylers Z. physiol. Chem. 267, 145 (1940).Google Scholar
  156. 118a.
    Kraut, H., A. Weischer u. R. Hügel: Verträglichkeit von synthetischem Fett. Biochem. Z. 318, 472 (1948).Google Scholar
  157. 118b.
    Kuhn, R., Ch. Grundmann, u. H. Trischmann: Synthese der Stearinsäure. Hoppe-Seylers Z. physiol. Chem. 248, IV (1937).Google Scholar
  158. 119.
    Laser, H., and E. Friedmann: Crystalline haemolytic substance from normal blood. Nature 156, 507 (1945).CrossRefGoogle Scholar
  159. 120.
    Lehninger, A. L.: Synthesis and properties of the acyl phosphates of some higher fatty acids. J. biol. Chem. 162, 333 (1946).Google Scholar
  160. 120a.
    -: Lipid metabolism (Referat). Annual Rev. Biochem. 18, 191 (1949).CrossRefGoogle Scholar
  161. 121.
    Lennartz, Th.: Chemikerztg. 69 (1945).Google Scholar
  162. 122.
    -Synthese aliphatischer Verbindungen (Referat). Angew. Chem. 59, 10, 49, 10 (1947).CrossRefGoogle Scholar
  163. 122a.
    Lesuk, A., and R. I. Anderson: Chemical Composition of Cysticersus Fasciolaris. J. biol. Chem. 139, 457 (1941).Google Scholar
  164. 123.
    Leupold, F.: Oleinaldehyd aus Acetylphosphatiden. Hoppe-Seylers Z. physiol. Chem., 1950 im Druck.Google Scholar
  165. 124.
    Longenecker, H. E.: Composition and structural characteristics of glycerides in relation to classification and environment (Referat). Chem. Reviews 29, 201 (1941).CrossRefGoogle Scholar
  166. 124a.
    Lovern, J. A.: Chemistry of the lipids (Referat). Annual. Rev. Biochem. 18, 97 (1949).CrossRefGoogle Scholar
  167. 125.
    Lutton, E. S.: Identity and polyphormism of oleyl-distearin from kokumbutter. J. Amer. chem. Soc. 68, 676 (1946).CrossRefGoogle Scholar
  168. 126.
    -Triple chain length structures of saturated triglycerides. J. Amer. chem. Soc. 70, 248 (1948).CrossRefGoogle Scholar
  169. 127.
    Macheboeuf, M. A., et L. Dizerbo: Méthode simplifiée d'obtention des cénapses lipidoprotéidiques acidoprécipitables du sérum. C. R. Séances Soc. Biol. 132, 268, 272 (1939).Google Scholar
  170. 128.
    -, et F. Tayeau: Action des savons et de l'ether sur les cénapses lipido-protéidiques contenues dans les fractions protéidiques du sérum. Bull. Soc. Chim. biol. 23, 49 (1941).Google Scholar
  171. 129.
    Malkin, T., M. R. El Shurbagy and M. L. Meara: X-ray and thermal examination of glycerides; 3, The α, γ-di-glycerides. J. chem. Soc. 1937, 1409.Google Scholar
  172. 130.
    Malkin, T., and M. L. Meara: X-ray and thermal examination of the glycerides: 6, Symmetrical mixed triglycerides. J. chem. Soc. 1939, 1141.Google Scholar
  173. 131.
    Marie, T.: Sur les acides cérotinique et melissinique. Ann. Chim. Phys. [7], 7, 145 (1896).Google Scholar
  174. 132.
    Markley, K. S.: Fatty acids. New York: Intersc. Publishers 1947.Google Scholar
  175. 133.
    McElroy, O. E., and C. G. King: Synthetic glycerides, mixed triglycerides of the di-laurin-series. J. Amer. chem. Soc. 56, 1191 (1934).CrossRefGoogle Scholar
  176. 134.
    Mitter, P. C., M. C. Sen Gupta and A. Bose: Long chain acids, 6, Aleuritic acid. J. Indian chem. Soc. 21, 295 (1944).Google Scholar
  177. 135.
    Millican, M., and I. Brown: Isolation and properties of some naturally occuring octadecenoic acids. J. biol. Chem. 154, 437 (1944).Google Scholar
  178. 136.
    Morell, R. S., and W. R. Davis: The doubly conjugated system in α-and β-licanic acids. J. chem. Soc. 1936, 1481.Google Scholar
  179. 137.
