Literature Cited
General
Balston, J. N., andB. E. Talbot. 1952. A guide to filter paper and cellulose powder chromatography. 145 pp.
Bate-Smith, E. C., andR. G. Westall. 1950. Biochim. et Biophys. Acta4: 427–440.
Benson, A. A., et al. 1950. Jour. Amer. Chem. Soc.72: 1710–1718.
Bently, H. R., andJ. K. Whitehead. 1950. Biochem. Jour.46: 341–345.
Block, R. J., et al. 1955. A manual of paper chromatography and paper electrophoresis. 405 pp.
Brimley, R. C., andF. C. Barrett. 1953. Practical chromatography. 128 pp.
Burma, D. P. 1953. Anal. Chem.25: 549–553.
— andB. Banerjee. 1950. Sci. & Cult.15: 363–364.
Cassidy, H. G. 1957.In: Weissberger, A. [ed.] Technique of organic chemistry. Vol. 10. 465 pp.
Clegg, D. L. 1950. Anal. Chem.22: 48–59.
Consden, R., et al. 1944. Biochem. Jour.38: 224–232.
Cornish, R. E., et al. 1934. Ind. & Eng. Chem.26: 397–406.
Craig, L. C. 1944. Jour. Biol. Chem.155: 519–534.
—. 1950. Anal. Chem.22: 1346–1352.
— andO. Post. 1949. Anal. Chem.21: 500–504.
Cramer, F., andL. Richards. 1954. Paper chromatography. 124 pp.
Dalgliesh, C. E. 1952. Jour. Chem. Soc: 137–141.
-. 1952. Jour. Chem. Soc: 3940–3942.
Devey, J. D. 1955. Paper chromatography—A selective bibliography, 1944–1953. Res. Equip. Corp., Oakland, Calif. [1085 Ref.].
England, A., Jr., andE. J. Cohn. 1935. Jour. Amer. Chem. Soc.57: 634–637.
Farradane, J. 1951. Nature167: 120.
Hais, I. M., andK. Macek. 1954. Papirova chromatografie. Nakl. Cesk. Akad. Ved. [Prague] 720 pp.
Hanes, C. S., andF. A. Isherwood. 1949. Nature164: 1107–1112.
Hellmann, H. 1956.In: Paech, K., and M. V. Tracey. [eds.] Modern methods of plant analysis. Vol 1: 127–148.
Horner, L., et al. 1952. Zeits. Elektrochemie56: 187–195.
Isherwood, F. A., andC. S. Hanes. 1953. Biochem. Jour.55: 824–830.
— andM. A. Jermyn. 1951. Biochem. Jour.48: 515–524.
James, A. T., andA.J.P. Martin. 1952. Analyst77: 915–932.
——. 1952. Biochem. Jour.50: 679–690.
Jeanes, A., et al. 1951. Anal. Chem.23: 415–420.
Jermyn, M. A. 1953. Austral. Jour. Biol. Sci.6: 77–97.
Kotake, M., et al. 1951. Jour. Amer. Chem. Soc.73: 2973–2974.
Lederer, M. 1955. An introduction to paper electrophoresis and related methods. 206 pp.
Lederer, E., andM. Lederer. 1957. Chromatography. A review of principles and applications. Sec. ed. 711 pp.
-, et al. 1952. Bull. Soc. Chim. France: 815–910.
Levy, M. F. 1954. Anal. Chem.26: 1849–1850.
Lewis, W. K. 1916. Ind. & Eng. Chem.8: 825–833.
Linskens, H. F. 1955. Papier Chromatographie in der Botanik. 253 pp.
Long, A. G., et al. 1951. Jour. Chem. Soc. 2197–2201.
Martin, A. J. P. 1948. Ann. N. Y. Acad. Sci.49: 249–264.
— 1949. Biochem. Soc. Symp.3: 4–29.
— 1950. Ann. Rev. Biochem.19: 517–542.
— et al. 1954. Brit. Med. Bull.10: 161–250.
— andR. L. M. Synge. 1941. Biochem. Jour.35: 91–121.
——. 1941. Biochem. Jour.35: 1358–1368.
Mason, M., andC. P. Berg. 1952. Jour. Biol. Chem.195: 515–524.
McDonald, H. J. 1955. Ionography: Electrophoresis in stabilized media. 268 pp.
Moore, S., andW. H. Stein. 1948. Ann. N. Y. Acad. Sci.49: 265–278.
——. 1952. Ann. Rev. Biochem.21: 521–546.
Munier, R., et al. 1952. Bull. Soc. Chim. Biol.34: 204–214.
Neuberger, A. 1938. Biochem. Jour.32: 1435–1451.
Paech, K., andM. V. Tracey. 1955. Modern methods of plant analysis. Four Volumes: I, 520 pp.; II, 626 pp.; III, 761 pp.; IV, 785 pp.
Pardee, A. B. 1951. Jour. Biol. Chem.190: 757–762.
Partridge, S. M., andR. G. Westwall. 1948. Biochem. Jour.42: 238–250.
Rao, V. K. M. 1954. Sci. & Ind. Res. [India]13b: 280–285.
Resplandy, A. 1954. Compt. Rend. Acad. Sci. [Paris]238: 2527–2529.
Roberts, E. A. H., andD. J. Wood. 1953. Biochem. Jour.53: 332–336.
Rouser, G., et al. 1956. Jour. Biol. Chem.223: 485–497.
Samuelson, O. 1953. Ion exchangers in analytical chemistry. 291 pp.
Schute, J. B. 1953. Med. Vlaam. Chem. Ver.15: 1–12.
—. 1953. Nature171: 839–840.
—. 1953. Chem. Weekbl.49: 301–305.
Strain, H. H. 1949. Anal. Chem.21: 75–81.
—. 1950. Anal. Chem.22: 41–48.
—. 1951. Anal. Chem.23: 25–38.
—, andG. W. Murphy. 1952. Anal. Chem.24: 50–60.
—, andT R. Sato. 1956. Anal. Chem.28: 687–694.
—, et al. 1954. Anal. Chem.26: 90–100.
Swain, T. 1953. Biochem. Jour.53: 200–208.
Synge, R. L. M. 1939. Biochem. Jour.33: 1913–1917.
—. 1939. Biochem. Jour.33: 1918–1923.
—. 1949. Biochem. Soc. Symp.3: 90–96.
— andA. Tiselius. 1949. Acta Chem. Scand.3: 231–246.
Tiselius, A., et al. 1949. Chromatographic analysis. Faraday Soc. Dis.7: 1–336.
Turba, F. 1954. Chromatographische Methoden in der Protein-Chemie. 358 pp.
Weil, H., andT. I. Williams. 1953. Naturwiss.40: 1–7.
Williams, R. J., andH. Kirby. 1948. Science107: 481–483.
-, et al. 1951. Univ. Texas, Pub. 5109: 1–205.
Williams, R. T., andR. L. M. Synge. 1949. Biochem. Soc. Symp.3: 1–103.
Methods and Materials
Airan, J. W. 1953. Cur. Sci. [India]22: 51.
Ambe, K. S., et al. 1954. Jour. Sci. & Ind. Res. [India]13b: 380–382.
Aronoff, S. 1949. Science110: 590–591.
-. 1956. Techniques of radiobiochemistry. 228 pp.
Auclair, J. L., andR. L. Patton. 1950. Rev. Canad. Biol.9: 3–8.
Banhidi, Z. G., andL. E. Ericson. 1953. Acta Chem. Scand.7: 713–720.
Bate-Smith, E. C. 1948. Nature161: 835–838.
—. 1949. Biochem. Soc. Symp.3: 62–71.
Batt, C. W., andG. N. Kowkabany. 1955. Jour. Chem. Ed.32: 353–354.
Bayly, R. J., et al. 1951. Nature168: 510–511.
Bell, D. J., andA. Palmer. 1949. Jour. Chem. Soc: 2522–2525.
Bennet-Clark, T. A., et al. 1952. Nature169: 452–453.
Benson, A. A. 1950. Brookhaven Conf. Rep. 119–138.
-. 1955.In: Paech, K., and M. V. Tracey [eds.] Modern methods of plant analysis. Vol. 2: 113–144.
— andM. Calvin. 1950. Ann. Rev. Plant Physiol.1: 25–42.
Berry, H. K., andL. Cain. 1949. Arch. Biochem.24: 179–189.
-, et al. 1951. Univ. Texas, Pub. 5109: 22–55.
Blackburn, S., andA. Robson. 1953. Biochem. Jour.54: 295–299.
Blake, G. G. 1955. Chem. & Ind: 701–702.
—. 1956. Anal. Chim. Acta14: 329–335.
Block, R. J. 1950. Anal. Chem.22: 1327–1332.
—. 1951. Arch. Biochem. & Biophys.31: 266–272.
— andD. Bolling. 1950. Arch. Biochem.25: 350–353.
Bogorad, L., andS. Granick. 1953. Jour. Biol. Chem.202: 793–800.
Boissonnas, R. A. 1950. Helv. Chim. Acta33: 1972–1974.
Boldingh, J. 1948. Experientia4: 270–271.
Bonetti, E., andC. E. Dent. 1954. Biochem. Jour.57: 77–81.
Bonino, G. V., andV. Carassiti. 1951. Nature167: 569–570.
Brown, F. 1951. Nature167: 441.
Brush, M. K., et al. 1951. Science113: 4–6.
Bryant, F., andB. T. Overell. 1951. Nature167: 361–362.
Buchanan, J. G., et al. 1950. Jour. Chem. Soc: 3162–3167.
Bull, H. B., et al. 1949. Jour. Amer. Chem. Soc.71: 550–553.
Buras, E. M. Jr., andS. R. Hobart. 1955. Anal. Chem.27: 1507–1508.
Burma, D. P. 1951. Jour. Indian Chem. Soc.28: 631–637.
— andH. C. Chakrabortty. 1955. Anal. Chim. Acta13: 248–252.
Burton, H. S. 1953. Chem. & Ind. 1229–1230.
Burton, R. M., andA. San Pietro. 1954. Arch. Biochem. & Biophys.48: 184–188.
Busch, H., et al. 1952. Jour. Biol. Chem.196: 717–727.
Bush, I. E., andD. A. H. Taylor. 1952. Biochem. Jour.52: 643–648.
Capitani, E. 1952. Boll. Soc. Ital. Biol. Sper.28: 1390–1391.
Cavallini, D., et al. 1949. Nature163: 568–569.
Chu, T. C., et al. 1951. Jour. Biol. Chem.190: 643–646.
Clarke, H. T. 1938.In: Gilman, H. [ed.] Organic Chemistry. Vol. 2: 1079–1165.
Clayton, R. A. 1956. Anal. Chem.28: 904–906.
Cohn, W. E., andC. E. Carter. 1950. Jour. Amer. Chem. Soc.72: 4273–4275.
Comar, C. L. 1955. Radioisotopes in biology and agriculture. Principles and practice. 481 pp.
Connell, G. E., et al. 1955. Canad. Jour. Biochem. & Physiol.33: 416–427.
Consden, R., et al. 1947. Biochem. Jour.41: 590–596.
Cooley, G., et al. 1951. Jour. Pharm. & Pharmacol.3: 271–285.
Counsell, J. N., et al. 1951. Research [London]4: 143–144.
Crombie, W. M. L., et al. 1954. Nature174: 181–182.
—, et al. 1955. Biochem. Jour.59: 309–316.
Crumpler, H. R., andC. E. Dent. 1949. Nature164: 441–442.
Curry, A. S. 1953. Nature171: 1026–1027.
Datta, S. P., et al. 1950. Science112: 621–623.
Dickinson, D., andJ. H. Gawler. 1954. Jour. Sci. Food & Agr.5: 525–529.
Drew, F. D., et al. 1952. Jour. Amer. Chem. Soc.74: 1852–1853.
Duff, R. B. 1953. Chem. & Ind: 898–899.
Duin, H. v. 1952. Biochim. et Biophys. Acta9: 580.
Edstrom, J. E. 1952. Biochim. & Biophys. Acta9: 528–530.
Eggleston, L. V., andR. Hems. 1952. Biochem. Jour.52: 156–160.
Elsden, S. R. 1946. Biochem. Jour.40: 252–256.
—. 1949. Biochem. Soc. Symp.3: 74–82.
Fink, R. M., et al. 1947. Nature160: 801–803.
— andK. Fink. 1948. Science107: 253–254.
Fischbach, H., andJ. Levine. 1955. Science121: 602–603.
Fisher, R. B., et al. 1948. Nature161: 764.
Flood, A. E., et al. 1947. Nature160: 86–87.
-, et al. 1948. Jour. Chem. Soc: 1679–1683.
Forsyth, W. G. C. 1952. Biochem. Jour.51: 511–516.
Fowden, L. 1951. Biochem. Jour.48: 327–333.
—. 1956. Biochem. Jour.64: 323–332.
— andL. R. Penney. 1950. Nature165: 846–847.
Fowler, H. D. 1951. Nature168: 1123–1124.
Frankenburg, W. G., andA. A. Vaitekunas. 1957. Jour. Amer. Chem. Soc.79: 149–151.
Franklin, A. E., andJ. H. Quastel. 1949. Science110: 447–451.
Frierson, W. J., andJ. W. Jones. 1951. Anal. Chem.23: 1447–1452.
Ganguli, N. C. 1954. Naturwiss.41: 282.
Giri, K. V., et al. 1952. Cur. Sci. [India]21: 11–12.
— andA. L. N. Prasad. 1951. Nature168: 786–787.
— andN. A. N. Rao. 1952. Jour. Indian Inst. Sci.34: 95–105.
Glazko, A. J., andW. A. Dill. 1953. Anal. Chem.25: 1782.
Goodall, R. R., andA. A. Levi. 1946. Nature158: 675–676.
——. 1947. Analyst72: 277–290.
Goodban, A. E., et al. 1953. Jour. Agr. & Food Chem.1: 261–264.
Gordon, A. H., et al. 1944. Biochem. Jour.38: 65–68.
Gore, D. N. 1951. Chem. & Ind: 479.
Goulden, J. D. S. 1954. Nature173: 646.
Hagdahl, L., andC. E. Danielson. 1954. Nature174: 1062.
Hardy, T. L., andD. O. Holland. 1952. Chem. & Ind: 855.
Harris, P., andF. W. Lindley. 1956. Chem. & Ind: 922–923.
Hashimoto, Y., andI. Mori. 1952. Jour. Pharm. Soc. Japan72: 1532.
Hawthorne, J. R. 1947. Nature160: 714–715.
Heyns, K., andW. Walter. 1951. Zeits. Physiol. Chemie287: 15–18.
Hirst, E. L., et al. 1949. Jour. Chem. Soc: 928–933.
Hockenhull, D. J. D. 1953. Nature171: 982.
Hörhammer, L., andG. Kriesmair. 1955. Arch. Pharm.288: 489–494.
— andS. B. Rao. 1954. Arch. Pharm.287: 34–36.
Horne, R. E. Jr., andA. L. Pollard. 1948. Jour. Bact.55: 231–234.
Hotchkiss, R. D. 1948. Jour. Biol. Chem.175: 315–332.
Hotta, K., andM. Morishita. 1955. Vitamins [Japan]8: 391–393.
Hough, L., et al. 1949. Jour. Chem. Soc: 2511–2516.
Howard, G. A., andA. J. P. Martin. 1950. Biochem. Jour.46: 532–538.
Irreverre, F., andW. Martin. 1954. Anal. Chem.26: 257–260.
Isherwood, F. A. 1946. Biochem. Jour.40: 688–695.
— andC. A. Niavis. 1956. Biochem. Jour.64: 549–558.
James, A. T. 1952. Biochem. Jour.52: 242–247.
—. 1955. Research [London]8: 8–16.
—. 1956. Endeavour15: 73–78.
Jermyn, M. A., andF. A. Isherwood. 1949. Biochem. Jour.44: 402–407.
