Absolute Asymmetrie Synthesis and Asymmetrie Catalysis 167 



REFERENCES 



1. J. H. Van't Hoff, Die Lagerung der Atome im Räume, 3 Aufl. Braunschweig, 1908. 



2. Cf. J. phys. ehem., 20, 412, 1896; J. Amer. chet7i. Soc, 23, 255, 1900^ Ber. dtsch. 



ehem. Ges., 64, 342, 193 1. 



3. S. Goldschmidt & H. C. Cooper, Z. phys. Chem., 26, 714, 1898. 



4. T. S. Patterson & C. Buchanan, J. chem. Soc, p. 290, 1940. 



5. T. S. Patterson & A. H. Lamberton,^. chem. Soc, p. 1453, 1937. 



6. C. Buchanan & S. H. Graham, J. chem. Soc, p. 500, 1950. 



7. E. Schröer, Ber. dtsch. chem. Ges., 65, 966, 1932. 



8. G. Karagunis & P. NikolaidiSj Ko/Z. Z., 106, 112, 1944; Z. angew. Chem., 48, 74, 



276, 1935- 



9. M. Jamison & E. Turner, J. chem. Soc, p. 6x1, 1942. 



IG. A. Stoll & A. Hoffmann, Hoppe-Seyl. Z., 251, 155, 1938. 



u.V. Prelog & V. Geyer, Helv. chim. Acta, 28, 576, 1945; L. Zechmeister, Ann. N.Y. 



Acad. Sei., 49, 220, 1948. H. B. Hass, T. De Vries & H. H. Jaffe, J. Amer. 



chem. Soc, 65, i486, 1943. 



12. H. Fischgold & K. Ammon, Biochem. Z., 234, 39, 193 1. 



13. R. G. Haldeman & P. H. Emmett, J. phys. Chem., 59, 1039, 1955. 



14. R. CuRTi & U. Colombo, J. Amer. chem. Soc, 74, 3961, 1952J A. P. Terent'ev & 



V. M. P0TAPOV, Priroda, 5, 37, 1955. 



15. W. Grubhofer & L. ScHLEiTH, Naturwissenschaften, 40, 508, 1953. 



16. M. Johnson, The selective adsorption of the various types of aminoacids on several 



colloidal adsorbents. Diss., Washington, Catholic Univ. of Amer. Press, 1938. 



17. R. WiLLSTÄTTER, Ber. dtsch. chem. Ges., 37, 3758, 1904. 



18. Cf. J. Amer. chem. Soc, 41, 1264, 1919; 44, 2930, 1922; 45, 1990, 1923; 46, 2032, 



1924; 63, 923, 194^; J. chem. Soc, 127, 1731, 1925; p. 1568, 1939; Nature, 

 Land., 141, 917, 1938; 142, 163, 1938. 



19. F. KÖGL, J. G. F.\BER & Z. C. DeBoer, Rec Trav. chim. Pays-Bas, 69. 482, 1950; 



Expos, ann. Biochim. med., Ii, 19, 1950. 



20. F. Karush,7. phys. Chem., 56, 70, 1952. 



21. F. Krik (Crick), Khimicheskaya Nauka i Promyshlennosf , 1 (4), 472, 1956; D. M. 



Matthews & D. H. Smyth, J. Physiol., 116, 20P, 1952. 



22. H. Marthin & W. Kuhn, Z. Elektrochem., 47, 216, 1941. 



23. W. Bradley & G. C. Easty, J. chem. Soc, p. 499, 1951; p. 1513, 1953; Nature, 



Lond., 173, 312, 1954; Disc. Faraday Soc, 16, 152, 1954. Chem. & Ind., p. 574, 



1954- 



24. G. M. Henderson & H. G. Rule, J. chem. Soc, p. 1568, 1939; Nature, Lond., 141, 



917, 1938; 142, 163, 1938. 



25. V. Prelog & P. Wieland, Helv. chim. acta, 27, 1127, 1944; Refer ativnyi Zhurnal 



(Khimiya), 71826, 1956. 



26. H. Krebs & R. Rasche, Naturwissenschaften, 41, 63, 1954; Z. anorg. ehem., 276, 



236, 1954- 



27. C. E. Dent, Biochem. J., 43, 169, 1948; J. chem. Soc, p. 1679, 1948. 



28. A. Santoro, Chem. Abstr., 48, 44481, 1954. 



29. G. B. Bonino & V. Carassiti, Nature, Lond., 167, 569, 1951; R-C. Accad. Lincei, 9, 



229, 1950. 



30. S. Berlingozzi, g. Serchi & G. Adembri, Sperimentale (Ser. Chim. biol.), 2, 89. 



1951; Chem. Abstr., 46, 9070g, 1952. 



31. H. KOTAKE, T. Sakan, N. Nakamltra & S. Senoh, X Amer. chem. Soc, 73, 7973, 



I95ijj- chem. Soc. Japan, 72, 795, i95i;J. Inst. Polyt., Osaka, Ser. C, 2, 29, 1951; 

 Chetn. Abstr., 7075, 1953 j E. I. Klabunovski ï, PnVorfa (2), 88,1955; S. K. Yatkar 

 & D. S. Sastry, J. Univ. Poona Sei. Technol, 4, 69, 1953; Chem. Abstr., 78, 

 12401, 1954. 



32. P. Burma & B. Banerjee, Sei. & Cult., 15, 363, 1950; Chem. Abstr., 45, 3753, 1951; 



R. Weichert, Acta chem. scand., 8, 1542, 1954; 9, 547, 1955; Z. Naturforsch., 

 7b, 677, 1952; Ark. Kemi, 5, 523, 553, 1953; Hoppe-Seyl. Z., 279, 27, 1943; 281, 

 120, 1944; C. E. Dalgliesh, J. chem. Soc, p. 137, 3940, 1952; Biochem. J., 52, 3, 

 1952; K. Closs, Chem. & Ind., p. 103, 1953; Y. J. Fujisawa, Chem. Abstr., 48, 

 13550C, 1954; M. MasoNjJ. biol. Chem., 195, 515, 1952; J. P. Lambooy,J. Amer. 