    Morton, I. D., and A. R. Todd: Some branched fatty acids. J. chem. Soc. 1950.Google Scholar
  180. 138.
    Morton, I. D., A. R. Todd, and H. Laser: Hämolytic acid of blood. Abst. I. Intern. Congress of Biochem. Cambridge 1949. — J. chem. Soc. 1950.Google Scholar
  181. 139.
    Moses, C. G., and E. F. Reid: Para-halogen-phenacyl-esters of the normal fatty acids. J. Amer. chem. Soc. 54, 2101 (1932).CrossRefGoogle Scholar
  182. 140.
    Movry, D. T., W. R. Brode and I. B. Brown: A spectroscopic study of methyl arachidonate and its alkali isomerisation and oxydation products. J. biol. Chem. 142, 671, 679 (1942).Google Scholar
  183. 141.
    Nacarov, I. N., and S. S. Bakhmutskaya: Hydrierung und Cyclisation von 4,7-Dimethyl-3,7-decadien-5-in. J. Gen. Chem. (U.S.S.R.) 18, 1077, (1948).—Nacarov, I. N., Chem. Abstracts 43, 1333 (1949).Google Scholar
  184. 141a.
    Nolte, F.: γ-Ketofettsäuren. Angew. Chem. 59, 24 (1947) und persönl. Mitteilung.Google Scholar
  185. 141b.
    Nord, F. F., J. V. Fiore, G. Kreitman and S. Weiss: Interaction of Solanion in the carbohydrate-fat conversion by Fusaria. Arch. Biochem. 23, 481 (1949).Google Scholar
  186. 142.
    Norris, F. A., and K. F. Mattil: Interesterification reactions of triglycerides. Oil and Soap 23, 289 (1946).CrossRefGoogle Scholar
  187. 143.
    Ölwerke Germania, W. Normann DRP 417215, September 1925.Google Scholar
  188. 144.
    Pangborn, M. C.: Cardiolipin, a new phospho-lipoid from heart. Proc. Soc. exper. Biol. Med. 48, 484 (1941).Google Scholar
  189. 145.
    Paraskova, V.: Reaction d'ethylbromure de magnesium sur le bisdiethylamid de l'acide sebacinique. C. R. hebd. Séances Acad. Sci. 198, 1701 (1934).Google Scholar
  190. 146.
    Perrotte, R.: L'acide ricinolique et 12-keto-stéarique. C. R. hebd. Séances Acad. Sci. 199, 358 (1934).Google Scholar
  191. 147.
    Piskur, M. M.: Annual Review of literature on fats, oils and soaps (Referat). Oil and Soap 23, 113, 151 (1946).—Piskur, M. M.: J. Amer. Oil chem. Soc. (im Druck).CrossRefGoogle Scholar
  192. 147a.
    Pitzer, K. S., and J. E. Kilpatrik: The entropies and related properties of branched paraffin hydrocarbons. Chem. Reviews. 39, 435 (1946).CrossRefGoogle Scholar
  193. 148.
    Polgar, N., and R. Robinson: Synthetical experiments bearing on the constitution of phthioic acid. J. chem. Soc. 1945, 389.Google Scholar
  194. 149.
    Prelog, V., u. H. Beyermann: Isolierung von Chimyl-alkohol (d-Hexadecyl-glyceryl-äther) aus Schweinemilz. Helv. Chim. Acta 28, 350 (1945).CrossRefGoogle Scholar
  195. 150.
    Prigge, R.: In Naturforschung und Med. in Deutschland. Fiat-Ber., Chemotherapie, 43, 203.Google Scholar
  196. 151.
    Prout, F. S., J. Cason and A. W. Ingersoll: The synthesis of tuberculostearic acid. J. Amer. chem. Soc. 69, 1233 (1947).CrossRefGoogle Scholar
  197. 152.
    : Branched chain fatty acids (5), Synthesis of optically active 10-methyl-octadecanoic acid. J. Amer. chem. Soc. 70, 298 (1948).CrossRefGoogle Scholar
  198. 153.
    : Branched chain fatty Acids, (8), Acids containing a 3-pentyl symmetrical endgrouping. J. org. Chemistry 14, 132 (1949).CrossRefGoogle Scholar
  199. 154.
    Ralston, A. W., C. W. Hoerr and W. O. Pool: Solubilities of normal aliphatic amides, anilides and N1N-diphenylamides. J. org. Chemistry 8, 473 (1943).CrossRefGoogle Scholar
  200. 155.