Jirgensons, B. 1951. Univ. Texas, Pub. 5109: 56–70.
Jones, A. R. 1952. Anal. Chem.24: 1055.
Joslyn, M. A., andW. Stepka. 1949. Food. Res.14: 459–467.
Kalkwarf, D. R., andA. A. Frost. 1954. Anal. Chem.26: 191–195.
Kalyankar, G. D., et al. 1952. Cur. Sci. [India]21: 220–222.
Karnovsky, M. L., andM. J. Johnson. 1949. Anal. Chem.21: 1125–1132.
Kawerau, E. 1951. Biochem. Jour.48: 281–283.
Kay, R. E., et al. 1956. Arch. Biochem. & Biophys.63: 14–25.
Kennedy, E. P., andH. A. Barker. 1951. Anal. Chem.23: 1033–1034.
Kent, P. W., et al. 1951. Science113: 354–355.
Keston, A. S., et al. 1947. Jour. Amer. Chem. Soc.69: 3151–3152.
Kilgour, G. L., andG. G. S. Dutton. 1953. Canad. Jour. Chem.31: 1260–1261.
Kirchner, J. G., andG. J. Keller. 1950. Jour. Amer. Chem. Soc.72: 1867–1868.
Kobrle, V., andR. Zahradnik. 1954. Chem. Listy48: 1189–1196.
Kostir, J. V., andK. Slavik. 1950. Coll. Czech. Chem. Com.15: 17–25.
Kowkabany, G. N., andH. G. Cassidy. 1950. Anal. Chem.22: 817–819.
——. 1952. Anal. Chem.24: 643–649.
Kritchevsky, T. K., andA. Tiselius. 1951. Science114: 299–300.
Kunin, R., 1958. Ion exchange resins. 466 pp.
Lakshminarayanan, K. 1954. Arch. Biochem. & Biophys.51: 367–370.
Landua, A. J., et al. 1951. Anal. Chem.23: 162–168.
Langer, A. 1956. Anal. Chem.28: 426–427.
Lautsch, W., et al. 1953. Zeits. Naturf.8b: 232–236.
Lea, C. H., et. al. 1955. Biochem. Jour.60: 353–363.
Lederer, M. 1950. Anal. Chim. Acta.4: 629–634.
Levy, A. L., andD. Chung. 1953. Anal. Chem.25: 396–399.
Lind, E. F., et al. 1953. Plant Physiol.28: 325–328.
Livingston, C. H., et al. 1953. Science118: 56–57.
Loffler, J. E., andE. H. Reichl. 1953. Mikrochim. Acta: 79–88.
Longenecker, W. H. 1948. Science107: 23–24.
Lugg, J. W. H., andB. T. Overell. 1947. Nature160: 87–88.
Lukton, A., et al. 1955. Nature176: 790.
Ma, R. M., andT. D. Fontaine. 1949. Science110: 232–233.
Magasanik, B., et al. 1950. Jour. Biol. Chem.186: 37–50.
Malpress, F. H., andA. B. Morrison. 1949. Nature164: 963.
Mansford, K., andR. Raper. 1956. Ann. Bot.22: 287–295.
Mapson, W., andS. M. Partridge. 1949. Nature164: 479–480.
Markham, R., andJ. D. Smith. 1949. Biochem. Jour.45: 294–298.
——. 1950. Biochem. Jour.46: 509–513.
Martin, A. J. P., andR. Mittelman. 1948. Biochem. Jour.43: 353–358.
Matthias, W. 1954. Naturwiss.41: 17–18.
Mavrodineanu, R., et al. 1955. Contr. Boyce Thompson Inst.18: 167–172.
McDonald, H. J., et al. 1957. Chrom. Meth.2: 1–5.
McFarren, E. F. 1951. Anal. Chem.23: 168–174.
— andJ. A. Mills. 1952. Anal. Chem.24: 650–653.
McMenamy, R. H., andG. J. Neville. 1957. Chem. Anal.46: 13.
Meredith, P., andH. G. Sammons. 1952. Analyst77: 416–418.
Micheel, F., andP. Albers. 1954. Mikrochim. Acta: 489–493.
— andH. Schweppe. 1952. Naturwiss.39: 380.
Michl, H. 1953. Naturwiss.40: 390.
Miettinen, J. K., andA. I. Virtanen. 1949. Acta Chem. Scand.3: 459–464.
Mitchell, H. K., andF. A. Haskins. 1949. Science110: 278–279.
Moore, A. M., andJ. B. Boylen. 1953. Science118: 19–20.
Moore, S., andW. H. Stein. 1951. Jour. Biol. Chem.192: 663–681.
Morin, G. A., et al. 1952. Bull. Soc. Chim. Biol.34: 193–195.
Morris, N. J., andA. C. F. Mason. 1956. Anal. Chem.28: 2038.
Morris, R. T. 1952. Anal. Chem.24: 1528.
Mortimer, D. C. 1952. Canad. Jour. Chem.30: 653–660.
Mueller, J. H. 1950. Science112: 405–406.
Müller, R. H., andD. L. Clegg. 1951. Anal. Chem.23: 396–411.
— andE. N. Wise. 1951. Anal. Chem.23: 207–208.
Nettleton, R. M. Jr., andR. B. Mefferd, Jr. 1952. Anal. Chem.24: 1687.
Nicholas, R. E. H., andC. Rimington. 1949. Scand. Jour. Clin. & Lab. Invest.1: 12–18.
Nordström, C. G., andT. Swain. 1953. Jour. Chem. Soc: 2764–2773.
Norris, F. C., andJ. J. R. Campbell. 1949. Canad. Jour. Res.27c: 253–261.
Novellie, L. 1950. Nature166: 1000.
—. 1952. Nature169: 672.
Opienska-Blauth, J., et al. 1951. Nature168: 511–512.
Oreskes, I., andA. Saifer. 1955. Anal. Chem.27: 854–856.
Oshima, Y., andT. Nakabayashi. 1951–1952. Jour. Agr. Chem. Soc. Japan25: 487–491.
——. 1953. Jour. Agr. Chem. Soc. Japan27: 759–761.
Paladini, A. C., andLeloir, L. F. 1952. Anal. Chem.24: 1024–1025.
Palmer, J. K. 1955. Conn. Agr. Exp. Sta., Bull. 589: 3–31.
Partridge, S. M. 1949. Nature164: 443.
Partridge, M. W., andJ. Chilton. 1951. Nature167: 79–80.
Patton, A. R., andP. Chism. 1951. Anal. Chem.23: 1683–1685.
Phares, E. F., et al. 1952. Anal. Chem.24: 660–662.
Phillips, D. M. P. 1948. Nature161: 53.
—. 1948. Nature162: 29.
— andJ. M. L. Stephen. 1948. Nature162: 152.
Polson, A. 1948. Biochim. & Biophys. Acta2: 575–581.
—. 1949. Biochim. & Biophys. Acta3: 205–207.
Porter, W. L. 1951. Anal. Chem.23: 412–413.
—. 1954. Anal. Chem.26: 439.
Radhakrishnan, A. N., andK. V. Giri. 1954. Biochem Jour.58: 57–61.
Radhakrishnamurty, R., andP. S. Sarma. 1952. Jour. Sci. & Ind. Res. [India]11B: 279–282.
Ramsey, L. L., andW. I. Patterson. 1945. Jour. Assoc. Off. Agr. Chem.28: 644–656.
Rappoport, D. A., andW. Z. Hassid. 1951. Jour. Amer. Chem. Soc.73: 5524–5525.
Redfield, R. R., andE. S. G. Barron. 1952. Arch. Biochem. & Biophys.35: 443–461.
Reid, W. W. 1950. Nature166: 569.
Reindel, F., andW. Hoppe. 1953. Naturwiss.40: 245.
Reineke, L. M. 1956. Anal. Chem.28: 1853–1858.
Roberts, R. B., et al. 1955. Carnegie Inst. Wash., Publ. 607. 521 pp.
Roberts, H. R., andF. J. Carleton. 1956. Anal. Chem.28: 11–16.
Rockland, L. B., et al. 1951. Anal. Chem.23: 1142–1146.
— andM. S. Dunn. 1949. Science109: 539–540.
——. 1949. Jour. Amer. Chem. Soc.71: 4121–4122.
——. 1950. Science111: 332–333.
— et al. 1952. Anal. Chem.24: 778–782.
— andJ. C. Underwood. 1954. Anal. Chem.26: 1557–1563.
——. 1956. Anal. Chem.28: 1679–1684.
Roseman, S., et al. 1952. Arch. Biochem. & Biophys.36: 232–233.
Rouser, G., et al. 1953. Jour. Amer. Chem. Soc.75: 310–312.
Rutter, L. 1948. Nature161: 435–436.
—. 1950. Analyst75: 37–42.
Sacks, J. 1953. Isotopic tracers in biochemistry and physiology. 383 pp.
Schmall, M., et al. 1956. Anal. Chem.28: 1373–1376.
Schwerdtfeger, E. 1954. Naturwiss.41: 18.
Shore, V. G., andA. B. Pardee. 1956. Anal. Chem.28: 1479–1481.
Sibatani, A., andM. Fukuda. 1951. Jour. Biochem. [Japan]38: 181–198.
——. 1951. Science [Japan]21: 92.
Singer, A. J., andL. Krenner. 1951. Anal. Chem.23: 387–388.
Smith, E. L. 1952. Nature169: 60–62.
— andD. Allison. 1952. Analyst77: 29–33.
Smith, I. 1953. Nature171: 43–44.
Spaeth, E. C., andD. H. Rosenblatt. 1950. Anal. Chem.22: 1321–1326.
Stark, J. B., et al. 1951. Anal. Chem.23: 413–415.
Stein, W. H., andS. Moore. 1948. Jour. Biol. Chem.176: 337–365.
Steward, F. C., et al. 1948. Science107: 451–452.
— andJ. F. Thompson. 1950. Ann. Rev. Plant Physiol.1: 233–264.
Stockli, A. 1954. Helv. Chim. Acta37: 1581–1585.
Strole, U. 1955. Zeits. Anal. Chemie.144: 256–264.
Suzuki, S. 1951. Igaku to Seibutsugaku (Med. and Biol.)20: 64–65.
Synge, R. L. M. 1946. Analyst71: 256–258.
—. 1949. Biochem. Jour.44: 542–548.
Tauber, H., andE. L. Petit. 1952. Jour. Amer. Chem. Soc.74: 2865–2867.
Tennent, D. M., et al. 1951. Anal. Chem.23: 1748–1749.
Thompson, A. R. 1951. Austral. Jour. Sci. Res.4B: 180–186.
Thompson, J. F., andM. V. Marion. 1956. Anal. Chem.28: 288.
—, et al. 1951. Plant Physiol.26: 375–397.
— andF. C. Steward. 1951. Plant Physiol.26: 421–440.
Tomisek, A. J., et al. 1956. Arch. Biochem. & Biophys.64: 437–455.
Toribara, T. Y., andV. Di Stefano. 1954. Anal. Chem.26: 1519–1521.
Tristram, G. R. 1946. Biochem. Jour.40: 721–733.
Trover, J. R. 1956. Plant Physiol.31: 71–74.
Tso, T. C., andR. N. Jeffrey. 1953. Arch. Biochem. & Biophys.43: 269–285.
Ultee, A. J. Jr. 1952. Chem. Weekblad48: 821.
Underwood, J. C., andL. B. Rockland. 1954. Anal. Chem.26: 1553–1557.
Vandenheuvel, F. A., andE. R. Hayes. 1952. Anal. Chem.24: 960–965.
Venkatesh, D. S., andM. Sreenivasaya. 1951. Cur. Sci. [India]20: 156–157.
Vischer, E., andE. Chargaff. 1948. Jour. Biol. Chem.176: 703–714.
Wachtmeister, C. A. 1951. Acta Chem. Scand.5: 976–978.
Wadman, W. H., et al. 1954. Anal. Chem.26: 1192–1195.
Wellington, E. F. 1952. Canad. Jour. Chem.30: 581–591.
Whalley, H. C. S. de, et al. 1951. Analyst76: 287–299.
White, A. A., andW. C. Hess. 1956. Arch. Biochem. & Biophys.64: 57–66.
Wiegand, O. F., andA. R. Schrank. 1956. Anal. Chem.28: 259.
Wieland, T., andE. Fischer. 1948. Naturwiss.35: 29.
—, et al. 1949. Naturwiss.36: 280–281.
Williams, A. H. 1955. Chem. & Ind: 120–121.
Williams, K. T., andA. Bevenue. 1951. Jour. Assoc. Off. Agr. Chem.34: 817–821.
—, et al. 1952. Jour. Assoc. Off. Agr. Chem.35: 483–486.
Winsten, W. A., andE. Eigen. 1948. Jour. Amer. Chem. Soc.70: 3333–3339.
——. 1949. Jour. Biol. Chem.177: 989–990.
——. 1949. Jour. Biol. Chem.181: 109–120.
——. 1950. Jour. Biol. Chem.184: 155–161.
Winteringham, F. P. W., et al. 1950. Nature166: 999.
—, et al. 1951. Analyst77: 19–28.
Woiwod, A. J. 1949. Biochem. Jour.45: 412–417.
—. 1949. Jour. Gen. Microbiol.3: 312–318.
Wolff, E. C., et al. 1956. Jour. Amer. Chem. Soc.78: 5958.
Wolfson, W. Q., et al. 1949. Science109: 541–543.
Wood, S. E., andH. H. Strain. 1954. Anal. Chem.26: 260–264.
Woodruff, H. B., andJ. C. Foster. 1950. Jour. Biol. Chem.183: 569–576.
Woodward, C. C., andG. S. Rabideau. 1954. Anal. Chem.26: 248.
Work, E. 1949. Biochim. & Biophys. Acta3: 400–411.
Wynn, V. 1949. Nature164: 445.
Yamaguchi, M., andF. D. Howard. 1955. Anal. Chem.27: 332–333.
Yanofsky, C., et al. 1950. Science111: 61–62.
Zaffaroni, A., et al. 1950. Science111: 6–8.
Zechmeister, L. 1951. Science113: 35–36.
Zimmermann, G. 1953. Zeits. Anal. Chemie138: 321–332.
Zimmermann, I. G., andK. Nehring. 1951. Ang. Chemie63: 556.
Volatile Plant Constituents
Anderson, J. R. 1956. Jour. Amer. Chem. Soc.78: 5692–5693.
Baker, W., et al. 1952. Jour. Chem. Soc.: 3215–3217.
Bayer, E., andK. H. Reuther. 1956. Ang. Chemie68: 598.
Bergman, F., andR. Segal. 1956. Biochem. Jour.62: 542–546.
Bernhard, R. A. 1958. Food Res.23: 213–216.
Berridge, N. J., andJ. D. Watts. 1954. Jour. Sci. Food Agr.5: 417–421.
Bertetti, J. 1954. Ann. Chim. [Rome]44: 495–499.
Boer, H. 1956.In: Symposium on vapor phase chromatography. Inst. Petroleum, May/June.
Braddock, L. I., et al. 1953. Anal. Chem.25: 301–306.
Bradford, B. W., et al. 1955. Jour. Inst. Petrol.41: 80–91.
Bremner, J. M., andR. H. Kenten. 1951. Biochem. Jour.49: 651–655.
Brenner, N. 1956. Proc. Sci. Sect. Toilet Goods Assoc.26:
-. 1957. [Paper presented at Pittsburgh Conference of Analytical Chemistry and Applied Spectroscopy. March 4–8.]
Broderick, J. Jr. 1956. Amer. Perf. & Ess. Oil Rev.65(1): 19–23.
Brouwer, E., andH. J. Nijkamp. 1950. Chem. Weekblad46: 37–39.
Brown, F. 1950. Biochem. Jour.47: 598–600.
— andL. P. Hall. 1950. Nature166: 66–67.
