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Science 16 December 1994:
Vol. 266. no. 5192, pp. 1821 - 1828
DOI: 10.1126/science.7997877
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Articles

Science, Vol 266, Issue 5192, 1821-1828
Copyright © 1994 by American Association for the Advancement of Science

articles

Cell cycle control and cancer

LH Hartwell and MB Kastan

Department of Genetics, University of Washington, Seattle 98195.

Multiple genetic changes occur during the evolution of normal cells into cancer cells. This evolution is facilitated in cancer cells by loss of fidelity in the processes that replicate, repair, and segregate the genome. Recent advances in our understanding of the cell cycle reveal how fidelity is normally achieved by the coordinated activity of cyclin-dependent kinases, checkpoint controls, and repair pathways and how this fidelity can be abrogated by specific genetic changes. These insights suggest molecular mechanisms for cellular transformation and may help to identify potential targets for improved cancer therapies.


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J. Biol. Chem. 279, 36382-36389
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J. Biol. Chem. 279, 37069-37078
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Phase I and Pharmacokinetic Study of the Novel Oral Cell-Cycle Inhibitor Ro 31-7453 in Patients With Advanced Solid Tumors.
J. Dupont, B. Bienvenu, C. Aghajanian, S. Pezzulli, P. Sabbatini, P. Vongphrachanh, C. Chang, C. Perkell, K. Ng, S. Passe, et al. (2004)
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Deletion of Mouse Rad9 Causes Abnormal Cellular Responses to DNA Damage, Genomic Instability, and Embryonic Lethality.
K. M. Hopkins, W. Auerbach, X. Y. Wang, M. P. Hande, H. Hang, D. J. Wolgemuth, A. L. Joyner, and H. B. Lieberman (2004)
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J. Biol. Chem. 279, 15402-15410
   Abstract »    Full Text »    PDF »
Human Checkpoint Protein hRad9 Functions as a Negative Coregulator To Repress Androgen Receptor Transactivation in Prostate Cancer Cells.
L. Wang, C.-L. Hsu, J. Ni, P.-H. Wang, S. Yeh, P. Keng, and C. Chang (2004)
Mol. Cell. Biol. 24, 2202-2213
   Abstract »    Full Text »    PDF »
Down-regulation of nuclear protein ICBP90 by p53/p21Cip1/WAF1-dependent DNA-damage checkpoint signals contributes to cell cycle arrest at G1/S transition.
Y. Arima, T. Hirota, C. Bronner, M. Mousli, T. Fujiwara, S.-i. Niwa, H. Ishikawa, and H. Saya (2004)
Genes Cells 9, 131-142
   Abstract »    Full Text »    PDF »
Molecular Mechanisms of Toxic Chemicals.
W. E. Criss (2003)
Indoor and Built Environment 12, 395-399
   Abstract »    PDF »
Expression of the cell cycle regulatory proteins p34cdc2, p21waf1, and p53 in node negative invasive ductal breast carcinoma.
H P Kourea, A K Koutras, C D Scopa, M N Marangos, E Tzoracoeleftherakis, D Koukouras, and H P Kalofonos (2003)
Mol. Pathol. 56, 328-335
   Abstract »    Full Text »    PDF »
Inverse correlation between high level expression of cyclin E and proliferation index in transitional cell carcinoma of the bladder.
A A Khan, P D Abel, K S Chaudhary, Z Gulzar, G W H Stamp, and E-N Lalani (2003)
Mol. Pathol. 56, 353-361
   Abstract »    Full Text »    PDF »
Alterations in p53 predict response to preoperative high dose chemotherapy in patients with gastric cancer.
F Bataille, P Rummele, W Dietmaier, D Gaag, F Klebl, A Reichle, P Wild, F Hofstadter, and A Hartmann (2003)
Mol. Pathol. 56, 286-292
   Abstract »    Full Text »    PDF »
Caffeine Inhibits Checkpoint Responses without Inhibiting the Ataxia-Telangiectasia-mutated (ATM) and ATM- and Rad3-related (ATR) Protein Kinases.
D. Cortez (2003)
J. Biol. Chem. 278, 37139-37145
   Abstract »    Full Text »    PDF »
The Fission Yeast Rad32 (Mre11)-Rad50-Nbs1 Complex Is Required for the S-Phase DNA Damage Checkpoint.
C. Chahwan, T. M. Nakamura, S. Sivakumar, P. Russell, and N. Rhind (2003)
Mol. Cell. Biol. 23, 6564-6573
   Abstract »    Full Text »    PDF »
Expression of Mammalian Paralogues of HRAD9 and Mrad9 Checkpoint Control Genes in Normal and Cancerous Testicular Tissue.
K. M. Hopkins, X. Wang, A. Berlin, H. Hang, H. M. Thaker, and H. B. Lieberman (2003)
Cancer Res. 63, 5291-5298
   Abstract »    Full Text »    PDF »
Delineating the position of rad4+/cut5+ within the DNA-structure checkpoint pathways in Schizosaccharomyces pombe.
S. Harris, C. Kemplen, T. Caspari, C. Chan, H. D. Lindsay, M. Poitelea, A. M. Carr, and C. Price (2003)
J. Cell Sci. 116, 3519-3529
   Abstract »    Full Text »    PDF »
ELG1, a yeast gene required for genome stability, forms a complex related to replication factor C.
S. Ben-Aroya, A. Koren, B. Liefshitz, R. Steinlauf, and M. Kupiec (2003)
PNAS 100, 9906-9911
   Abstract »    Full Text »    PDF »
Induction of Apoptosis by Caffeine Is Mediated by the p53, Bax, and Caspase 3 Pathways.
Z. He, W.-Y. Ma, T. Hashimoto, A. M. Bode, C. S. Yang, and Z. Dong (2003)
Cancer Res. 63, 4396-4401
   Abstract »    Full Text »    PDF »
CR6-interacting Factor 1 Interacts with Gadd45 Family Proteins and Modulates the Cell Cycle.
H. K. Chung, Y.-W. Yi, N.-C. Jung, D. Kim, J. M. Suh, H. Kim, K. C. Park, J. H. Song, D. W. Kim, E. S. Hwang, et al. (2003)
J. Biol. Chem. 278, 28079-28088
   Abstract »    Full Text »    PDF »


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