    Ralston, A. W., and M. R. McCorkle: 4,4-Diamino-diphenyl-methan as a reagent for identification of monobasic acids. J. Amer. chem. Soc. 61, 1604 (1939).CrossRefGoogle Scholar
  201. 156.
    -Fatty acids and their derivatives. New York: John Wiley sons 1948.Google Scholar
  202. 156a.
    Reichstein, T.: Über Cortin, das Hormon der Nebennierenrinde. Helv. Chim. Acta 19, 63 (1936).Google Scholar
  203. 157.
    Renfraw, B. jr., and G. B. Walker: Preparation of ketones from α, α-disubstituted acetoacetic esters. J. Amer. chem. Soc., 70, 3957 (1948).CrossRefGoogle Scholar
  204. 157a.
    Rennkamp, F.: Über Sphingomyelin. Hoppe-Seylers Z. physiol. Chem. 1950.Google Scholar
  205. 158.
    Riemenschneider, R. W., F. E. Luddy, M. L. Swain and W. C. Ault: Fractionation of lard and tallow by systematic crystallisation. Oil and Soap 23, 276 (1946).CrossRefGoogle Scholar
  206. 159.
    Robinson, G. M., and R. Robinson: Synthesis of higher aliphatic compounds; (1), Synthesis of lactarinic acid and oleic acid. J. chem. Soc. 1925, 175.Google Scholar
  207. 160.
    Robinson, G. M., and R. Robinson: Synthesis of higher aliphatic compounds; (2) The hydration of stearolic acid. J. chem. Soc. 1926, 2204.Google Scholar
  208. 161.
    Robinson, G. M., and R. Robinson: Synthesis of higher aliphatic compounds; (3), Variation of the keto acid synthesis, method for the extension of normal carbon chains. J. chem. Soc. 1930, 745.Google Scholar
  209. 162.
    Robinson, G. M., and R. Robinson: Synthesis of higher aliphatic compounds; (4), Synthesis of n-triacontanic acid from stearic acid. J. chem. Soc. 1934, 1543.Google Scholar
  210. 163.
    -, I. N. Roche and C. G. King: Synthetic glycerides; (3) Mixed triglycerides of the di-stearin series. J. Amer. chem. Soc. 54, 705 (1932).CrossRefGoogle Scholar
  211. 163a.
    Roe, E. T., J. T. Scanlan and D. Swern: Fatty acid amides. J. Amer. chem. Soc. 71, 2215 (1949).CrossRefGoogle Scholar
  212. 164.
    Rose, W. G.: Synthesis of cephaline. J. Amer. chem. Soc. 69, 1384 (1947).CrossRefGoogle Scholar
  213. 165.
    Rothman, S., A. M. Smiljanic and A. L. Shapiro: Fungistatic action of hair fat on Microsporon Andouini. Proc. Soc. exper. Biol. Med. 60, 394 (1945).Google Scholar
  214. 166.
    Schinz, H., u. M. Hinder: Darstellung und Eigenschaften verschiedener α-Keto-γ-lactone. Helv. Chim. Acta 30, 1349 (1947).CrossRefGoogle Scholar
  215. 166a.
    Schmidt, G. A., and D. A. Shirley: New synthesis of tuberculostearic acid. J. Amer. chem. Soc. 71, 3804 (1949).CrossRefGoogle Scholar
  216. 167.
    Schneider, A. K., and M. A. Spielmann: The synthesis of some methylated fatty acids. J. biol. Chem. 142, 345 (1942).Google Scholar
  217. 168.
    Schuette, H. A., and H. A. Vogel: Solidification points of binary mixtures of fatty acids. Oil and Soap 16, 209 (1939); 17, 155 (1940); 22, 238 (1945).CrossRefGoogle Scholar
  218. 168a.
    Schulte, K. E., W. Weisskopf u. I. Kirschner: α-Alkylölsäuren. Ber. dtsch. chem. Ges. 1950.Google Scholar
  219. 169.
    -, Beitrag zur Chemie verzweigtkettiger Fettsäuren. Angew. Chem. 62, 39 (1950).Google Scholar
  220. 169a.
    Schuwirth, K.: Serin als Glycerinphosphatid-bestandteil. Hoppe-Seylers Z. physiol. Chem. 277, 87 (1942).Google Scholar
  221. 169b.
