PMID: 9552370Jan 1, 1995Paper

The regulation of mitotic nuclear envelope breakdown: a role for multiple lamin kinases

Progress in Cell Cycle Research
A P Fields, L J Thompson

Abstract

The chapter reviews the structure and function of the nuclear envelope and describes its dynamic structural changes during cell cycle. Particular emphasis is placed on the regulation of mitotic nuclear envelope breakdown (NEBD), the process by which the physical barrier between cytoplasm and nucleus is dissolved to allow for cell division. The literature suggesting the involvement of multiple protein kinases in NEBD is reviewed and evidence is presented that multiple mitotic lamin kinases, including p34cdc2/cyclin B kinase and protein kinase C, play key roles in mitotic nuclear lamina disassembly. Finally, a model for regulation of mitotic nuclear lamina disassembly by multi-site phosphorylation is described.

Citations

Aug 22, 1997·The Journal of Biological Chemistry·P CollasJ C Courvalin
Aug 14, 2001·Journal of Cellular Biochemistry·A M MartelliR Bortul
Dec 26, 2001·Science's STKE : Signal Transduction Knowledge Environment·R Irvine
Sep 19, 2002·Science's STKE : Signal Transduction Knowledge Environment·Robin F Irvine
Sep 24, 2011·Nucleus·Lynda A Morrison, Gregory S DeLassus
Aug 1, 1998·The Journal of Biological Chemistry·Y Gökmen-Polar, A P Fields
May 3, 2003·Nature Reviews. Molecular Cell Biology·Robin F Irvine
Jan 1, 2012·Journal of Chemical Biology·Marie-Charlotte Domart, Banafshé Larijani
Aug 3, 2016·Annual Review of Virology·Janna M Bigalke, Ekaterina E Heldwein
Feb 6, 2017·Indian Journal of Clinical Biochemistry : IJCB·Ahmed A Abd-Rabou
Mar 30, 2001·The Journal of Biological Chemistry·A SindićH Banfić
Jul 10, 2009·The Journal of Clinical Investigation·John E ErikssonRobert D Goldman
Jun 21, 1996·The Journal of Biological Chemistry·L J Thompson, A P Fields
Jan 22, 2009·Advances in Enzyme Regulation·Thomas DechatRobert D Goldman
Jul 31, 2009·Virology·Gina L Cano-MonrealLynda A Morrison

❮ Previous
Next ❯

Related Concepts

Related Feeds