Bucur, R. 1956. Rev. Chim. Bucharest7: 163–165. [From Analyt. Abs.4: 180. 1957.].
Bulen, W. A., et al. 1952. Anal. Chem.24: 187–190.
Burton, H. S. 1954. Nature173: 127.
Cadman, W. J., andT. Jones. 1958.In: Pittsburgh Conf. Anal. Chem. & Appl. Spectros. March, 1958.
Carlsohn, H., andG. Mueller. 1938. Ber.71B: 863–870.
——. 1938. Ang. Chemie51: 466–471.
Cochrane, A. L. 1955. Analyst80: 909.
Corcoran, G. B. 1956. Anal. Chem.28: 168–171.
Corse, J. W. 1956. [Paper presented at Conference on Chemistry of Natural Food Flavors. Chicago 11/8/56].
Cropper, F. R., andA. Heywood. 1953. Nature172: 1101–1102.
——. 1954. Nature174: 1063–1064.
Dal Nogare, S. 1956. Anal. Chem.28: 903.
Dame, H. C. v. 1953. Jour. Assoc. Off. Agr. Chem.36: 580–585.
—. 1954. Jour. Assoc. Off. Agr. Chem.37: 572–574.
David, J. J., andM. A. Joslyn. 1954. Food Res.18: 390–398.
Deal, C. H., et al. 1956. Anal. Chem.28: 1958–1964.
Desty, D. H. 1957. Vapour phase chromatography. 460 pp.
Dijkstra, G., et al. 1955. Rec. Trav. Chim.74: 805–812.
Dimbat, M., et al. 1956. Anal. Chem.28: 290–297.
Dimick, K. P., andJ. Corse. 1956. Food Tech.10: 360–364.
— andB. Makower. 1956. Food Tech.10: 73–75.
Di Modica, G., andC. Spriano. 1951. Ann. Chim. [Rome]41: 64–67.
Drew, C. M., et al. 1956. Anal. Chem.28: 979–983.
Drews, E. 1954. Getreide u. Mehl.3: 85–88, 90–91.
Duin, H. v. 1953. Biochim. & Biophys. Acta12: 490–491.
—. 1954. Rec. Trav. Chim.73: 68–77.
Eggertsen, F. T., et al. 1956. Anal. Chem.28: 303–306.
Elvidge, J. A., andM. Whalley. 1955. Chem. & Ind.21: 89–91.
Erspamer, V., andG. Boretti. 1951. Arch. Int. Pharmacodynamie88: 296–332. [Chem. Abs.46: 2700h]
Erspamer, V., andG. Boretti. 1951. [Chem. Abs.46: 2700h].
Fink, K., andR. M. Fink. 1949. Proc. Soc. Exp. Biol.70: 654–656.
Forss, D. A., et al. 1954. Chem. & Ind: 1292.
Gabrielson, G., andO. Samuelson. 1952. Svensk Kem. Tid.64: 150–156.
Goddu, R. F., et al. 1955. Anal. Chem.27: 1251–1255.
Gordon, B. E., et al. 1951. Anal. Chem.23: 1754–1758.
Greene, S. A., et al. 1956. Anal. Chem.28: 1369–1370.
Griffiths, J. H., andC. S. G. Phillips. 1954. Jour. Chem. Soc: 3446–3453.
Guenther, E., andE. E. Langenau. 1953. Anal. Chem.25: 12–17.
Haagen-Smit, A. J. 1946. Amer. Perf. & Ess. Oil Rev: 62–69.
—, et al. 1949. Food Res.14: 472–480.
—, et al. 1945. Jour. Amer. Chem. Soc.67: 1646–1650.
Harvey, D., andD. E. Chalkley. 1955. Fuel [London]34: 191–200.
Hashmi, M. H., andC. F. Cullis. 1956. Anal. Chim. Acta14: 336–338.
Hausdorff, H. H. 1955. Vapor fractometry (Gas chromatography). [In press]
Henze, E. R. 1955. Anal. Chem.27: 1349–1351.
—, et al. 1953. Proc. Amer. Soc. Hort. Sci.61: 237–245.
—, et al. 1954. Jour. Agr. & Food Chem.2: 1118–1120.
Herout, V. 1950. Coll. Czech. Chem. Com.15: 381–391.
— andF. Sorm. 1953. Chem. Listy47: 1041–1052.
—, et al. 1953. Coll. Czech Chem. Comm.18: 297–300.
—, et al. 1953. Chem. Listy47: 440–446.
—, et al. 1950. Coll. Czech. Chem. Comm.15: 373–380.
Hesse, G., andB. Tschachotin. 1942. Naturwiss.30: 387–392.
Hiscox, E. R., andN. J. Berridge. 1950. Nature166: 522.
Holley, A. D., andR. W. Holley. 1952. Anal. Chem.24: 216–218.
Holley, R. W., et al. 1955. Food Res.20: 326–331.
Howard, G. A., andA. R. Tatchell. 1954. Chem. & Ind: 219.
Huelin, F. E. 1952. Austral. Jour. Sci. Res. B.5: 328–334.
- andB. H. Kennett. 1956. Chem. & Ind: 715.
Hunter, I. R., et al. 1956. Chem. & Ind: 294–295.
James, A. T. 1956. Endeavor15: 73–78.
— andA. J. P. Martin. 1954. Brit. Med. Bull.10: 170–176.
——. 1956. Biochem. Jour.63: 144–152.
—, et al. 1952. Biochem. Jour.52: 238–242.
James, D. H., andC. S. G. Phillips. 1953. Jour. Chem. Soc: 1600–1610.
Janicki, A., et al. 1954. Przem. Chem.10: 417–420.
Jong, A. P. d. 1956. Chem. Weekblad.52: 37–43.
Kamer, J. H. Van de, et al. 1955. Biochem. Jour.61: 174–176.
Kariyone, T., et al. 1951. Nature168: 511.
Keulemans, A. I. M. 1957. Gas chromatography.
—, et al. 1955. Anal. Chim. Acta13: 357–372.
Kirchner, J. G., andJ. M. Miller. 1952. Ind. Eng. & Chem.44: 318–321.
——. 1953. Jour. Agr. & Food Chem.1: 512–518.
—, et al. 1951. Anal. Chem.23: 420–425.
—, et al. 1953. Jour. Agr. & Food Chem.1: 510–512.
—, et al. 1946. Ind. & Eng. Chem., Anal. Ed.18: 31–32.
—, et al. 1949. Adv. Food Res.2: 259–296.
Kramer, P. J. G., andH. v. Duin. 1954. Rec. Trav. Chim.73: 63–67.
Lee, F. A., andA. C. Wagenknecht. 1951. Food Res.16: 239–244.
—, et al. 1956. Food Res.21: 666–670.
Levine, C., andE. Chargaff. 1951. Jour. Biol. Chem.192: 465–479.
——. 1951. Jour. Biol. Chem.192: 481–483.
Lewis, J. S., et al. 1956. Anal. Chem.28: 1370–1373.
Lindquist, B., andT. Storgaerds. 1953. Acta Chem. Scand.7: 87–96.
Littlewood, A. B., et al. 1955. Jour. Chem. Soc: 1480–1489.
Lockhart, E. E. 1956. [Paper presented at Conference on Chemistry of Natural Food Flavors. Chicago, Nov. 8, 1956].
Lockhart, I. M. 1956. Nature177: 393–394.
Lynn, W. S. Jr., et al. 1956. Anal. Chem.28: 132–133.
Mader, P. P., et al. 1955. Plant Physiol.30: 318–323.
Martin, A. E., andJ. Smart. 1955. Nature175: 422–423.
Martin, A. J. P., andA. T. James. 1956. Biochem. Jour.63: 138–143.
Meigh, D. F. 1952. Nature170: 579.
—. 1952. Nature169: 706–707.
Meyer, R. A. 1957. [Paper presented at Pittsburgh Conference of Analytical Chemistry and Applied Spectroscopy, March 4–8, 1957].
Miller, J. M., andJ. G. Kirchner. 1952. Anal. Chem.24: 1480–1482.
——. 1953. Anal. Chem.25: 1107–1109.
Momose, T., andA. Yamada. 1951. Jour. Pharm. Soc. Japan71: 980–981.
Mueller, R. H. 1957. Anal. Chem.29: 55A-57A.
Nadal, N. G. d. 1955. Amer. Perf. & Ess. Oil Rev.65: 17–20.
Neigisch, W. D., andW. H. Stahl. 1956. Food Res.21: 657–665.
Neiman, M. B., et al. 1951. Doklady Akad. Nauk S.S.S.R.81: 841–844.
Nijkamp, H. J. 1954. Anal. Chim. Acta10: 448–458.
Oebker, N. F. 1953. Thesis (Ph.D) Cornell Univ.
Patton, H. W., et al. 1955. Anal. Chem.27: 170–174.
Perila, O. 1956. Acta Chim. Scand.10: 143–144.
Phillips, C. 1956. Gas chromatography. 105 pp.
Pierotti, G. J., et al. 1956. Jour. Amer. Chem. Soc.78: 2989–2998.
Podbielniak, W. J., andS. T. Preston. 1956. Petr. Ref.35: 215–220.
Porter, P. E., et al. 1956. Jour. Amer. Chem. Soc.78: 2999–3006.
Ramsey, L. L. 1948. Jour. Assoc. Off. Agr. Chem.31: 164.
— andW. I. Patterson. 1948. Jour. Assoc. Off. Agr. Chem.31: 139–150.
Ranson, S. L. 1955.In: Paech, K., and M. V. Tracey [ed.] Modern methods of plant analysis. Vol. II: 539–582.
Rao, V. K. M. 1955. Jour. Sci. & Ind. Res. [India]B14: 161–165.
Ray, N. H. 1954. Jour. Appl. Chem.4: 21–25.
Reid, R. L., andM. Lederer. 1951. Biochem. Jour.50: 60–66.
Reitsema, R. H. 1954. Anal. Chem.26: 960–963.
—. 1954. Jour. Amer. Pharm. Assoc.43: 414–418.
Rice, A. C., andC. S. Pedersen. 1954. Food Res.19: 106–114.
Rice, R. G., et al. 1951. Anal. Chem.23: 194–195.
Roberts, J. D., andC. Green. 1946. Ind. & Eng. Chem., Anal. Ed.18: 335.
Rosen, A. A., et al. 1952. Anal. Chem.24: 412–413.
Ryce, S. A., andW. A. Bryce. 1957. Anal. Chem.29: 925–928.
——. 1957. Nature179: 541.
Satake, K. 1953. Japan Analyst2: 259–268.
— andT. Seki. 1950. Kagaku no Ryoiki [Jour. Japan Chem.]4: 557–561. [Chem. Abs.45: 4604 f].
— andT. Seki. 1950. [Chem. Abs.45: 4604 f].
Scarisbrick, R.In: Paech, K., and M. V. Tracey [ed.] 1955. Modern methods of plant analysis. Vol. II: 444–447.
Schmitt, W. J., et al. 1956. Anal. Chem.28: 249.
Schulte, K. E., andH. Krause. 1951. Biochem. Zeits.322: 168–173.
— andC. B. Storp. 1955. Fette u. Seifen57: 600–604.
—. 1956. Fette u. Seifen58: 35–39.
Schwyzer, R. 1952. Acta Chem. Scand.6: 219–222.
Scott, R. P. W. 1955. Nature176: 793.
Seidel, C. F., et al. 1944. Helv. Chim. Acta27: 738–747.
Seligman, R. B., et al. 1954. Chem. & Ind: 1195.
Silberstein, O. 1954. Proc. Amer. Soc. Hort. Sci.63: 350–370.
Smock, R., andC. R. Gross. 1951. Proc. Amer. Soc. Hort. Sci.57: 81–93.
Sorm, F., et al. 1951. Coll. Czech Chem. Com.16: 268–277.
—, et al. 1951. Coll. Czech Chem. Com.16: 47–56.
—, et al. 1951. Coll. Czech Chem. Com.16: 626–638.
Spanyer, J. W., andJ. P. Phillips. 1956. Anal. Chem.28: 253.
Spencer, M. S., andW. L. Stanley. 1954. Agr. & Food Chem.22: 1113–1118.
Stadtman, F. H. 1948. Jour. Amer. Chem. Soc.70: 3583–3586.
Stahl, W. H. 1956. [Paper presented at Conference on Chemistry of Natural Food Flavors. Chicago, November 8, 1956].
-, et al. 1957. Res. Rep., Anal. Chem. Ser. No. 5. Quart. Res. & Dev. Command, Natick, Mass.
Stanley, W. L., andS. H. Vannier. 1957. Jour. Assoc. Off. Agr. Chem.40: 582–588.
Strain, H. H. 1935. Jour. Amer. Chem. Soc.57: 758–761.
Thompson, A. R. 1951. Austral. Jour. Sci. Res. B.4: 283–292.
— andF. E. Huelin. 1951. Austral. Jour. Sci. Res. B.4: 544–553.
Turba, F. 1948. Ang. Chemie60: 48–49.
— andE. V. Schrader-Beielstein. 1947. Naturwiss.34: 57–58.
Uno, H., andA. Koyama. 1951. Jour. Ferm. Tech. [Japan]29: 229–231.
Virtanen, A. I., andJ. K. Miettinen. 1951. Nature168: 294–295.
— andR. Schwyzer. 1951. Acta Chem. Scand.5: 1397–1398.
Wagenknecht, A. C., andF. A. Lee. 1956. Food Res.21: 605–609.
Webb, A. D., et al. 1952. Anal. Chem.24: 1944–1949.
White, J. W. Jr. 1948. Anal. Chem.20: 726–728.
— 1950. Food. Res.15: 68–78.
— andE. C. Dryden. 1948. Anal. Chem.20: 853–855.
Wick, E. L., andS. E. Cairncross. 1956. Food Tech.10: 423–427.
Wiseman, W. A. 1956. Chem. & Ind.: 127–129.
Wotherspoon, P. A., andP. Z. Bedoukian. 1955. Amer. Perf. & Ess. Oil Rev.66: 17–22.
Yamamoto, G., et al. 1953. Jour. Agr. Chem. Soc. Japan.27: 114–117.
Non-Nitrogenous carboxylic Acids — Acids Other Than Keto Acids
Airan, J. W., andJ. Barnabas. 1953. Naturwiss.40: 510.
— et al. 1953. Anal. Chem.25: 659.
Alentoff, N., et al. 1954. Jour. Sci. Food & Agr.5: 231–234, 234–238.
Asselineau, J. 1952. Bull. Soc. Chim. France: 884–891.
Baker, R. G. 1953. Biochem. Jour.54: xxxix.
Barnabas, J., andG. V. Joshi. 1955. Anal. Chem.27: 443–444.
Bennet-Clark, T. A. 1949. Ann. Rev. Biochem.18: 639–654.
Bentley, L. E. 1952. Nature170: 847–848.
Boldingh, J. 1950. Rec. Trav. Chim.69: 247–261.
Bryant, F., andB. T. Overell. 1953. Biochim. & Biophys. Acta10: 471–476.
Buch, M. L., et al. 1952. Anal. Chem.24: 489–491.
Calvin, M., andA. A. Benson. 1948. Science107: 476–480.
Ceccaldi, P. F., et al. 1954. Bull. Soc. Chim. Biol.36: 415–424.
Cheftel, R. I., et al. 1951. Bull. Soc. Chim. Biol.33: 840–845.
—, et al. 1952. Bull. Soc. Chim. Biol.34: 380–387.
—, et al. 1953. Bull. Soc. Chim. Biol.35: 1085–1089.
—, et al. 1953. Bull. Soc. Chim. Biol.35: 1085–1089.
—, et al. 1953. Bull. Soc. Chim. Biol.35: 1095–1099.
—, et al. 1954. Bull. Soc. Chim. Biol.36: 429–432.
Crombie, W. M. 1956. Jour. Exp. Bot.7: 181–193.