    -Apparat zur fraktion. Vakuumdestillation. Hoppe-Seylers Z. physiol. Chem. 277, 147 (1943).Google Scholar
  222. 170.
    Sidhu, S. S., and B. F. Daubert: X-Ray investigation of glycerides; (4), Diffraction analysis of 1-mono-arachin. J. Amer. chem. Soc. 68, 1975 (1946).CrossRefGoogle Scholar
  223. 171.
    Smith, I. C.: Higher aliphatic compounds; (8). Binary systems from oleic, elaidic, palmitic and stearic acids. J. chem. Soc. 1939, 974.Google Scholar
  224. 172.
    Smith I. C.: Higher aliphatic compounds; (6), Existence of compounds in binary systems of fatty acids. J. chem. Soc. 1936, 625.Google Scholar
  225. 173.
    -, Smith F. A., and I. B. Brown: The fatty acids of menhaden oil; separation of methyl esters. Oil and Soap 22, 321 (1945).CrossRefGoogle Scholar
  226. 173a.
    Sörensen N. A., and J. Mehlum: The unsaponifiable matter of the liver of the shark. Acta Chem. Scand. 2, 140 (1948).CrossRefGoogle Scholar
  227. 174.
    Sperber N., D. Papa and E. Schwenk: Trialkyl acetic acids as antispasmodic agents. J. Amer. chem. Soc., 70, 3091 (1948).CrossRefGoogle Scholar
  228. 174a.
    Ställberg-Stenhagen, S.: The synthesis of 15-Methyl-heptadecanoic acid. Ark. Kem. Mineral. Geol [A] 19, No. 28, 9 (1945).Google Scholar
  229. 174b.
    -: Branched long chain compounds. Ark. Kem. Mineral. Geol. [A] 22, No. 19, 11 (1946).Google Scholar
  230. 174c.
    -: Synthesis of (+)2-methyl-dodecanoic and (+) 2-methyl-hexacosanoic acid. Ark. Kem. Mineral. Geol. [A] 23, No. 15, 14 (1946).Google Scholar
  231. 174d.
    -, N. Sheppard, G. Sutherland and A. Walsh: Infrared spectrum and constitution of phthioceran. Nature 160, 580 (1947).CrossRefGoogle Scholar
  232. 175.
    -: Synthesis of 1(+) 10-methyl-stearic acid. Ark. Kem. Mineral. Geol. [A] 26, No 12, 28 (1948).Google Scholar
  233. 175a.
    -: Synthesis of d(+) and 1(−)-3-Methyl-tetracosanic acids. Ark. Kem. Mineral. Geol. [A] 26, 1 (1948).Google Scholar
  234. 176.
    -: Degradation of d(+) 3-methyl-heptacosanic acid to d(−)2-methyl-hexacosanic acid. Ark. Kem., 1, 153 (1949).Google Scholar
  235. 177.
    -: Synthesis of the dextrarotary diastereoisomers of 2,9-dimethyl-tetracosanic acid. Ark. Kem., 1, 187 (1949).Google Scholar
  236. 177a.
    Ställberg-Stenhagen, S.: Optically active 21-methyl fatty acids. Ark. Kem., Mineral. Geol. [A] 1950.Google Scholar
  237. 178.
    Stanley, W. M., M. S. Jay and R. Adams: Preparation of branched octadecanoic acids and their bactericidal action. J. Amer. chem. Soc. 51, 1261 (1929).CrossRefGoogle Scholar
  238. 179.
    Steger, A., u. I. van Loon: Das fette Öl der Samen von Ongokea Gore Engler. Fette u. Seifen 44, 243 (1937).CrossRefGoogle Scholar
  239. 180.
    : Das Fett der Samen von picramnia sow. Rec. Trav. chim. Pays-Bas 52, 593 (1933).CrossRefGoogle Scholar
  240. 180a.
    Stenhagen, E., and B. Tägtström-Eketorp: 16-Methyl-heptadecanoic acid. Ark. Kem. Mineral. Geol. [A] 19, No 8, 10 (1944).Google Scholar
  241. 181.
    : Synthesis of 2-methyl-eicosanic acid and 2-methyl-tetracosanic acid. Svensk. Kem. Tidskr. 54, 145 (1942).Google Scholar
  242. 182.
    -, and S. Ställberg-Stenhagen: Monolayers of compounds with branched hydrocarbon chains. Trans. Faraday Soc. 34, 1328 (1938).—J. biol. Chem. 139, 345 (1941); 148, 685 (1943); 159, 255 (1945).CrossRefGoogle Scholar
  243. 183.
