Literature DB >> 4093469

An investigation of the centriole cycle using 3T3 and CHO cells.

P L Alvey.   

Abstract

An investigation of the centriole cycle was based on serial-section electron microscopy of the centrioles of 790 3T3 cells and 40 CHO cells (incomplete sets of sections were excluded from the analysis). Time-course studies indicated that procentrioles first appear 4 h after the start of S-phase; evidence was obtained to suggest that they elongate progressively during the subsequent stages of the cell cycle, and that they start to separate from their parents during mitosis. An association of the structural features of the centriole cycle with the Two-transition Model of the Cell Cycle was ruled out by the finding of two centrioles in most quiescent cells, and the appearance of procentrioles in S-phase in transiently stimulated cells.

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Year:  1985        PMID: 4093469     DOI: 10.1242/jcs.78.1.147

Source DB:  PubMed          Journal:  J Cell Sci        ISSN: 0021-9533            Impact factor:   5.285


  13 in total

1.  Altered centrosome structure is associated with abnormal mitoses in human breast tumors.

Authors:  W L Lingle; J L Salisbury
Journal:  Am J Pathol       Date:  1999-12       Impact factor: 4.307

2.  Centrosome duplication proceeds during mimosine-induced G1 cell cycle arrest.

Authors:  Thomas M Durcan; Elizabeth S Halpin; Luciana Casaletti; Kevin T Vaughan; Maggie R Pierson; Shane Woods; Edward H Hinchcliffe
Journal:  J Cell Physiol       Date:  2008-04       Impact factor: 6.384

Review 3.  Show me your license, please: deregulation of centriole duplication mechanisms that promote amplification.

Authors:  Christopher W Brownlee; Gregory C Rogers
Journal:  Cell Mol Life Sci       Date:  2012-08-15       Impact factor: 9.261

4.  Correlative light and electron microscopy analysis of the centrosome: A step-by-step protocol.

Authors:  Dong Kong; Jadranka Loncarek
Journal:  Methods Cell Biol       Date:  2015-05-27       Impact factor: 1.441

Review 5.  Centriole duplication: analogue control in a digital age.

Authors:  Greenfield Sluder; Alexey Khodjakov
Journal:  Cell Biol Int       Date:  2010-12       Impact factor: 3.612

6.  Centriole movements in mammalian epithelial cells during cytokinesis.

Authors:  Asta Björk Jonsdottir; Roeland W Dirks; Johannes Vrolijk; Helga M Ogmundsdottir; Hans J Tanke; Jorunn E Eyfjörd; Karoly Szuhai
Journal:  BMC Cell Biol       Date:  2010-05-21       Impact factor: 4.241

Review 7.  Centrioles: active players or passengers during mitosis?

Authors:  Alain Debec; William Sullivan; Monica Bettencourt-Dias
Journal:  Cell Mol Life Sci       Date:  2010-03-19       Impact factor: 9.261

Review 8.  Ab ovo or de novo? Mechanisms of centriole duplication.

Authors:  Jadranka Loncarek; Alexey Khodjakov
Journal:  Mol Cells       Date:  2009-02-20       Impact factor: 5.034

9.  The C-terminal region of A-kinase anchor protein 350 (AKAP350A) enables formation of microtubule-nucleation centers and interacts with pericentriolar proteins.

Authors:  Elena Kolobova; Joseph T Roland; Lynne A Lapierre; Janice A Williams; Twila A Mason; James R Goldenring
Journal:  J Biol Chem       Date:  2017-10-20       Impact factor: 5.157

10.  The G1 phase Cdks regulate the centrosome cycle and mediate oncogene-dependent centrosome amplification.

Authors:  Mary K Harrison; Arsene M Adon; Harold I Saavedra
Journal:  Cell Div       Date:  2011-01-27       Impact factor: 5.130
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