— andR. Comber. 1956. Jour. Exp. Bot.7: 166–180.
David, J. J. et al. 1955. Food. Res.21: 184–194.
Davies, C. W., andR. B. Hughes. 1954. Jour. Sci. Food Agr.5: 200–205.
Denison, F. W. Jr., andE. F. Phares. 1952. Anal. Chem.24: 1628–1629.
Donaldson, K. O., et al. 1952. Anal Chem.24: 185–187.
Duuren, A. J. v, 1953. Rec. Trav. Chim.72: 889–892.
Elliott, D. C. 1954. Jour. Exp. Bot.5: 353–356.
Frohman, C. E., et al. 1951. Jour. Biol. Chem.193: 277–283.
Gibbs, M. 1951. Plant Physiol.26: 549–556.
Giri, K. V., et al. 1953. Jour. Indian Inst. Sci.35: 93–98.
Godin, P. 1954. Chem. & Ind.: 1424.
Halliwell, G. 1952. Nature.169: 1063–1064.
Hasegawa, M., andK. Hirokawa. 1955. Jour. Jap. For. Soc.37: 530–532.
Higuchi, T., et al. 1952. Anal. Chem.24: 491–493.
Holton, R. W., andC. R. Noll Jr. 1955. Plant Physiol.30: 384–386.
Houston, F. G., andJ. L. Hamilton. 1952. Anal. Chem.24: 415–416.
Hulme, A. C. 1953. Nature171: 610–611.
— andA. Richardson. 1954. Jour. Sci. Food Agr.5: 221–225.
Inoue, Y., andM. Noda. 1951. Jour. Agr. Chem. Soc. Japan24: 295–298.
—, et al. 1952. Jour. Agr. Chem. Soc. Japan25: 491–495.
Jermstad, A., andK. B. Jensen. 1950. Pharm. Acta Helv.25: 209–229.
Kitihara, M., andY. Takeuchi. 1951. Res. Bull. Fac. Agr. Gifu. Univ. No. 1: 86–89.
Kobrle, V., andR. Zahradnik. 1954, Chem. Listy48: 1703–1705.
Lakshminarayanan, K., andD. Subramanian. 1955. Nature176: 697–698.
Laboraya, M. M. 1955. Naturwiss.42: 489.
Liberman, L. A., et al. 1951. Jour. Amer. Chem. Soc.73: 1387–1388.
Loeb, C., andJ. Lichtenberger. 1950. Bull. Soc. Chim. France: 362–363.
Lugg, J. W. H., andB. T. Overell. 1948. Austral. Jour. Sci. Res.1A: 98–111.
Marvel, C. S., andR. D. Rands, Jr. 1950. Jour. Amer. Chem. Soc.72: 2642–2646.
Meeuse, B. J. D. 1956. Biochim. et Biophys. Acta19: 372–374.
Micheel, F., andH. Schweppe. 1954. Ang. Chemie66: 136–137.
Moretti, J., andJ. Polonovski. 1954. Bull. Soc. Chim. France: 953–956.
Moyse, A., andG. Jolchine. 1956. Bull. Soc. Chim. Biol.38: 761–784.
Nijkamp, H. J. 1953. Nature172: 1102–1103.
Ohara, M., andY. Suzuki. 1951. Science [Japan]21: 362–363.
Overell, B. T. 1952. Austral. Jour. Sci.15: 28–29.
Phillips, J. D., andA. Pollard. 1953. Nature171: 41–42.
Poel, L. W. 1952. Nature169: 501–502.
Popjak, G., andA. Tietz. 1954. Biochem. Jour.56: 46–54.
Pucher, G. W., et al. 1941. Anal. Chem.13: 244–246.
Ranjan, S. 1956. Flora143: 87.
— andT. Rajaro. 1955. Naturwiss.42: 581.
Ranson, S. L. 1954. New Phytol.53: 28–30.
Rao, V. K. M. 1952. Jour. Sci. & Ind. Res. [India]11B: 277–279.
Reichl, E. R., andJ. E. Loffler. 1954. Mikrochim. Acta: 226–230.
Rentschler, R., andH. Tanner. 1954. Mitt. Lebensm. Hyg.45: 142–158.
Saltman, P., et al. 1957. Plant Physiol.32: 197–200.
Savary, P., andP. Desnuelle. 1954. Bull. Soc. Chim. France: 936–940.
Scott, R. W., et al. 1955. Plant Physiol.30: 355–360.
Shkol’nik, R. Y. 1955. Trudy Komissii Anal. Khim. Akad. Nauk. S.S.S.R., Inst. Geokhim i Anal. Khim.6: 502–508.
Silk, M. H., andH. H. Hahn. 1954. Biochem. Jour.56: 406–410.
——. 1954. Biochem. Jour.57: 577–582.
Spadoni, M. A. 1953. Quaderni Nutriz.13: 330–340.
Spiteri, J., andG. Nunez. 1952. Compt. Rend. Acad. Sci. [Paris]234: 2603–2604.
Stutz, R. E., andR. H. Burris. 1951. Plant Physiol.26: 226–243.
Thimann, K. V., andW. D. Bonner, Jr. 1950. Ann. Rev. Plant Physiol.1: 75–108.
Thomas, M. 1949. New Phytol.48: 390–420.
— andS. L. Ranson. 1954. New Phytol.53: 1–30.
Ulrich, R., andJ. Landry. 1956. Compt. Rend. Acad. Sci. [Paris]242: 2757–2759.
Vanderheuvel, F. A., andD. R. Vatcher. 1956. Anal. Chem.28: 838–845.
Varner, J. E., andR. C. Burrell. 1950. Arch. Biochem.25: 280–287.
Wieland, Th., andU. Feld. 1951. Ang. Chemie63: 258–259.
Keto Acids
Alfthan, M., andA. I. Virtanen. 1955. Acta Chem. Scand.9: 186–187.
Altmann, S. M., et al. 1951. Biochem. Jour.49: lxiii.
Aronoff, S., andG. E. Graf. 1955. Science121: 211–212.
Axelrod, B., et al. 1953. Jour. Biol. Chem.202: 619–634.
Barker, J., andL. W. Mapson. 1955. Proc. Roy. Soc.143B: 523–549.
Bennett, E. 1945. Plant Physiol.20: 461–463.
Brady, O. L., andH. N. E. Day. 1923. Jour. Chem. Soc.123: 2258–2267.
-. 1931. Jour. Chem. Soc: 756–759.
Brunner, H., andE. Chuard. 1886. Ber.19: 595–622.
Bryant, W. M. D. 1938. Jour. Amer. Chem. Soc.60: 2814–2815.
Bueding, E., andH. Wortis. 1940. Jour. Biol. Chem.133: 585–591.
Calvin, M., et al. 1951. Symp. Soc. Exp. Biol.5: 284–305.
Cavallini, D., et al. 1949. Nature164: 792–793.
— andN. Frontali. 1954. Biochim. et Biophys. Acta13: 439–445.
Cennamo, C., et al. 1956. Jour. Amer. Chem. Soc.78: 3523–3527.
Chattaway, F. D., andG. R. Clemo. 1923. Jour. Chem. Soc.123: 3041–3062.
Datta, S. P., et al. 1950. Biochem. Jour.46: xxxvi.
De Vries, J. E., andE. Gantz. 1953. Anal. Chem.25: 1020–1022.
Done, J., andL. Fowden. 1951. Biochem. Jour.49: xx-xxi.
——. 1952. Biochem. Jour.51: 451–458.
El Hawary, M. F. S., andR. H. S. Thompson. 1953. Biochem. Jour.53: 340–347.
Fincham, J. R. S. 1953. Biochem. Jour.53: 313–320.
Fischer, E., andR. Groh. 1911. Ann.383: 363–372.
Fowden, L., andJ. A. Webb. 1955. Biochem. Jour.59: 228–234.
Friedemann, T. E., andG. E. Haugen. 1943. Jour. Biol. Chem.147: 415–442.
Goodwin, T. W., et al. 1956. Biochem. Jour.62: 259–268.
Gornall, A. G., andM. P. Macdonald. 1953. Jour. Biol. Chem.201: 279–297.
Grobbelaar, N., et al. 1955. Nature175: 703–708.
Harris, G., andA. R. Tatchell. 1953. Jour. Inst. Brewing59: 371–377.
Hockenhull, D. J. D., andG. D. Floodgate. 1952. Biochem. Jour.52: 38–40.
—, et al. 1954. Biochem. Jour.56: 73–82.
-, et al. 1953. Chem. & Ind: 127.
Isherwood, F. A., andD. M. Cruikshank. 1954. Nature173: 121–122.
James, G. M., andW. O. James. 1940. New Phytol.39: 266–270.
James, W. O., et al. 1941. Biochem. Jour.35: 588–594.
Johnson, G. D. 1951. Jour. Amer. Chem. Soc.73: 5888–5889.
Jong, A. W. K. de. 1901. Rec. Trav. Chim.20: 81–101.
Knox, W. E., andM. LeMay-Knox. 1951. Biochem. Jour.49: 686–693.
Kolesnikov, P. A. 1948. Doklady Akad. Nauk. S.S.S.R.60: 1205–1207.
—. 1948. Doklady Akad. Nauk. S.S.S.R.60: 1353–1355.
Krebs, H. A. 1942. Biochem. Jour.36: 303–305.
Krupka, R. M., andG. H. N. Towers. [Unpub.]
Kulonen, E. 1953. Scand. Jour. Clin. & Lab. Invest.5: 72–74.
Lappin, G. R., andL. C. Clark. 1951. Anal. Chem.23: 541–542.
Linko, P., andA. I. Virtanen. 1955. Acta Chem. Scand.9: 855–857.
Lu, G. D. 1939. Biochem. Jour.33: 249–254.
Meister, A., andP. A. Abendschein. 1956. Anal. Chem.28: 171–173.
Mentzer, C., andL. Cronenberger. 1955. Bull. Soc. Chim. Biol.37: 371–382.
Metzler, D. E., andE. Snell. 1952. Jour. Biol. Chem.198: 353–361.
Montgomery, C. M., andJ. L. Webb. 1954. Science120: 843–844.
Neish, W. J. P. 1953. Rec. Trav. Chim.72: 105–118.
Neuberg, C., et al. 1952. Anal. Chim. Acta7: 238–242.
Ochoa, S. 1948. Jour. Biol. Chem.174: 115–122.
Pedersen, K. J. 1952. Acta Chim. Scand.6: 285–303.
Rabson, R., andF. C. Steward. 1956. Plant Phyisol. (Suppl)31: iv.
Roberts, J. D., andC. Green. 1946. Jour. Amer. Chem. Soc.68: 214–216.
Seligson, D., andB. Shapiro. 1952. Anal. Chem.24: 754–755.
Simon, E. 1933. Ber.66: 320.
Steward, F. C., andJ. K. Pollard. 1956.In: McElroy, W. D., and H. B. Glass. Inorganic nitrogen metabolism. 377–407.
Tafel, J. 1886. Ber.19: 2414–2417.
Towers, G. H. N. 1954. Ph.D. Thesis, Cornell Univ. 271 pp.
— andD. C. Mortimer. 1954. Nature174: 1189.
——. 1956. Canad. Jour. Biochem. & Physiol.34: 511–519.
— andF. C. Steward. 1954. Jour. Amer. Chem. Soc.76: 1959–1961.
—, et al. 1954. Jour. Amer. Chem. Soc.76: 2392–2396.
Turner, E. R., andC. E. Quartley. 1956. Jour. Exp. Bot.7: 362–371.
Turnock, D. 1953. Nature172: 355–356.
Virtanen, A. I. 1955. Ang. Chemie67: 381–388.
— andM. Alfthan. 1954. Acta Chem. Scand.8: 1720–1721.
——. 1955. Acta Chem. Scand.9: 188–190.
—, et al. 1943. Jour. Prakt. Chem.162: 71–90.
— andT. Laine. 1939. Biochem. Jour.33: 412–427.
Virtanen, A. I., et al. 1953. Acta Chem. Scand.7: 38–44.
Walker, T. K., et al. 1951. Nature168: 1042–1043.
Webb, J. A., andL. Fowden. 1955. Biochem. Jour.61: 1–4.
Wickson, M. E., andG. H. N. Towers. 1956. Canad. Jour. Biochem. & Physiol.34: 502–510.
Zacharius, R. M., et al. 1954. Jour. Amer. Chem. Soc.76: 1961–1962.
Sugars
Baar, S. 1954. Biochem. Jour.58: 175–176.
Bassham, J. A., et al. 1956. Biochim. et Biophys. Acta21: 376–377.
Bayly, R. J., et al. 1952. Nature169: 876–877.
Bell, D. J. 1955.In: Paech, K., and M. V. Tracey [Ed.] Modern methods of plant analysis. Vol. II: 1–54.
Benson, A. A. 1951. Arch. Biochem. Biophys.32: 223–224.
—, et al. 1952. Jour. Biol. Chem.196: 703–716.
Bidwell, R.G. S., et al. 1952. Canad. Jour. Bot.30: 291–305.
—, et al. 1955. Canad. Jour. Bot.33: 189–196.
Block, R. J. 1949. Proc. Soc. Exp. Biol. & Med.72: 337–341.
Calvin, M., andA. A. Benson. 1949. Science109: 140–142.
Courtois, J. E., et al. 1956. Bull. Soc. Chim. Biol.38: 851–862.
Dimler, R. J., et al. 1952. Anal. Chem.24: 1411–1414.
Dische, Z. 1953. Jour. Biol. Chem.204: 983–997.
DuBois, M., et al. 1951. Nature168: 167.
Edelman, J., et al. 1955. Jour. Biol. Chem.213: 843–854.
Flood, A. E., et al. 1947. Nature160: 86–87.
Foster, A. B. 1953. Jour. Chem. Soc.: 982–986.
Frerejocque, M. 1950. Compt. Rend. Acad. Sci. [Paris]230: 127–128.
Frommhagen, L. H. 1956. Anal. Chem.28: 1202–1204.
Gjertsen, P. 1953. Jour. Inst. Brewing59: 296–306.
Gordin, P. 1954. Nature174: 134.
Grauer, A. 1953. Anal. Chim. Acta8: 426–428.
Hirst, E. L., et al. Nature163: 177.
- et al. 1949. Jour. Chem. Soc: 3145–3151.
Houch, L., andJ. K. N. Jones. 1952. Chem. & Ind: 715.
—, et al. 1950. Nature165: 34–35.
-, et al. 1949. Jour Chem. Soc: 2511–2516.
-, et al. 1950. Jour. Chem. Soc: 1702–1706.
Hughes, L. C., andH. D. Fowler. 1953. Nature172: 316.
Jermyn, M. A., andF. A. Isherwood. 1956. Biochem. Jour.64: 123–132.
Kent, P. W. 1952. Chem. & Ind: 1176–1177.
Khym, J. X., andL. P. Zill. 1952. Jour. Amer. Chem. Soc.74: 2090–2094.
Klevstrand, R., andA. Nordal. 1950. Acta. Chem. Scand.4: 1320.
Kuhn, R., andI. Low. 1949. Chem. Ber.82: 479–481.
Laidlaw, R. A., andS. G. Reid. 1950. Nature166: 476–477.
Lenz, R. W., andC. V. Holmberg. 1956. Anal. Chem.28: 7–8.
Lindberg, B., andJ. McPherson. 1954. Acta Chem. Scand.8: 1547–1550.
MacLeod, A. M. 1954. Jour. Inst. Brewing59: 462–469.
Matsuda, Y. 1951. Tohoko Jour. Exp. Med.45: 383–388.
McFarren, E. F., et al. 1951. Anal Chem.23: 1146–1149.
Noggle, G. R., andL. P. Zill. 1952. Arch. Biochem. & Biophys.41: 21–28.
Nordal, A., andR. Klevstrand. 1951. Acta Chem. Scand.5: 898–900.