    -: Synthesis of Δ 22,23-tricosynoic, and (21,22)-tricosynoic acid. Ark. Kem., 1, 99 (1949).Google Scholar
  244. 184.
    Stenhagen, E., u. M. Skogh: Synthesis of β-hydroxy fatty acids. Acta Chem. Scand. (1949).Google Scholar
  245. 185.
    Stimmel, B. F., and C. G. King: Preparation and properties of β-monoglycerides. J. Amer. chem. Soc. 56, 1724 (1934).CrossRefGoogle Scholar
  246. 186.
    Tatevosyan, G. T., and M. O. Melikyan: Synthesis of substituted γ-acetyl butyric acids. J. Gen. Chem. (U.S.S.R.) 17, 975 (1974).—Chem. Abstracts 42, 1566 (1948).Google Scholar
  247. 187.
    Taurog, A., C. Entenman and F. Chaikoff: The cholin containing and non choline containing phospholipids of plasma. J. biol. Chem. 156, 385 (1944).Google Scholar
  248. 188.
    Thaler, H., u. G. Geist: Bildung von Methylketonen aus β-Oxyfettsäuren durch Penicillium Glaucum. Biochem. Z. 302, 369 (1939).Google Scholar
  249. 188a.
    Thaler, H., A. Schottmayer, I. Stählin u. H. Beck: Zur Chemie der Ketonranzigkeit. Biochem. Z. 320, 87 (1949).Google Scholar
  250. 188b.
    Thannhauser, S. I., I. Benotti, and H. Reinstein: The determination of lecithin, cephalin and sphingomyelin. J. biol. Chem. 129, 709 (1939).Google Scholar
  251. 189.
    and N. F. Boncotto: Isolation and properties of dipalmityl-lecithin from lung. J. biol. Chem. 166, 669, 677 (1946).Google Scholar
  252. 190.
    Thomas, K., u. G. Weitzel: Eignung des Kunstfettes aus Kohle als Nahrungsmittel. Dtsch. med. Wschr. 1946, 18.Google Scholar
  253. 191.
    : Fette und Fettstoffwechsel (Referat). Naturforschung und Medizin in Deutschland. Fiat-Ber. 39, 1 (1947).Google Scholar
  254. 192.
    Timmermanns: Les points de fusion des acides gras et des paraffins substitués. Bull. Soc. chim. Belgique 28, 392 (1914).Google Scholar
  255. 193.
    Toyama, Y., Tsujimoto and E. Tsuchija: Ungesättigte Fettsäuren der Fischöle. J. chem. Soc. Japan 10, 192, 232, 539 (1935).CrossRefGoogle Scholar
  256. 194.
    Treibs, W.: Über Lebertranfettsäuren. Pharmazie 1949.Google Scholar
  257. 194a.
    -: Über Oxo-cyclo-tautomerie bei der monomeren Autoxydation der Eläostearinsäureester. Ber. dtsch. chem. Ges. 80, 423, (1947).Google Scholar
  258. 195.
    Tulus, R.: Synthese von α, β-ungesättigten Fettsäuren. Rev. Fac. Sci. Univ. Istanbul [A] 9, 105 (1944).Google Scholar
  259. 196.
    Ungar, J., C. E. Coulthart and L. Dickinson: Pathogenic effect of phthioic acid. Brit. J. exp. Path. 29, 322 (1948).Google Scholar
  260. 197.
    Velik, S. F., and R. I. Anderson: Chemistry of Phytomonas tumefaciens. J. biol. Chem. 152, 523, 533 (1944).Google Scholar
  261. 198.
    -, and J. English jr.: Synthesis and configuration of d-14-Methyl-palmitic acid. J. biol. Chem. 160, 473 (1945).Google Scholar
  262. 199.
    Verkade, P. E., u. I. van der Lee: Neue Methode für die Synthese von Glyceriden. Proc. Acad. Sci. Amsterdam 37, 812 (1934).Google Scholar
  263. 200.
    e W. Meerburg: Synthese von einsäurigen Diglyceriden mit Hilfe von Trityl-verbindungen. Rec. Trav. chim. Pays-Bas 54, 716 (1935).CrossRefGoogle Scholar
  264. 201.
