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4. Urushizaki, Y . , and Seifter, S. (1985). PNAS 82, 3091-3095. 5. MOSS,J . , and Vaughan, M. (1982). Hayaishi and K . ), pp. 637-645. Academic Press, New York. 6 . Ueda, K . , and Hayaishi, 0. (1984). “Methods in Enzymology,” Vol. 106, pp. 450-461. 7 . Bodley, J . W . , Van Ness, B. G . , and Howard, J . B. (1980). In “Novel ADP-Ribosylations of Regulatory Enzymes and Proteins” (M. Smulson and T. ), pp. 413-422. ElsevierlNorth-Holland, New York. 8. Chock, P. B . , Rhee, S. G . , and Stadtman, E.
Biochemisrry 23, 4207-4218. 20 EDWIN G. KREBS 59. Reimann, E. , Ericsson, L. , Wade, R. , Fischer, E. , and Walsh, K. A. (1984). Biochemistry 23, 4185-4192. 60. , Blumenthal, D. , Edelman, A. , Walsh, K. A,, Krebs, E. , and Titani, K. (1985). Biochemistry 24 (in press). 61. Mark, G. , and Rapp, U. R. (1984). Science 224, 285-289. 62. Czernilofsky, A. , Levinson, A. , Varmus, H. , Bishop, J. , and Goodman, H. (1980). Nature (London) 287, 198-203. 63. , Hayflick, J. , Dull, T. , Tam, A. ,Libermann, T.
Cohen, P. (1982). Nature (London) 296, 613-620. 109. Resink, T. , Hemmings, B. , Tung, H. Y. , and Cohen, P. (1983). EJB 133,455-461. 110. , Huang, C. , Chock, P. -D. Vandenheede, J. , and Merlevede, W. (1984). JBC 259, 5864-5870. 1 11. , Ballou. L. , and Fischer, E. H. (1984). JBC 259, 5857-5863. 112. Singh, T. J . , and Huang, K. P. (1984). JBC 259, 12857-12864. 113. , and Kubo, S. (1983). BBA 760, 61-68. 114. Stiles, C. D. (1983). Cell 33, 653-655. 115. Jacob, S. , and Rose, K . M. (1984). Adv.