Michail V. Chernov scite author profile

ABSTRACTp53 is a multifunctional tumor suppressor protein involved in the negative control of cell growth. Mutations in p53 cause alterations in cellular phenotype, including immortalization, neoplastic transformation, and resistance to DNA-damaging drugs. To help dissect distinct functions of p53, a set of genetic suppressor elements (GSEs) capable of inducing different p53-related phenotypes in rodent embryo fibroblasts was isolated from a retroviral library of random rat p53 cDNA fragments. All the GSEs were 100-300 nucleotides long and were in the sense orientation. They fell into four classes, corresponding to the transactivator (class I), DNA-binding (class II), and C-terminal (class III) domains of the protein and the 3'-untranslated region of the mRNA (class IV). GSEs in all four classes promoted immortalization of primary cells, but only members of classes I and III cooperated with activated ras to transform cells, and only members of class III conferred resistance to etoposide and strongly inhibited transcriptional transactivation by p53. These observations suggest that processes related to control of senescence, response to DNA damage, and transformation involve different functions of the p53 protein and furthermore indicate a regulatory role for the 3'-untranslated region of p53 mRNA. p53 is a growth regulatory gene that acts as an essential component of cell-cycle checkpoints (for review, see ref.

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The role of p53 in regulating genomic stability when DNA and RNA synthesis are inhibited

Chernova

Chernov

Agarwal

et al. 1995

Trends in Biochemical Sciences

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MYC Abrogates p53-Mediated Cell Cycle Arrest in N-(Phosphonacetyl)-l-Aspartate-Treated Cells, Permitting CAD Gene Amplification

Chernova

Chernov

Ishizaka

et al. 1998

Molecular and Cellular Biology

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