    : Synthese von zweisäurigen Glyceriden mit Trityl-verbindungen Rec. Trav. chim. Pays-Bas 55, 267 (1936).CrossRefGoogle Scholar
  265. 202.
    et W. Meerburg: Synthese von dreisäurigen Glyceriden mit Hilfe von Trityl-verbindungen. Rec. Trav. chim. Pays-Bas 56, 365, 1613 (1937).CrossRefGoogle Scholar
  266. 203.
    -: Synthese von Glyceriden mit Hilfe von Trityl-verbindungen. Fette u. Seifen 45, 457 (1938).Google Scholar
  267. 204.
    -, W. D. Cohen et A. K. Vorege., Synthese von ein-und zweisäurigen α, β-Diglyceriden mit Hilfe von Trityl-verbindungen. Rec. Trav. chim. Pays-Bas 59, 1123 (1940).CrossRefGoogle Scholar
  268. 205.
    -: Synthesis of glycerides with the aid of trityl compounds; (5), Triacid glycerides with a low melting component acid. Rec. Trav. chim. Pays-Bas 62, 393 (1943).CrossRefGoogle Scholar
  269. 205a.
    Vidijarthi, N. L.: Constitution of the fatty acids of the oil from the seeds of vermonia antihelmintica. Patna Univ. J. 1, 51 (1945).—Chem. Abstracts 40, 4899 (1946).Google Scholar
  270. 206.
    Wagner-Jauregg, Th.: Chemotherapie (Referat). Naturforschung und Medizin in Deutschland. Fiat-Ber. 43, 185.Google Scholar
  271. 207.
    -: Über das Vorkommen des Heptacosans im menschlichen Sperma. Hoppe-Seylers Z. physiol. Chem. 269, 56 (1941).Google Scholar
  272. 208.
    Weitkamp, A.: The acidic constituents of degras; a new method of structure elucidation. J. Amer. chem. Soc. 67, 447 (1945).CrossRefGoogle Scholar
  273. 209.
    Weitkamp, A. M. Smiljanic and S. Rothman: The free fatty acids of human hair fat. J. Amer. chem. Soc. 69, 1936 (1947).CrossRefGoogle Scholar
  274. 210.
    Weitzel, G.: Verzweigte Fettsäuren und Tuberkulose (Referat). Z. angew. Chem. 60, 263 (1948).Google Scholar
  275. 211.
    -, A. Fretzdorf I. Wojahn, W. Savelsberg and K. Thomas: Properties of branched aliphatic acids and their behaviour in the dog. Nature 163, 406 (1949).CrossRefGoogle Scholar
  276. 212.
    : Untersuchungen an einfach methylierten Fettsäuren. Naturwiss. 37, 68 (1950).CrossRefGoogle Scholar
  277. 212a.
    Weitzel, G., u. J. Wojahn: Darstellung homologer d,1-α-Alkyl-stearinsäuren. Hoppe-Seylers Z. physiol. Chem. 285 (1950).Google Scholar
  278. 212b.
    Wertheimer, E., and B. Shapiro: Physiology of adipose tissue. Physiol. Reviews 28, 451 (1948).Google Scholar
  279. 213.
    Wheeler, O. H., R. W. Riemenschneider and C. E. Sando: Preparation and properties of triolein and trilinolein. J. biol. Chem. 132, 687 (1940).Google Scholar
  280. 213a.
    Wilson, C. V.: The mono-methyl-decoic acids. J. Amer. chem. Soc. 67, 2161 (1945).CrossRefGoogle Scholar
  281. 214.
    Wooley, D. W.: Isolation and partial determination of structure of soy bean lipositol, an inosit containing phospholipoid. J. biol. Chem. 147, 581 (1943).Google Scholar
  282. 214a.
    Wieland, Th.: Neue Synthese dialkylierter Brenztraubensäuren. Ber. dtsch. chem. Ges. 81, 314 (1948).Google Scholar
  283. 214b.
    Wintersteiner, O., and J. J. Pfiffner: Chemical studies on adrenal cortex. J. biol. Chem. 116, 304 (1936).Google Scholar
  284. 215.
    Zetzsche, F., u. G. Röttger: Kennzeichnung von Carbonsäuren als Ureide. Ber. dtsch. chem. Ges. 72, 2095 (1939).CrossRefGoogle Scholar

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© Springer-Verlag 1949

Authors and Affiliations

  • F. L. Breusch
    • 1
  1. 1.2 Chemisches Institut der Universität Istanbul(Türkei)

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