Partridge, S. M. 1946. Nature158: 270.
Petuely, F. 1953. Monats. Chemie84: 298–312.
Rebenfeld, L., andE. Pacsu. 1953. Jour. Amer. Chem. Soc.75: 4370–4371.
Schmidhauser, T. 1955. Ber. Schweiz. Bot. Ges.65: 302–342.
Shaefer, W. C., andJ. W. Van Cleve. 1956. Anal. Chem.28: 1290–1293.
Shu, P. 1950. Canad. Jour. Res.28B: 527–534.
Soutar, T. H., andE. Hampton. 1954. Nature174: 801–802.
Toshchevikova, A. G. 1950. Biol. Nauki7: 71.
Wallenfels, K. 1950. Naturwiss.37: 491–492.
Wanner, H. 1952. Ber. Schweiz. Bot. Ges.62: 205–217.
—. 1953. Ber. Schweiz. Bot. Ges.63: 162–168.
Whistler, R. L., andD. F. Durso. 1950. Jour. Amer. Chem. Soc.72: 677–679.
White, L. M., andG. E. Secor. 1955. Anal. Chem.27: 1016–1018.
Willis, A. J., andE. W. Yemm. 1955. New Phytol.54: 289–291.
Wolf, M. J., et al. 1952. Cereal Chem.29: 399–406.
Phosphorylated Compounds, Purines and Pyrimidines
Ågren, G., et al. 1954. Acta Chem. Scand.8: 503–509.
Albaum, H. G., et al. 1950. Arch. Biochem.27: 130–142.
Alivisatos, S. G. A., andD. W. Woolley. 1956. Jour. Biol. Chem.221: 651–663.
Amelung, D. andP. B öhm. 1954. Zeits. Physiol. Chemie298: 199–209.
Anand, N., et al. 1952. Jour. Chem. Soc: 3665–3669.
Anderson, G. 1955. Nature175: 863–864.
Arnon, D. I., et al. 1956. Biochim. & Biophys. Acta20: 449–461.
Aronoff, S., andL. P. Vernon. 1950. Arch. Biochem.28: 424–439.
Axelrod, B., andH. Beevers. 1956. Ann. Rev. Plant Physiol.7: 267–298.
Bacon, J. S., andJ. Edelman. 1951. Biochem. Jour.48: 114–126.
Baddiley, J., et al. 1956. Biochim. & Biophys. Acta21: 191–192.
- andA. P. Mathias. 1954. Chem. & Ind: 277.
Badin, E., andM. Calvin. 1950. Jour. Amer. Chem. Soc.72: 5266–5270.
Bailenger, S., andP. Blanquet. 1951. Bull. Soc. Chim. Biol.33: 1529–1531.
Bandurski, R. S., andB. Axelrod. 1951. Jour. Biol. Chem.193: 405–410.
Bassham, J. A., et al. 1954. Jour. Amer. Chem. Soc.76: 1760–1770.
Bean, R. C., andW. Z. Hassid. 1955. Jour. Biol. Chem.212: 411–425.
——. 1955. Jour. Amer. Chem. Soc.77: 5737–5738.
Benson, A. A. 1951. Jour. Amer. Chem. Soc.73: 2971.
Berenblum, I., andE. Chain. 1938. Biochem. Jour.32: 295–298.
Bevan, T., et al. 1951. Jour. Chem. Soc: 841–842.
Biswas, B. B. 1956. Nature177: 95–96.
Boulanger, P., andJ. Montreuil. 1951. Bull. Soc. Chim. Biol.33: 784–790.
Buchanan, J. G. 1953. Arch. Biochem. & Biophys.44: 140–149.
Burma, D. P., andD. C. Mortimer. 1956. Arch. Biochem. & Biophys.62: 16–28.
Burrows, S., et al. 1952. Nature170: 800–801.
Cabib, E., andL. F. Leloir. 1954. Jour. Biol. Chem.206: 779–790.
—, et al. 1953. Jour. Biol. Chem.203: 1055–1070.
Calvin, M., andP. Massini. 1952. Experientia8: 445–457.
Caputto, R., et al. 1950. Jour. Biol. Chem.184: 333–350.
Carpenter, D. C. 1952. Anal. Chem.24: 1203–1204.
Carter, C. E. 1950. Jour. Amer. Chem. Soc.72: 1466–1471.
—. 1950. Jour. Amer. Chem. Soc.72: 1835–1839.
—. 1956. Ann. Rev. Biochem.25: 123–146.
— andL. H. Cohen. 1956. Jour. Biol. Chem.222: 17–30.
Chargaff, E., et al. 1948. Jour. Biol. Chem.175: 67–71.
Cohen, S., andD. B. M. Scott. 1950. Science111: 543–544.
Cohn, W. E. 1949. Jour. Amer. Chem. Soc.71: 2275–2276.
Crammer, J. L. 1948. Nature161: 349.
Crosbie, G. W., et al. 1953. Biochem. Jour.54: 287–292.
Crowther, J. P. 1954. Anal. Chem.26: 1383–1386.
Daly, M. M., andA. E. Mirsky. 1949. Jour. Biol. Chem.179: 981–982.
Dawson, R. M. C. 1954. Biochim. & Biophys. Acta14: 374–379.
Deickert, J. W., andR. Reiser. 1955. Fed. Proc.14: 202–203.
Deutsch, A., andR. Nilsson. 1953. Acta. Chem. Scand.7: 858–861.
Dulberg, J., et al. 1952. Jour. Biol. Chem.194: 199–213.
Dutton, G. J., andI. D. Storey. 1949. Biochem. Jour.53: xxxvii-xxxviii.
Edman, P., et al. 1949. Jour. Biol. Chem.178: 395–398.
Eggleston, L. V. 1954. Biochem. Jour.58: 503–506.
—, andR. Hems. 1952. Biochem. Jour.52: 156–160.
Ferguson, W. S., andR. A. Terry. 1953. Nature172: 346–347.
Fiedler, U., andH. Schwartz. 1955. Arzneimittel-Forsch.5: 447–453.
Fleckstein, A., et al. 1953. Naturwiss.40: 462.
Ganguli, N. C. 1953. Sci. & Cul. [India]19: 100–101.
Ginsberg, V., et al. 1956. Jour. Biol. Chem.223: 977–983.
Goeller, J. P., andS. Sherry. 1950. Proc. Soc. Exp. Biol. Med.74: 381–382.
Goodwin, B. C., andE. R. Waygood. 1954. Nature174: 517–518.
Hack, M. H. 1953. Biochem. Jour.54: 602–605.
Hansen, R G., andE. Hageman. 1956. Arch. Biochem. Biophys.62: 511–512.
Hashimoto, Y., andI. Mori. 1952. Nature170: 1024–1025.
Hasse, K., andM. Specht. 1952. Biochem. Zeits.322: 502–506.
Hecht, E., andC. Mink. 1952. Biochim. & Biophys. Acta8: 641–653.
Hochster, R. M. 1955. Canad. Jour. Microbiol.1: 346–363.
Holiday, E. R., andE. A. Johnson. 1949. Nature163: 216–217.
Huennekens, F. M., et al. 1954. Jour. Biol. Chem.206: 443–447.
Hummel, J. P., andO. Lindberg. 1949. Jour. Biol. Chem.180: 1–11.
Kariyone, T., andT. Inoue. 1954. Jour. Pharm. Soc. Japan74: 301–303.
Kates, M. 1955. Canad. Jour. Biochem. Biophys.33: 575–589.
Kennedy, E. P. 1956. Jour. Biol. Chem.222: 185–191.
Kirchner, J. G., andG. J. Keller. 1950. Jour. Amer. Chem. Soc.72: 1867–1868.
Kornberg, A. 1950. Jour. Biol. Chem.182: 779–792.
Krebs, H. A., andR. Hems. 1953. Biochim. & Biophys. Acta12: 172–180.
Lea, C. H., andD. N. Rhodes. 1955. Biochem. Jour.59: v.
Lederer, M., andH. Silberman. 1952. Anal. Chim. Acta6: 133–134.
Leloir, L. F. 1951. Arch. Biochem. & Biophys.33: 186–190.
— andE. Cabib. 1953. Jour. Amer. Chem. Soc.75: 5445–5446.
— andC. E. Cardini. 1953. Jour. Amer. Chem. Soc.75: 6084.
——. 1955. Jour. Biol. Chem.214: 157–165.
Lindner, R. C., et al. 1956. Plant Physiol.31: 1–4.
Lipton, S. H., et al. 1953. Jour. Amer. Chem. Soc.75: 5449–5450.
Löfgren, N. 1952. Acta Chem. Scand.6: 1030–1035.
Loring, H. S., et al. 1956. Anal. Chem.28: 539–540.
Maizel, J. V., et al. 1956. Plant Physiol.31: 407–408.
Malkin, T., andA. G. Poole. 1953. Jour. Chem. Soc: 3470–3478.
Marinetti, G. V., andE. Stotz. 1955. Jour. Amer. Chem. Soc.77: 6668–6670.
——. 1956. Biochim. & Biophys. Acta21: 168–170.
Markham, R., andJ. D. Smith. 1950. Biochem. Jour.46: 513–517.
——. 1951. Biochem. Jour.49: 401–406.
Marshok, A., andVogel, H. 1951. Jour. Biol. Chem.189: 597–605.
McAllister, R. A. 1950. Nature166: 789.
Morton, R. K. 1950. Nature166: 1092–1095.
Munch-Petersen, A. 1956. Acta Chem. Scand.10: 928–934.
—, et al. 1953. Nature172: 1036–1037.
Newburgh, R. W., andR. H. Burris. 1954. Arch. Biochem. & Biophys.49: 98–109.
Nordal, A., andA. A. Benson. 1954. Jour. Amer. Chem. Soc.76: 5054–5055.
Ochoa, S., andM. Greenberg-Manago. 1955. Jour. Amer. Chem. Soc.77: 3165–3166.
Ogur, M., andG. Rosen. 1950. Arch. Biochem.25: 262–276.
Olley, J. 1956.In: G. Popják and E. Le Breton [eds.] Biochemical problem of lipids. p. 49–55.
Paladini, S. M., andL. F. Leloir. 1952. Biochem. Jour.51: 426–430.
Park, J. T. 1952. Jour Biol. Chem.194: 897–904.
— andM. J. Johnson, 1949. Jour. Biol. Chem.179: 585–592.
Phillips, D. M. P. 1956. Biochim. & Biophys. Acta21: 181–182.
Popjak, G., andG. LeBreton. 1957. Biochemical problems of lipids. 525 pp.
Rathlev, T., andT. Rosenberg. 1956. Arch. Biochem. & Biophys.65: 319–339.
Reguera, R. M., andI. Asimov. 1950. Jour. Amer. Chem. Soc.72: 5781–5782.
Reichard, P. 1949. Jour. Biol. Chem.179: 773–781.
Rhodes, D. N., andC. H. Lea. 1956.In: G. Popják and E. Le Breton [eds.] Biochemical problems of lipids. p. 73–80.
Roberts, D. W. A. 1956. Jour. Biol. Chem.222: 259–270.
Rose, I. A., andB. S. Schweigert. 1951. Jour. Amer. Chem. Soc.73: 5903.
Rouser, G., andW. F. Neumann. 1952. Fed. Proc.11: 278.
Rowan, K. S. 1957. Jour. Exp. Bot.8: 256–271.
Sanadi, D. R., et al. 1954. Biochim. & Biophys. Acta14: 434–436.
Schwimmer, S., et al. 1955. Jour. Agr. Food Chem.3: 257–260.
Schwinck, L. 1956. Planta47: 165–218.
Scott, D. B. M., andS. Cohen. 1951. Jour. Biol. Chem.188: 509–530.
Simonis, W., andL. Schwinck. 1953. Naturwiss.40: 245–246.
Smith, E. E. B., andG. T. Mills. 1954. Biochim. Biophys. Acta13: 386–400.
Smith, J. D., andR. Markham. 1950. Biochem. Jour.46: 509–513.
Snellman, O., andB. Gelotte. 1951. Nature168: 461.
Stadtman, E. R., andH. A. Barker. 1950. Jour. Biol. Chem.184: 769–793.
Thomas, E. D., et al. 1952. Jour. Biol. Chem.196: 575–582.
Tolbert, N. E., andF. B. Gailey. 1955. Plant Physiol.30: 491–499.
— andL. P. Zill. 1954. Arch. Biochem. Biophys.50: 392–398.
——. 1954. Jour. Gen. Physiol.37: 575–588.
Turba, F., andH. I. Enekel. 1951. Naturwiss.38: 189–190.
— andH. Schuster. 1954. Biochem. Zeits.325: 537–547.
— andM. Turba. 1951. Naturwiss.38: 188–189.
Turner, J. F. 1955. Abs. Austral. New Zeal. Assoc. Adv. Sci., Melbourne meeting. Sect. N, Physiol. & Biochem. p 48–49.
Vischer, E. andE. Chargaff. 1948. Jour. Biol. Chem.176: 703–714.
Wade, H. E., andD. M. Morgan. 1953. Nature171: 529–530.
——. 1954. Biochem. Jour.56: 41–43.
Walker, D. G., andF. L. Warren. 1951. Biochem. Jour.49: xxi.
Watanabe, Y., andK. Shimura. 1956. Jour. Biochem. [Japan]43: 283–294.
Williams-Ashman, H. G., andJ. Banks. 1956. Jour. Biol. Chem.223: 509–521.
Wyatt, G. R. 1951. Biochem. Jour.48: 584–590.
Yamawaki, S. 1956. Jour. Biochem. [Japan]43: 683–689.
Zamenhof, S., et al. 1952. Biochim. Biophys. Acta9: 402–405.
Zatman, L. J., et al. 1953. Jour. Biol. Chem.200: 197–212.
Zetterström, R. andM. Ljunggren. 1951. Acta Chem. Scand.5: 291–300.
Proteins
Boman, H. G. 1952. Nature170: 703–704.
Cabib, E. 1952. Biochim. & Biophys. Acta8: 607–614.
Carangal, A. R., Jr., et al. 1955. Phil. Agr.39: 1–16.
Franklin, A. E., andJ. H. Quastel. 1950. Proc. Soc. Exp. Biol. & Med.74: 803–808.
—, et al. 1951. Nature168: 687–689.
—, et al. 1951. Proc. Soc. Exp. Biol. & Med.77: 783–790.
Gillespie, J. M., et al. 1952. Nature169: 487–488.
Giri, K. V., andA. L. N. Prasad. 1951. Nature167: 859–860.
—, et al. 1952. Biochem. Jour.51: 123–128.
Grassman, W., andG. Deffner. 1953. Zeits. Physiol. Chemie293: 89–98.
Hall, D. A., andF. Wewalka. 1951. Nature168: 685–687.
Hirs, C. H. W., et al. 1951. Jour. Amer. Chem. Soc.73: 1893.
Hurst, R O., andG. C. Butler. 1951. Jour. Biol. Chem.193: 91–96.
Jermyn, M. A. 1952. Nature169: 488–489.
Jones, J. I. M., andS. E. Michael. 1950. Nature165: 685.
Martin, A. J. P., andR. R. Porter. 1951. Biochem. Jour.49: 215–218.
Mitchell, H. K., et al. 1949. Jour. Biol. Chem.180: 1071–1076.
Papastamatis, S. C., andJ. F. Wilkinson. 1951. Nature167: 724–725.
Ragetli, H. W. J., andJ. P. H. van der Want. 1954. Kon. Ned. Akad. Wet., Proc.57C: 621–627.
Reid, W. W. 1951. Nature168: 739–740.
Simonart, P., andK. Y. Chow. 1951. Enzymologia14: 356–361.
Sober, H. A., et al. 1949. Science110: 564–565.
Swingle, S. M., andA. Tiselius. 1951. Biochem. Jour.48: 171–174.
