Citation: F. Turck et al., A HEAT-SENSITIVE ARABIDOPSIS-THALIANA KINASE SUBSTITUTES FOR HUMAN P70(S6K) FUNCTION IN-VIVO, Molecular and cellular biology, 18(4), 1998, pp. 2038-2044
Authors:
DENNIS PB
PULLEN N
PEARSON RB
KOZMA SC
THOMAS G
Citation: Pb. Dennis et al., PHOSPHORYLATION SITES IN THE AUTOINHIBITORY DOMAIN PARTICIPATE IN P70(S6K) ACTIVATION LOOP PHOSPHORYLATION, The Journal of biological chemistry, 273(24), 1998, pp. 14845-14852
Authors:
MOSER BA
DENNIS PB
PULLEN N
PEARSON RB
WILLIAMSON NA
WETTENHALL REH
KOZMA SC
THOMAS G
Citation: Ba. Moser et al., DUAL REQUIREMENT FOR A NEWLY IDENTIFIED PHOSPHORYLATION SITE IN P70(S6K), Molecular and cellular biology, 17(9), 1997, pp. 5648-5655
Citation: Pb. Dennis et al., THE PRINCIPAL RAPAMYCIN-SENSITIVE P70(S6K) PHOSPHORYLATION SITES, T-229 AND T-389, ARE DIFFERENTIALLY REGULATED BY RAPAMYCIN-INSENSITIVE KINASE KINASES, Molecular and cellular biology, 16(11), 1996, pp. 6242-6251
Authors:
STEWART MJ
BERRY COA
ZILBERMAN F
THOMAS G
KOZMA SC
Citation: Mj. Stewart et al., THE DROSOPHILA P70(S6K) HOMOLOG EXHIBITS CONSERVED REGULATORY ELEMENTS AND RAPAMYCIN SENSITIVITY, Proceedings of the National Academy of Sciences of the United Statesof America, 93(20), 1996, pp. 10791-10796
Authors:
PEARSON RB
DENNIS PB
HAN JW
WILLIAMSON NA
KOZMA SC
WETTENHALL REH
THOMAS G
Citation: Rb. Pearson et al., THE PRINCIPAL TARGET OF RAPAMYCIN-INDUCED P70(S6K) INACTIVATION IS A NOVEL PHOSPHORYLATION SITE WITHIN A CONSERVED HYDROPHOBIC DOMAIN, EMBO journal, 14(21), 1995, pp. 5279-5287
Citation: Sc. Kozma et G. Thomas, P70(S6K) P85(S6K) - MECHANISM OF ACTIVATION AND ROLE IN MITOGENESIS/, Seminars in cancer biology, 5(4), 1994, pp. 255-260
Authors:
JEFFERIES HBJ
REINHARD C
KOZMA SC
THOMAS G
Citation: Hbj. Jefferies et al., RAPAMYCIN SELECTIVELY REPRESSES TRANSLATION OF THE POLYPYRIMIDINE TRACT MESSENGER-RNA FAMILY, Proceedings of the National Academy of Sciences of the United Statesof America, 91(10), 1994, pp. 4441-4445
Authors:
FERRARI S
PEARSON RB
SIEGMANN M
KOZMA SC
THOMAS G
Citation: S. Ferrari et al., THE IMMUNOSUPPRESSANT RAPAMYCIN INDUCES INACTIVATION OF P70(S6K) THROUGH DEPHOSPHORYLATION OF A NOVEL SET OF SITES, The Journal of biological chemistry, 268(22), 1993, pp. 16091-16094