Literature DB >> 16741928

The p53 tumor suppressor participates in multiple cell cycle checkpoints.

Luciana E Giono1, James J Manfredi.   

Abstract

The process of cell division is highly ordered and regulated. Checkpoints exist to delay progression into the next cell cycle phase only when the previous step is fully completed. The ultimate goal is to guarantee that the two daughter cells inherit a complete and faithful copy of the genome. Checkpoints can become activated due to DNA damage, exogenous stress signals, defects during the replication of DNA, or failure of chromosomes to attach to the mitotic spindle. Abrogation of cell cycle checkpoints can result in death for a unicellular organism or uncontrolled proliferation and tumorigenesis in metazoans (Nyberg et al., 2002). The tumor suppressor p53 plays a critical role in each of these cell cycle checkpoints and is reviewed here. Copyright 2006 Wiley-Liss, Inc.

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Year:  2006        PMID: 16741928     DOI: 10.1002/jcp.20689

Source DB:  PubMed          Journal:  J Cell Physiol        ISSN: 0021-9541            Impact factor:   6.384


  103 in total

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Journal:  RNA Biol       Date:  2012-06-01       Impact factor: 4.652

2.  Widdrol activates DNA damage checkpoint through the signaling Chk2-p53-Cdc25A-p21-MCM4 pathway in HT29 cells.

Authors:  Hee Jung Yun; Sook Kyung Hyun; Jung Ha Park; Byung Woo Kim; Hyun Ju Kwon
Journal:  Mol Cell Biochem       Date:  2011-12-11       Impact factor: 3.396

3.  Induction of DNA damage signaling upon Rift Valley fever virus infection results in cell cycle arrest and increased viral replication.

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Journal:  J Biol Chem       Date:  2012-01-05       Impact factor: 5.157

4.  Nutlin-3a induces cytoskeletal rearrangement and inhibits the migration and invasion capacity of p53 wild-type cancer cells.

Authors:  Diarmuid M Moran; Carl G Maki
Journal:  Mol Cancer Ther       Date:  2010-04-06       Impact factor: 6.261

5.  HIV-1 viral infectivity factor interacts with TP53 to induce G2 cell cycle arrest and positively regulate viral replication.

Authors:  Taisuke Izumi; Katsuhiro Io; Masashi Matsui; Kotaro Shirakawa; Masanobu Shinohara; Yuya Nagai; Masahiro Kawahara; Masayuki Kobayashi; Hiroshi Kondoh; Naoko Misawa; Yoshio Koyanagi; Takashi Uchiyama; Akifumi Takaori-Kondo
Journal:  Proc Natl Acad Sci U S A       Date:  2010-11-11       Impact factor: 11.205

6.  The role of MAGEA2 in head and neck cancer.

Authors:  Chad A Glazer; Ian M Smith; Sheetal Bhan; Wenyue Sun; Steven S Chang; Kavita M Pattani; William Westra; Zubair Khan; Joseph A Califano
Journal:  Arch Otolaryngol Head Neck Surg       Date:  2011-03

7.  Repression of mammary stem/progenitor cells by p53 is mediated by Notch and separable from apoptotic activity.

Authors:  Luwei Tao; Amy L Roberts; Karen A Dunphy; Carol Bigelow; Haoheng Yan; D Joseph Jerry
Journal:  Stem Cells       Date:  2011-01       Impact factor: 6.277

8.  Protein mimetic amyloid inhibitor potently abrogates cancer-associated mutant p53 aggregation and restores tumor suppressor function.

Authors:  L Palanikumar; Laura Karpauskaite; Mohamed Al-Sayegh; Ibrahim Chehade; Maheen Alam; Sarah Hassan; Debabrata Maity; Liaqat Ali; Mona Kalmouni; Yamanappa Hunashal; Jemil Ahmed; Tatiana Houhou; Shake Karapetyan; Zackary Falls; Ram Samudrala; Renu Pasricha; Gennaro Esposito; Ahmed J Afzal; Andrew D Hamilton; Sunil Kumar; Mazin Magzoub
Journal:  Nat Commun       Date:  2021-06-25       Impact factor: 14.919

9.  Telomeric DNA induces p53-dependent reactive oxygen species and protects against oxidative damage.

Authors:  Margaret S Lee; Mina Yaar; Mark S Eller; Thomas M Rünger; Ying Gao; Barbara A Gilchrest
Journal:  J Dermatol Sci       Date:  2009-11-10       Impact factor: 4.563

10.  A Rapid and Precise Mutation-Activated Fluorescence Reporter for Analyzing Acute Mutagenesis Frequency.

Authors:  Michael D Birnbaum; Leah Nemzow; Akhilesh Kumar; Feng Gong; Fangliang Zhang
Journal:  Cell Chem Biol       Date:  2018-06-14       Impact factor: 8.116
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