Tiselius, A. 1948. Ankiv. Kemi. Min. Geol.26B: 1–5.
Amino Acids
Abderhalden, E., et al. 1913. Zeits. Physiol. Chemie.85: 131–135.
Abelson, P. H. 1954. Jour. Biol. Chem.206: 335–343.
—. 1954. Sci. Amer.195: 83–92.
—, et al. 1952. Jour. Biol. Chem.198: 173.
—, et al. 1953. Proc. Nat. Acad. Sci.39: 1020–1026.
Acher, R., et al. 1950. Biochim. & Biophys. Acta5: 81–88.
Ackermann, D. 1910. Zeits. Physiol. Chemie69: 273–281.
Adelberg, E. A., andM. Rabinovitz. 1956. Ann. Rev. Biochem.25: 349–396.
Alderton, G., andH. L. Fevold. 1951. Jour. Amer. Chem. Soc.73: 463–464.
——. 1953. Jour. Amer. Chem. Soc.75: 2391–2392.
Allsopp, A. 1948. Nature161: 833–835.
Andahl, R., et al. 1956. Nature178: 1063.
Asselineau, J., et al. 1950. Biochim. & Biophys. Acta5: 197.
Auclair, J. L., andC. A. Jamieson. 1948. Science108: 357–358.
— andJ. B. Maltais. 1950. Canad. Entomol.82: 175–176.
Bailey, K., andF. Sanger. 1951. Ann. Rev. Biochem.20: 103.
Baker, C. G., andA. Meister. 1951. Arch. Biochem.31: 460–461.
Barbier, M. andE. Lederer. 1952. Ann. Rev. Biochem.23: 630.
Bartz, R., et al. 1954. Nature173: 72–73.
Bazemore, A., et al. 1956. Nature178: 1052–1053.
Bell, P. H., et al. 1949. Ann. N. Y. Acad. Sci.51: 897–908.
Benesch, R. E., et al. 1956. Science123: 981.
Benoiton, L., andL. P. Bouthillier. 1956. Canad. Jour. Biochem. & Physiol.34: 661–667.
Berg, C. P. 1953. Physiol. Rev.33: 145–189.
Berg, A. M., et al. 1954. Acta Chem. Scand.8: 358.
— andA. I. Virtanen. 1954. Acta Chem. Scand.8: 1725.
Blass, J., andM. Macheboef. 1945. Helv. Chim. Acta29: 1315–1317.
Block, R. J., andD. Bolling. 1951. The amino acid composition of proteins and foods. Sec. ed. 576 pp.
- andK. W. Weiss. 1956. Amino acid handbook. 386 pp.
Bollard, E. G. 1953. Nature171: 571–572.
—. 1956. Nature178: 1189.
Borriss, H., andE. Schneider. 1955. Naturwiss.42: 103.
Boulanger, P., et al. 1951. Ann. Nutr. et Aliment5: 149–171.
Brockmann, H., et al. 1951. Chem. Ber.84: 260–284.
Burroughs, L. F. 1957. Nature179: 360–361.
Carter, H. E., et al. 1952. Jour. Amer. Chem. Soc.74: 3704.
Christiansen, G. S., andK. V. Thimann. 1949. Amer. Jour. Bot.36: 821–822.
——. 1950. Arch. Biochem.28: 117–129.
Cifonelli, J. A., andF. Smith. 1955. Anal. Chem.27: 1501–1502.
Coleman, R. G., andM. P. Hegarty. 1957. Nature179: 376–377.
— andF. J. Richards. 1956. Ann. Bot. N. S.20: 393–409.
Consden, R., et al. 1946. Biochem. Jour.40: 580–582.
— 1945. Biochem. Jour.39: 251–258.
Coulson, C. B. 1955. Nature176: 518–519.
—. 1955. Jour. Sci. Food & Agr.11: 674–682.
Dakin, H. D. 1941. Jour. Biol. Chem.140: 847–852.
Dalgliesh, C. E., et al. 1950. Jour. Chem. Soc. 2946–2952.
Damodaran, M., andK. G. A. Narayanan. 1940. Biochem. Jour.31: 1449–1459.
Dent, C. E. 1948. Biochem. Jour.43: 169–180.
—, andD. I. Fowler. 1954. Biochem. Jour.56: 54–55.
—, et al. 1947. Nature160: 682–683.
Dunn, M. 1938.In: Schmidt, C. L. A. [ed.] The chemistry of the amino acids and proteins. Chap. 2.
-. 1943.In: Schmidt, C. L. A. [ed.] The chemistry of the amino acids and proteins. Sec. Ed. Chap. 2.
Ehrensvard, G. 1955. Ann. Rev. Biochem.24: 275–310.
El-Shazly, K. 1952. Biochem. Jour.51: 647–653.
Erdman, J., et al. 1956. Science124: 1026.
Euler, H., et al. 1937. Zeits. Physiol. Chemie248: 227–241.
Fearon, W. R., andE. A. Bell. 1955. Biochem. Jour.59: 221–224.
Feldman, L. I., andI. C. Gunsalus. 1950. Jour. Biol. Chem.187: 821–830.
Fling, M., andN. H. Horowitz. 1951. Jour. Biol. Chem.190: 277–285.
Fowden, L. 1951. Biochem. Jour.50: 355–358.
—. 1951. Nature167: 1030–1031.
—. 1955. Nature176: 347–348.
— andJ. Done. 1953. Biochem. Jour.53: xxxi-xxxii.
— andF. C. Steward. 1957. Anal. Bot. N. S.21: 53–67.
——. 1957. Anal. Bot. N. S.21: 69–84.
Freudenberg, K. 1918. Ber.51: 976–982.
Fromageot, C., andM. Jutisz. 1953. Ann. Rev. Biochem.22: 629–678.
Ganguli, N. C. 1954. Naturwiss.41: 140–141.
—. 1955. Naturwiss.42: 18.
Giri, K. V., andA. Nagabhushunan. 1952. Naturwiss.39: 548.
Gmelin, R., et al. Zeits. Naturforschung13b: 252–256.
Gorbach, G., et al. 1955. Mikrochim. Acta: 1037–1047.
Greenstein, J. P. 1935. Jour. Biol. Chem.109: 529–540.
—, et al. 1955. Jour. Amer. Chem. Soc.77: 707–716.
Grobbelaar, N., andF. C. Steward. 1953. Jour. Amer. Chem. Soc.75: 4341–4343.
—, et al. 1954. Jour. Amer. Chem. Soc.76: 2912–2915.
Hagemann, L. P. andJ. Teillon. 1955. Biochim. et Biophys. Acta17: 240–243.
Hardy, T. L., et al. 1955. Anal. Chem.27: 971–974.
Harris, G. 1952. Jour. Inst. Brew.49 (N.S.): 417–428.
— andJ. R. A. Pollock. 1953. Jour. Inst. Brew.59: 28–35.
Haskell, T. H., et al. 1952. Jour. Amer. Chem. Soc.74: 599–602.
Haworth, R. D., et al. 1951. Nature.167: 1068.
Hegarty, M. P. 1957. Austral. Jour. Chem.10: 484–488.
Hewitt, E. J., et al. 1949. Nature163: 681.
Heyns, K., andW. Walter. 1951. Zeits. Physiol. Chemie287: 15–18.
Horowitz, N. H. 1947. Jour. Biol. Chem.171: 255–264.
Hulme, A. C. 1954. Nature174: 1055–1056.
- and W. Arthington. Nature165: 716–717.
——. 1952. Nature170: 659–660.
——. 1954. Nature173: 588–589.
— andF. C. Steward. 1955. Nature175: 171.
Hunt, G. E. 1951. Amer. Jour. Bot.38: 452–457.
Jahns, E. 1891. Ber.24: 2615–2617.
Jepson, J. B., andI. Smith. 1953. Nature172: 1100–1101.
Johnstone, J. H. 1956. Biochem. Jour.64: xxi.
Kating, H. 1955. Arch. Mikrobiol.22: 396–407. Naturwiss.41: 164.
Kawerau, E., andT. Wieland. 1951. Nature168: 77–78.
Kemble, A. R., andH. T. Macpherson. 1954. Biochem. Jour.56: 548–555.
Keser, M. 1955. Planta45: 273–288.
Khabas, I. M., andS. B. El’kin. 1955. Byull. Eksptl. Biol. Med.40: 79.
Kahn, N. A., et al 1955. Jour. Agr. Food Chem.3: 853–855.
Kihara, H., et al. 1955. Jour. Biol. Chem.217: 497–503.
King, F. E., et al. 1950. Jour. Chem. Soc. 3590–3597.
Kitagawa, M., andT. Tomita. 1929. Proc. Imp. Acad. [Tokyo]5: 380–383.
- andH. Yamada. 1933. Chem. Zentralblatt: 2559–2560.
Klatzkin, C. 1952. Nature169: 422.
Laloraya, M. M., et al. 1955. Cur. Sci. [India]24: 203.
Lambert, J. L. 1951. Anal. Chem.23: 1247.
Landua, A. J., andJ. Awapara. 1949. Science109: 385.
Linko, P., et al. 1953. Acta Chem. Scand.7: 1310–1311.
—, et al. 1957. Jour. Exp. Bot.8: 147–156.
Linskens, H. F., andR. Knapp. 1955. Planta45: 106–117.
Low, E. M. 1955. Jour. Marine Res. [Sears Foundation]14: 199–204.
Mars, P. H. 1953. Pharm. Weekblad88: 319–320. Chem. Abst.47: 8585.
McElroy, W. D., andH. B. Glass. 1955. A symposium on amino acid metabolism. 1085 pp.
- and -. 1956. A symposium on inorganic nitrogen metabolism. 728 pp.
McKee, H. S. 1954. VIII Int. Bot. Congr. [Paris] Rapps. et Communs.8: sect 11/12, 401–403.
— andG. E. Urbach. 1953. Austral. Jour. Biol. Sci.6: 369–378.
McRorie, R. A., et al. 1954. Jour. Amer. Chem. Soc.76: 115–118.
Meister, A. 1956. Physiol. Rev.36: 103–127.
Metzenberg, R. L., andH. K. Mitchell. 1954. Jour. Amer. Chem. Soc.76: 4187.
Miettinen, J. K. 1955. Ann. Acad. Sci. Fennicae.2A: 520–535.
—, et al. 1953. Suomen Kemistilehti26B: 26–30.
— andA. I. Virtanen. 1952. Physiol. Plant.5: 540–557.
Moore, S., andW. H. Stein. 1948. Jour. Biol. Chem.176: 367–388.
. 1954. Jour. Biol. Chem.211: 893.
Morris, C. J., andJ. F. Thompson. 1955. Chem. & Ind: 951.
——. 1956. Jour. Amer. Chem. Soc.78: 1605–1608.
Morrison, R. I. 1952. Biochem. Jour.50: xiv.
—. 1953. Biochem. Jour.53: 474–478.
Mueller, G. C., et al. 1955. Anal. Chem.27: 1357–1358.
Naftalin, L. 1948. Nature161: 763.
Naylor, A. W., andN. E. Tolbert. 1956. Physiol. Plant.9: 220–229.
Neu, R., andU. Fiedler. 1954. Naturwiss.41: 259–260.
Newton, G. G. F., andE. P. Abraham. 1953. Nature171: 606.
Okunuki, K. 1937. Bot. Mag. [Tokyo]51: 270–278.
Oland, K., andE. W. Yemm. 1956. Nature178: 219.
Pasieka, A. E., andJ. F. Morgan. 1955. Biochim. & Biophys. Acta18: 236–240.
Patton, A. R., andE. M. Foreman. 1949. Science109: 339.
Plattner, P. A., andU. Nager. 1948. Helv. Chim. Acta31: 2192–2203.
Pollard, J. K., andF. C. Steward. 1955. Plant Physiol.30 (Suppl): xxvii.
——. 1956. Plant Physiol.31 (Suppl): ix.
Rabideau, G. S., andM. B. Edwards. 1951. Plant Physiol.26: 798–806.
Racusen, D., andS. Aronoff. 1954. Arch. Biochem. & Biophys.51: 68–78.
Radhakrishnan, A. N., andK. V. Giri. 1954. Biochem. Jour.58: 57–61.
—, et al. 1955. Jour. Indian Inst. Sci.37A: 178–194.
Redfield, R. R. 1953. Biochim. & Biophys. Acta10: 344.
Reed, L. J. 1950. Jour. Biol. Chem.183: 451–458.
Reith, W. S. 1957. Nature179: 580.
Rhuland, L. E., et al. 1955. Jour. Amer. Chem. Soc.77: 4844–4846.
Roche, J., andY. Yagi. 1953. Compt. Rend. Soc. Biol.146: 642–645.
Rydon, H. N., andP. W. G. Smith. 1952. Nature169: 922.
Sakato, Y. 1950. Jour. Agr. Chem. Soc. Japan23: 262–267.
Schilling, E. D., andF. M. Strong. 1954. Jour. Amer. Chem. Soc.76: 2848.
Sen, S. P., andD. P. Burma. 1953. Bot. Gaz.115: 185–190.
Sivaramakrishnan, V. M., andP. S. Sarma. 1956. Biochem. Jour.62: 132–135.
Sjoquist, J. 1953. Acta Chem. Scand.7: 447.
Smith, D. G., andE. G. Young, 1955. Jour. Biol. Chem.217: 845–853.
Srb, A. M., andN. H. Horowitz. 1944. Jour. Biol. Chem.154: 129–139.
Steiner, M., andE. S. v. Kamienski. 1953. Naturwiss.40: 483.
Steward, F. C., et al. 1956. Nature178: 734–738, 789–792.
—, et al. andJ. K. Pollard. 1956. Plant Physiol.31 (Suppl): ix.
——. 1957. Ann. Rev. Plant Physiol.8: 65–114.
—, et al. 1949. Science110: 439.
—, et al. 1951. Plant Physiol.26: 123–125.
—, et al. 1955. Amer. Jour. Bot.42: 946–948.
—, et al. 1955. Ann. Acad. Sci. Fennicae60: 321–366.
Stoll, A., andE. Seebeck. 1947. Experientia3: 114–115.
——. 1951. Adv. Enzymol.11: 377–400.
Synge, R. L. M. 1955.In: Paech, K., & M. V. Tracey [Eds.] Modern methods of plant analysis. Vol.4: 1–22.
— andJ. C. Wood. 1955. Biochem. Jour.60: xv-xvi.
——. 1956. Biochem. Jour.64: 252–259.
Tamelen, E. E. V., andE. E. Smissman. 1952. Jour. Amer. Chem. Soc.74: 3713–3714.
Thompson, J. F., et al. 1956. Nature178: 593.
—, et al. 1953. Plant Physiol.28: 401–414.
Toennies, G., andJ. J. Kolb. 1951. Anal. Chem.23: 823–826.
Tryhorn, F. G., andA. S. Curry. 1956. Nature178: 1180.
Urbach, G. E. 1955. Nature175: 170–171.
Venekamp, J. H. 1955. Acta Bot. Neerl.4: 487–548.
Vickery, H. B. 1941. Ann. N. Y. Acad. Sci.41: 87–120.
Virtanen, A. I., andA. M. Berg. 1954. Acta Chem. Scand.8: 1085–1086.
——. 1955. Acta Chem. Scand.9: 553–554.
—, et al. 1953. Acta Chem. Scand.7: 1423–1424.
— andT. Ettala. 1957. Acta Chem. Scand.11: 182–184.
— andP. K. Hietala. 1955. Acta Chem. Scand.9: 175–176.
——. 1955. Acta Chem. Scand.9: 549–550.
— andS. Kari. 1954. Acta Chem. Scand.8: 1290–1291.
——. 1955. Acta Chem. Scand.9: 170–171.
— andT. Laine. 1936. Enzymologia3: 266–270.
——. 1937. Soumen Kemistilehti10B: 2.
— andP. Linko. 1955. Acta Chem. Scand.9: 531–532.
—, et al. 1954. Acta Chem. Scand.8: 1091–1093.
Walker, J. B. 1952. Proc. Nat. Acad. Sci. [U. S.]38: 561–566.
—. 1953. Jour. Biol. Chem.204: 139–146.
Westfall, R. G. 1950. Nature165: 717–718.
Wilson, A. T. 1954. Univ. Cal., Rad. Lab. No. 2589.
Windsor, E. 1951. Jour. Biol. Chem.192: 595–606.
Wohl, A., andA. Johnson. 1907. Ber. Deut. Chem. Ges.40: 4712–4719.
Wolfe, M. 1957. Biochim. & Biophys. Acta23: 186.
Wooley, D. W., et al. 1952. Jour. Biol. Chem.198: 807–813.
Work, E. 1950. Nature165: 74–75.
—. 1950. Biochem. Jour.49: 17–23.
Yemm, E. W., andE. C. Cocking. 1955. Analyst80: 209–213.
Zacharius, R. M., et al. 1952. Jour. Amer. Chem. Soc.74: 2949.
Zweig, G. 1956. Anal. Chem.28: 428.
- andS. L. Hood. 1956. Amer. Chem. Soc., Abs. p. 22c April 8–13, 1956.
Alkaloids
Aronoff, S. 1956. Plant Physiol.31: 355–357.
Bothner-By, A. A., et al. 1956. Experientia12: 151–152.
Bowden, K. 1953. Nature172: 768.
Byerrum, R. U., et al. 1956. Plant Physiol.31: 374–377.
Curry, A. S., andH. Powell. 1954. Nature173: 1143–1144.
Cuzin, J., andA. Fardy 1956. Rev. Int. Tabacs31: 164.
Dawson, R. F. 1945. Amer. Jour. Bot.32: 416–423.
— et al. 1953. Jour. Amer. Chem. Soc.75: 5114–5116.
— et al. 1956. Jour. Amer. Chem. Soc.78: 2645–2646.
Dewey, L. J., et al. 1955. Biochem. & Biophys. Acta18: 141–142.
Feinstein, L., andE. T. McCabe. 1950. Science112: 534.
Frankenburg, W. G., andA. M. Gottscho. 1952. Ind. & Eng. Chem.44: 301–305.
—, et al. 1952. Jour. Amer. Chem. Soc.74: 4309–4314.
—, et al. 1955. Jour. Amer. Chem. Soc.77: 5730–5732.
Griffith, R. B., et al. 1955. Science121: 343–344.
Haines, P. G., et al. 1945. Jour. Amer. Chem. Soc.67: 1258–1262.
Hills, K. L., et al. 1953. Nature171: 435.
— andC. N. Roswell. 1951. Austral. Jour. Sci. Res.B4: 486–489.
Houston, F. G. 1952. Anal. Chem.24: 1831–1832.
Huebner, C. F. 1951. Nature167: 119–120.
Jeffrey, R. N. andW. H. Eoff. 1956. Anal. Chem.27: 1903–1905.
— andT. C. Tso 1955. Jour. Agr. Food Chem.3: 680–682.
Johnson, B. C., andPei-Hsing-Lin. 1953. Jour. Amer. Chem. Soc.75: 2971–2973.
Kato, M. 1953. Kagaku23: 478–479.
Kato, M. 1953. [Chem. Abs.47: 12129h]
Kodicek, E., andK. K. Reddi. 1951. Nature168: 475–477.
Koenig, W. 1904. Jour. Prakt. Chemie69: 105–137.
Kraft, D. 1953. Pharmazie8: 251–256.
Kraft, D. 1953 [Chem. Abs.47: 11665c]
Kroner, R. C., et al. 1952. Anal. Chem.24: 1877–1881.
Kuffner, F., andK. Schick. 1954. Fachliche Mitt. Österr. Tabakregie 1–7.
Latimer, P. H. [Private communication]
Leete, E. 1955. Chem. & Ind: 537.
—. 1956. Jour. Amer. Chem. Soc.78: 3520–3523.
Leiserson, L., andT. B. Walker. 1955. Anal. Chem.27: 1129–1130.
List, P. H. 1954. Naturwiss.41: 454.
Munier, R., andM. Macheboeuf. 1949. Bull. Soc. Chim. Biol.31: 1144–1162.
——. 1950. Bull. Soc. Chim. Biol.32: 192–212.
——. 1950. Compt. Rend. Acad. Sci. [Paris]230: 1177–1179.
——. 1951. Bull. Soc. Chim. Biol.33: 846–856.
——. 1951. Bull. Soc. Chim. Biol.33: 857–861.
— et al. 1951. Bull. Soc. Chim. Biol.33: 1919–1921.
Michl, H., et al. 1956. Fachlihe Mitt. Österr. Tabakregie: 13–16. 256
Mortimer, P. I. 1953. Nature172: 74–75.
Petrosini, G. 1954. Tobacco58: 39–55.
Petrosini, G. 1954. [Chem. Abs.48: 7127e]
Porter, W. L. et al. 1949. Arch. Biochem.24: 461–463.
Quagliariello, G., et al. 1951. Boll. Soc. Ital. Biol. Sper.27: 1688–1691.
Quagliariello, G., et al. 1951. [Chem. Abs.47: 8809a]
Robinson, R. 1953. Nature172: 344–345.
Schute, J. B. 1951. Pharm. Weekblad86: 201–212.
Schultz, O. E., andD. Strauss. 1955. Deut. Apoth. Ztg.95: 642–644. [Brit. Anal. Abs.3: 215.]
Steinberg, R. A., andR. N. Jeffrey. 1956. Plant Physiol.31: 377–382.
Tewari, S. N. 1954. Naturwiss.41: 217.
Thies, H., andF. W. Reuther. 1954. Naturwiss.41: 230–231.
——. 1955. Naturwiss.42: 486–487.
Tso, T. C. [Private communication]
— andR. N. Jeffrey. 1956. Plant Physiol.31: 433–440.
Wada, E. 1956. Arch. Biochem. & Biophys.62: 471–475.
Wegner, E. 1953. Tabak-Forsch., Wiss. Beilage Tabak-Ztg. Sonderheft. 20–22.
—. 1953. Naturwiss.40: 580–581.
-. 1953. Tabak-Forsch., Wiss. Beilage Tabak Ztg. Sammel-heft No. 1, No. 10, 3 pp.
Werle, E., andJ. Koch. 1951. Naturwiss.38: 333.
Wollish, E. G., et al. 1951. Anal. Chem.23: 768–771.
Wyatt, G. R. 1951. Biochem. Jour.48: 581–584.
Zacharius, R. M. [Unpub.]
-. 1953. Ph.D. Diss., Univ. Rochester.
Zaffaroni, A., et al. 1949. Jour. Biol. Chem.177: 109–116.
Auxins
Andreae, W. A., andN. E. Good. 1955. Plant Physiol.30: 380–382.
Bennet-Clark, T. A., andN. P. Kefford. 1953. Nature171: 645–647.
Bentley, J. A., et al. 1956. Biochem. Jour.64: 44–49.
Bitancourt, A. A., et al. 1954. Compt. Rend. Soc. Biol.148: 822–825.
Blommaert, K. L. J. 1954. Nature174: 970–972.
Bolle-Jones, E. W. 1954. Nature173: 127–128.
Bonner, J. 1933. Jour. Gen. Physiol.17: 63–76.
Boysen-Jensen, P. 1939. Bot. Not. 169–175.
—. 1941. Planta31: 653–669.
Dalgliesh, C. E. 1956. Biochem. Jour.64: 481–485.
Denffer, D. v., et al. 1952. Naturwiss.39: 550–551.
— andA. Fischer. 1952. Naturwiss.39: 549–550.
Feigl, F. 1954. Spot tests. Vol. II. Organic applications. 436 pp.
Fischer, A. 1954. Planta43: 288–314.
— andM. Behrens. 1952. Zeits. Physiol. Chemie291: 242–244.
Goodwin, R. H. 1939. Amer. Jour. Bot.26: 130–138.
Gordon, S. A., andF. S. Nieva. 1949 Arch. Biochem.20: 356–366.
— andR. P. Weber. 1951. Plant Physiol.26: 192–195.
Guttenberg, H. V., et al. 1954. Naturwiss.41: 334–335.
Haagen-Smit, A. J., et al. 1946. Amer. Jour. Bot.33: 118–119.
Hancock, C. R., andH. W. B. Barlow. 1952. East Mailing Res. Sta., Ann. Rep. 88–94.
Hemberg, T. 1947. Acta Hort. Berg.14: 133–220.
Hinsvark, O. N., et al. 1954. Plant Physiol.29: 107–108.
Holley, R. W., et al. 1951. Arch. Biochem. Biophys.32: 192–199.
Jerchel, D., andR. Muller. 1951. Naturwiss.38: 561–562.
Jones, E. R. H., et al. 1952. Nature169: 485–487.
Kefford, N. P. 1955. Jour. Exp. Bot.6: 129–151.
Kögl, F., andD. G. F. R. Kostermans. 1934. Zeits. Physiol. Chemie228: 113–121.
Koshimizu, K., andT. Mitsui. 1956. Jour. Agr. Chem. Soc. Japan30: 63–66.
Kramer, M., andF. W. Went. 1949. Plant Physiol.24: 207–221.
Larsen, P. 1944. Dansk. Bot. Ark.11: 1–132.
—. 1955. Physiol. Plant.8: 343–357.
Lexander, K. 1953. Physiol. Plant.6: 406–411.
Linser, H. 1951. Planta39: 377–401.
—, et al. 1954. Planta44: 103–120.
Luckwill, L. C. 1952. Nature169: 375.
—. 1956. Jour. Hort. Sci.31: 89–98.
—. 1957. Jour. Hort. Sci.32: 18–33.
— andL. E. Powell, Jr. 1956. Science123: 225–226.
Lund, H. A. 1956. Amer. Jour. Bot.43: 562–568.
Mitchell, J. W., andB. C. Brunstetter. 1939. Bot. Gaz.100: 802–816.
Moewus, F. 1948. Naturwiss.35: 124–125.
Muller, R. 1953. Beitr. Biol. Pfl.30: 1–32.
Niggemann, J. 1955. Naturwiss.42: 98.
Nitsch, J. P. 1955. Plant Physiol.30: 33–39.
—. 1955. [From The Chemistry and Mode of Action of Plant Growth Substances, the proceedings of the Wye College Symposium,Wain R. L. &Wightman F. ed. 1955. Butterworths Scientific Publications. London.]
— andC. Nitsch. 1955. Beitr Biol. Pfl.31: 387–408.
——. 1956. Plant Physiol.31: 94–111.
Pacheco, H. 1951. Bull. Soc. Chim. Biol.33: 1915–1918.
Redemann, C. T., et al. 1951. Arch. Biochem. & Biophys.32: 80–84.
Rietsema, J., et al. 1954. Proc. Nat. Acad. Sci. [U.S.]40: 424–431.
Salkowski, E. 1885. Zeits. Physiol. Chemie9: 23–33.
Schwartz, K., et al. 1955. Arquiv. Inst. Biol. [Sao Paulo]22: 93–118.
Sen, S. P., andA. C. Leopold. 1954. Physiol. Plant.7: 98–108.
Snow, R. 1939. Nature144: 906.
Soding, H. 1954. Int. Bot. Congr. [Paris,] Rapps et communs. 8, Sect. 11/12. 148.
Spiegel, P. 1954. Bull. Res. Counc. Israel4: 176–183.
Stowe, B. B. 1955. Biochem. Jour.61: ix.
— andK. V. Thimann. 1954. Arch. Biochem. & Biophys.51: 499–516.
—, et al. 1956. Plant Physiol.31: 162–165.
Tang, Y. W., andJ. Bonner. 1947. Arch Biochem.13: 11–25.
Terpstra, W. 1953. Kon. Ned. Akad. Wet., Proc.56c: 206–213.
Teubner, F. G. 1953. Science118: 418.
Thimann, K. V. 1935. Jour. Biol. Chem.109: 279–291.
Van Overbeek, J., et al. 1945. Bot. Gaz.106: 440–451.
Varga, M. B., andL. Ferenczy. 1956. Nature178: 1075.
Vlitos, A. J., andW. Meudt. 1953. Contr. Boyce Thompson Inst.17: 197–202.
——. 1954. Contr. Boyce Thompson Inst.17: 401–411.
——. 1954. Contr. Boyce Thompson Inst.17: 413–417.
—, et al. 1956. Nature177: 890–891.
—, et al. 1956. Contr. Boyce Thompson Inst.18: 283–294.
Weller, L. E., et al. 1954. Jour. Amer. Chem. Soc.76: 629–630.
Wildman, S. G., andJ. Bonner. 1948. Amer. Jour. Bot.35: 740–746.
Wittwer, S. H. 1943. Mo. Agr. Exp. Sta., Res. Bull. 371.
Wolf, F. T. 1952. Proc. Nat. Acad. Sci. [U.S.]38: 106–111.
Wright, S. T. C. 1956. Jour. Hort. Sci.31: 196–211.
Yamaki, T. 1950. Misc. Rep. Res. Inst. Nat. Res. (Shigen Kagaku Kenkyusyo) Nos. 17-18: 180–188.
— andK. Nakamura. 1952. Sci. Papers Coll. Gen. Educ., Univ. Tokyo2: 81–98.
Pigments and Related Compounds
Anet, E. F. L. J., andT. M. Reynolds. 1953. Nature172: 1188–1189.
Asami, M. 1952. Bot. Mag. Tokyo65: 217–223.
Asquith, R. S. 1952. Jour. Soc. Leather Trades’ Chem.36: 316–322.
Barber, G. A. 1956. Arch. Biochem. & Biophys.64: 401–411.
Bate-Smith, E. C. 1953. Jour. Exp. Bot.4: 1–9.
—. 1954. Biochem. Jour.58: 122–125.
-. 1956. Chem. & Ind. Brit. Inds. Fair. Rev. Apr. R32–33.
- andT. Swain. 1953. Jour. Chem. Soc. 2185–2187.
—, et al. 1955. Nature176: 1016–1018.
-, et al. 1953. Chem. & Ind: 1127.
Bauer, L. 1952. Naturwiss.39: 88.
Black, R. A., et al. 1953. Jour. Amer. Chem. Soc.75: 5344–5346.
Blumer, M. 1956. Anal. Chem.28: 1640–1644.
Bockian, A. H., et al. 1955. Jour. Agr. & Food. Chem.3: 695–699.
Bradfield, A. E., andA. E. Flood. 1952. Jour. Chem. Soc: 4740–4744.
— andM. Penney. 1944. Jour. Soc. Chem. Ind.63: 306–310.
- and -. 1948. Jour. Chem. Soc: 2249–2254.
-, et al. 1947. Jour. Chem. Soc: 32–36.
Brown, W. G. 1939. Nature143: 377.
Cartwright, R. A., andE. A. H. Roberts. 1954. Jour. Sci. Food Agr.5: 593–597.
-, et al. 1955. Chem. & Ind: 1062–1063.
Casteel, H. W., andS. H. Wender. 1953. Anal. Chem.25: 508–509.
Chang, W., et al. 1952. Jour. Amer. Chem. Soc.74: 5766.
Chiba, Y. 1955. Arch. Biochem. & Biophys.54: 83–92.
— andI. Noguchi. 1954. Cytologia19: 41–47.
Clark-Lewis, J. W. 1955. Chem. & Ind: 1218.
Corwin, L. M., andJ. M. Orten. 1954. Anal. Chem.26: 608–609.
Craig, L. C., andD. Craig. 1950.In: A. Weissberger [ed.] Extraction and distribution techniques of organic chemistry. Vol.3 : 171–311.
Cruickshank, I. A. M., andT. Swain, 1956. Jour. Exp. Bot.7: 410–415.
Della Rosa, R. J., et al. 1953. Jour. Biol. Chem.202: 771–779.
Dillaha, J., et al. 1951. Proc. Okla. Acad. Sci.32: 102–104.
Douin, R. 1953. Rev. Gen. Bot.60: 777–796.
Dupuy, P., andJ. Puisais. 1955. Compt. Rend. Acad. Sci. [Paris]240: 1802–1804.
Durant, J. A. 1952. Nature169: 1061–1062.
Durmishidze, S. V., andN. N. Nutsubidze. 1954. Doklady Akad. Nauk. S.S.S.R.96: 1197–1199.
Dzhemukhadze, K. M., andG. A. Shal’neva. 1954. Doklady Akad. Nauk. S.S.S.R.99: 1069–1071.
——. 1955. Doklady Akad. Nauk. S.S.S.R.105: 1034–1035.
Eberhardt, F. 1954. Naturwiss.41: 259.
—. 1955. Zeits. Bot.43: 405–422.
Endo, T. 1954. Jap. Jour. Bot.14: 187–193.
Eriksen, L. 1953. Scand. Jour. Clin. & Lab. Invest.5: 155–157.
Evans, R. A., et al. 1949. Nature164: 674–675.
Forsyth, W. G. C. 1952. Biochem. Jour.51: 516–520.
—. 1955. Biochem. Jour.60: 108–111.
— andV. C. Quesnel. 1957. Biochem. Jour.65: 177–179.
— andJ. E. Rombouts. 1952. Jour. Sci. Food Agr.3: 161–164.
— andN. W. Simmons. 1954. Proc. Roy. Soc. [London]B142: 549–564.
Fouassin, A. 1956. Rev. Ferment. & Inds. Aliment.11: 174–192.
Freeman, J. H. 1952. Anal. Chem.24: 955–959.
Gage, T. B., et al. 1948. Proc. Okla. Acad. Sci.29: 64–67.
—, et al. 1951. Anal. Chem.23: 1582–1585.
— andS. H. Wender. 1950. Anal. Chem.22: 708–711.
Geissman, T. A. 1955.In: Paech, K., and M. V. Tracey. Modern methods of plant analysis. Vol.III: 450–498.
—. 1956. Arch. Biochem. & Biophys.60: 21–26.
— andJ. B. Harborne. 1955. Arch. Biochem. & Biophys.55: 447–454.
—, et al. 1956. Jour. Amer. Chem.78: 825–829.
— andE. Hinreiner. 1952. Bot. Rev.18: 77–244.
—, et al. 1954. Arch. Biochem. & Biophys.49: 368–388.
— andL. Jurd. 1955. Arch. Biochem. & Biophys.56: 259–263.
Grandgaud, R., andI. Garcia. 1952. Bull. Soc. Chim. Biol.34: 754–760.
——. 1952. Compt. Rend. Soc. Biol.146: 1577–1579.
Granick, S. 1948. Jour. Biol. Chem.175: 333–342.
—. 1948–9. Harvey Lectures44: 220–245.
— andL. Bogorad. 1953. Jour. Biol. Chem.202: 781–792.
—, et al. 1953. Jour. Biol. Chem.202: 801–813.
Gripenberg, J. 1952. Acta Chem. Scand.6: 1152–1156.
Hager, A. 1955. Zeits. Naturf.10b: 310–312.
Hansel, R. andL. Hörhammer. 1954. Archiv. Pharm.287: 119–126.
——. 1954. Archiv. Pharm.287: 189–198.
Harborne, J. B., andT. A. Geissman. 1956. Jour. Amer. Chem. Soc.78: 829–832.
— andH. S. A. Sherratt. 1957. Biochem. Jour.65: 23–24.
Hasegawa, M., et al. 1955. Jour. Jap. For. Soc.37: 488–491.
Hathway, D. E. 1956. Nature177: 747–748.
—. 1956. Biochem. Jour.63: 380–387.
Hattori, S., et al. 1956. Bull. Soc. Chim. Biol.38: 557–562.
—, et al. 1954. Physiol. Plant.7: 283–289.
Hayashi, K., andY. Abe. 1955. Bot. Mag. Tokyo68: 299–308.
——. 1956. Bot. Mag. Tokyo69: 227–235.
—, et al. 1953. Pharm. Bull. [Japan]1: 130–134.
—, et al. 1955. Bot. Mag. Tokyo68: 129–133.
Hergert, H. L. 1956. Jour. Org. Chem.21: 534–537.
Herrmann, K. 1955. Arch. Pharm.288: 362–364.
Hillis, W. E. 1950. Nature166: 195.
—. 1951. Austral. Jour. Appl. Sci.2: 385–395.
—. 1952. Jour. Sci. Food & Agr.4: 135–148.
—. 1954. Jour. Soc. Leather Trades’ Chem.38: 91–102.
—. 1955. Nature175: 597–598.
—. 1956. Austral. Jour. Biol. Sci.9: 263–280.
Hörhammer, L. 1953. Archiv. Pharm.286: 481–482.
—, et al. 1956. Archiv. Pharm.289: 133–140.
—, et al. 1955. Archiv. Pharm.288: 419–425.
—, et al. 1955. Archiv. Pharm.288: 494–499.
— andK. H. Müller. 1954. Arch. Pharm.287: 126–128.
——. 1954. Arch. Pharm.287: 310–313.
— andA. Scherm. 1955. Arch. Pharm.288: 441–447.
— andE. Volz. 1955. Arch. Pharm.288: 58–60.
—, et al. 1956. Arch. Pharm.289: 316–323.
—, et al. 1956. Arch. Pharm.289: 613–618.
Hossfeld, R. L. 1951. Jour. Amer. Chem. Soc.73: 852–854.
Hulme, A. C. 1951. Jour. Exp. Bot.2: 298–315.
—. 1953. Biochem. Jour.53: 337–340.
— andL. S. C. Wooltorton. 1957. Jour. Sci. Food Agr.8: 117–122.
Ice, C. H., andS. H. Wender. 1953. Jour. Amer. Chem. Soc.75: 50–52.
Jorgensen, E. C., andT. A. Geissman. 1955. Arch. Biochem. & Biophys.54: 72–82.
——. 1955. Arch. Biochem. & Biophys.55: 389–402.
Joslyn, M. A., andR. Peterson. 1956. Nature178: 318.
— andC. J. B. Smit. 1954. Mitt. Klosterneuburg, Ser. B. Obst. u. Garten4: 141–147.
Jurd, L. 1956. Jour. Amer. Chem. Soc.78: 3445–3448.
—, et. al. 1957. Arch. Biochem. & Biophys.67: 284–297.
Kendo, T., andN. Furuzawa. 1953. Jour. Jap. For. Soc.35: 406–409.
—— 1954. Jour. Jap. For. Soc.36: 190–193.
Kilcher, H. 1952. Jour. Soc. Leather Trades’ Chem.36: 331–335.
King, F. E., et al 1955. Jour. Chem. Soc: 2948–2956.
Kirby, K. S., et al. 1951. Jour. Soc. Leather Trades’ Chem.35: 338–345.
—, et al. 1952. Jour. Soc. Leather Trades’ Chem.36: 45–59.
Kulkarni, A. B., andJ. R. Merchant. 1955. Jour. Sci. & Ind. Res.14B: 153–156.
Lawrence, W. J. C. 1950. Biochem. Soc. Symp. No.4: 3–9.
Leopold, B. 1952. Acta Chem. Scand.6: 38–48.
— andI. L. Malmstrom. 1952. Acta Chem. Scand.6: 49–54.
Li, K. C., andA. C. Wagenknecht. 1956. Jour. Amer. Chem. Soc.78: 979–980.
Lindstedt, G. 1950. Acta Chem. Scand.4: 448–455.
—. 1951. Acta Chem. Scand.5: 129–138.
— andA. Misiorny. 1951. Acta Chem. Scand.5: 121–128.
Link, K. P. 1942.In: Henry Gilman [ed.] Organic chemistry. 1315–1340.
Lucas, J., andJ. M. Orten. 1951. Jour. Biol. Chem.191: 287–294.
Manskaya, S. M., andT. V. Drozdova. 1955. Fiziol. Rastenii2: 533–538.
Mayer, F., andA. H. Cook. 1943. The chemistry of natural coloring matters; the constitutions, properties and biological relations of the important natural pigments. 354 pp.
Naghski, J., et al. 1951. Jour. Amer. Pharm. Assoc.40: 613–616.
Nakabayashi, T. 1952. Jour. Agr. Chem. Soc. Japan26: 140–141.
—. 1952. Jour. Agr. Chem. Soc. Japan26: 331–333.
—. 1952. Jour. Agr. Chem. Soc. Japan26: 539–541.
— andN. Hada. 1954. Jour. Agr. Chem. Soc. Japan28: 387–391.
Nicholas, R. E. H., andC. Rimington. 1951. Biochem. Jour.48: 306–309.
Nordstrom, C. G., andT. Swain. 1953. Chem. & Ind: 823–824.
——, andT. Swain. 1956. Arch. Biochem. & Biophys.60: 329–344.
-, et al. 1953. Chem. & Ind: 85.
Nunez, G. 1954. Bull Soc. Chim. Biol.36: 411–13.
— andJ. Spiteri. 1953. Compt. Rend. Acad. Sci. [Paris]236: 488–490.
Oshima, Y., andT. Nakabayashi. 1951–2. Jour. Agr. Chem. Soc. Japan25: 212–215.
——. 1953. Jour. Agr. Chem. Soc. Japan27: 754–756.
——. 1953. Jour. Agr. Chem. Soc. Japan27: 756–759.
—, et al. 1954. Jour. Agr. Chem. Soc. Japan28: 618–621.
—, et al. 1954. Jour. Agr. Chem. Soc. Japan28: 621–624.
—, et al. 1954. Jour. Agr. Chem. Soc.28: 269–274.
—, et al. 1952. Jour. Agr. Chem. Soc. Japan26: 367–371.
—, et al. 1954. Jour. Agr. Chem. Soc. Japan28: 264–269.
Paris, R. A. 1952. Bull. Soc. Chim. Biol.34: 767–772.
— andM. Chaslot. 1955. Ann. Pharm. Franc.13: 648–657.
Parkinson, T. L. 1954. Jour. Sci. Food & Agr.5: 239–247.
Perkins, H. J., andS. Aronoff. 1956. Arch. Biochem. & Biophys.64: 506–507.
Pigman, W., et al. 1953. Tappi36: 4–12.
Ponniah, L., andT. R. Seshadri. 1953. Jour. Sci. & Ind. Res. [India]12B: 605–610.
Rapport, D. A., et al. 1955. Anal. Chem.27: 820–822.
Reznick, H. 1955. Naturwiss.42: 180–181.
—. 1955. Zeits. Bot.43: 499–530.
Riedl, K., andL. Neugebauer. 1952. Monatsch.83: 1083–1087.
Riley, R. F. 1950. Jour. Amer. Chem. Soc.72: 5782–5783.
Roberts, E. A. H. 1956. Chem. & Ind: 737.
—, et al. 1957. Jour. Sci. Food & Agr.8: 72–80.
—, et al. 1956. Jour. Sci. Food & Agr.7: 253–257.
—, et al. 1956. Jour. Sci. Food & Agr.7: 637–646.
— andD. J. Wood. 1951. Biochem. Jour.49: xxxiii.
—— andD. J. Wood. 1951. Arch. Biochem. & Biophys.33: 299–303.
—— andD. J. Wood. 1951. Biochem. Jour.49: 414–422.
Robinson, R. andH. Smith. 1955. Nature175: 634.
Roux, D. G. 1951. Nature168: 1041–1042.
—. 1952. Jour. Soc. Leather Trades’ Chem.36: 274–284.
—. 1955. Jour. Soc. Leather Trades’ Chem.39: 80–91.
Sapozhnikov, D. I., et al. 1955. Biokhimiya20: 286–291.
Schlogl, K., andA. Siegel. 1953. Mikrochemie ver. Mikrochim. Acta40: 202–211.
Schmidt, O. T. 1955. In: Paech, K., & M. V. Tracey [eds.] Modern methods of plant analysis. Vol. III. 517–548.
Serchi, G., andG. Rapi. 1952. Sperimentale, Sez. Chim. Biol.3: 107–123.
Shantz, E. M., andF. C. Steward. 1955. Plant Physiol. Suppl.30: XXXV.
Sharma, J. N., andT. R. Seshadri. 1955. Jour. Sci. & Ind. Res. [India]14B: 211–214.
Shemin, D. 1956. In: Green, D. E., [ed] Currents in biochemical research. p. 518–536.
Shibata, S., et al. 1950. Jour. Amer. Chem. Soc.72: 2789–2790.
Shimokoriyama, M., andS. Hattori. 1953. Jour. Amer. Chem. Soc.75: 1900–1904.
——. 1955. Arch. Biochem. & Biophys.54: 93–101.
Siegelman, H. W. 1955. Jour. Biol. Chem.213: 647–654.
—. 1955. Arch. Biochem. & Biophys.56: 97–102.
Sironval, C. 1953. Arch. Int. Physiol.41: 563.
—. 1954. Physiol. Plant.7: 523–530.
Spaeth, E. andD. H. Rosenblatt. 1949. Science110: 258.
Steele, C. S. 1942. In: Gilman, H., Organic chemistry. Vol. 2: 1293–1314.
Stone, J. E., andM. J. Blundell. 1951. Anal. Chem.23: 771–774.
Strain, H. H. 1953. Jour. Phys. Chem.57: 638–640.
Suzushino, G. 1954. Misc. Rep. Res. Inst. Nat. Res. [Japan]34: 21–23.
Takido, M. 1956. Pharm. Bull. [Japan]4: 45–48.
Takino, Y., andH. Imagawa. 1954. Jour. Agr. Chem. Soc. Japan28: 182–185.
Thiel, K. 1954. Gartenbauwiss. N. S.1: 127–159.
Towers, G. H. N., andR. D. Gibbs. 1953. Nature172: 25–26.
Troyer, J. R. 1956. Plant Physiol.31: 75–78.
Tsukida, K. andM. Yokota. 1954. Jour. Pharm. Soc. Japan.74: 230–231.
Tswett, M. 1906. Ber. Deut. Bot. Ges.24: 316–323.
Uchishima, H., et al. 1955. Jap. Jour. Pharm.9: 27–29
Wada, E. 1956. Jour. Amer. Chem. Soc.78: 4725–4726.
Wender, S. H., andT. B. Gage. 1949. Science109: 287–289.
Weurman, C., andT. Swain. 1953. Nature172: 678.
White, T. 1949. Jour. Soc. Leather Trades’ Chem.33: 39–52.
—, et al. 1952. Jour. Soc. Leather Trades’ Chem.36: 148–155.
Williams, A. H. 1953. Chem. & Ind: 540–541.
Williams, B. L., andS. H. Wender. 1952. Jour. Amer. Chem. Soc.74: 5919.
Williams, R. P., et al. 1956. Jour. Bact.71: 115–120.
—, et al. 1956. Science123: 1176–1177.
Zahner, R. J., andW. B. Swann. 1951. Anal. Chem.23: 1093–1095.
Zaprometov, M. N. 1954. Biokhimiya19: 599–609.
— andG. A. Sobleva. 1954. Doklady Akad. Nauk. S.S.S.R.96: 1205–1208.
Zechmeister, L., andL. Cholnoky. 1941. In: Principles and Practice of Chromatography. 362 pp.
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Contribution from the Botanical Laboratory, New Series, 179.
This Review was completed in January, 1957, but a few more recent citations have been considered and added to the bibliography in proof.
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Thompson, J.F., Honda, S.I., Hunt, G.E. et al. Partition chromatography and its use in the plant sciences. Bot. Rev 25, 1–263 (1959). https://doi.org/10.1007/BF02860470
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DOI: https://doi.org/10.1007/BF02860470