Structure-function analysis of the retinoblastoma tumor suppressor protein – is the whole a sum of its parts?

<p>Abstract</p> <p>Biochemical analysis of the retinoblastoma protein's function has received considerable attention since it was cloned just over 20 years ago. During this time pRB has emerged as a key regulator of the cell division cycle and its ability to block proliferatio...

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Main Author: Dick Frederick A
Format: Article
Language:English
Published: BMC 2007-09-01
Series:Cell Division
Online Access:http://www.celldiv.com/content/2/1/26
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spelling doaj-0dd84e68de8848d897597176094bc1462020-11-24T20:43:30ZengBMCCell Division1747-10282007-09-01212610.1186/1747-1028-2-26Structure-function analysis of the retinoblastoma tumor suppressor protein – is the whole a sum of its parts?Dick Frederick A<p>Abstract</p> <p>Biochemical analysis of the retinoblastoma protein's function has received considerable attention since it was cloned just over 20 years ago. During this time pRB has emerged as a key regulator of the cell division cycle and its ability to block proliferation is disrupted in the vast majority of human cancers. Much has been learned about the regulation of E2F transcription factors by pRB in the cell cycle. However, many questions remain unresolved and researchers continue to explore this multifunctional protein. In particular, understanding how its biochemical functions contribute to its role as a tumor suppressor remains to be determined. Since pRB has been shown to function as an adaptor molecule that links different proteins together, or to particular promoters, analyzing pRB by disrupting individual protein interactions holds tremendous promise in unraveling the intricacies of its function. Recently, crystal structures have reported how pRB interacts with some of its molecular partners. This information has created the possibility of rationally separating pRB functions by studying mutants that disrupt individual binding sites. This review will focus on literature that investigates pRB by isolating functions based on binding sites within the pocket domain. This article will also discuss the prospects for using this approach to further explore the unknown functions of pRB.</p> http://www.celldiv.com/content/2/1/26
collection DOAJ
language English
format Article
sources DOAJ
author Dick Frederick A
spellingShingle Dick Frederick A
Structure-function analysis of the retinoblastoma tumor suppressor protein – is the whole a sum of its parts?
Cell Division
author_facet Dick Frederick A
author_sort Dick Frederick A
title Structure-function analysis of the retinoblastoma tumor suppressor protein – is the whole a sum of its parts?
title_short Structure-function analysis of the retinoblastoma tumor suppressor protein – is the whole a sum of its parts?
title_full Structure-function analysis of the retinoblastoma tumor suppressor protein – is the whole a sum of its parts?
title_fullStr Structure-function analysis of the retinoblastoma tumor suppressor protein – is the whole a sum of its parts?
title_full_unstemmed Structure-function analysis of the retinoblastoma tumor suppressor protein – is the whole a sum of its parts?
title_sort structure-function analysis of the retinoblastoma tumor suppressor protein – is the whole a sum of its parts?
publisher BMC
series Cell Division
issn 1747-1028
publishDate 2007-09-01
description <p>Abstract</p> <p>Biochemical analysis of the retinoblastoma protein's function has received considerable attention since it was cloned just over 20 years ago. During this time pRB has emerged as a key regulator of the cell division cycle and its ability to block proliferation is disrupted in the vast majority of human cancers. Much has been learned about the regulation of E2F transcription factors by pRB in the cell cycle. However, many questions remain unresolved and researchers continue to explore this multifunctional protein. In particular, understanding how its biochemical functions contribute to its role as a tumor suppressor remains to be determined. Since pRB has been shown to function as an adaptor molecule that links different proteins together, or to particular promoters, analyzing pRB by disrupting individual protein interactions holds tremendous promise in unraveling the intricacies of its function. Recently, crystal structures have reported how pRB interacts with some of its molecular partners. This information has created the possibility of rationally separating pRB functions by studying mutants that disrupt individual binding sites. This review will focus on literature that investigates pRB by isolating functions based on binding sites within the pocket domain. This article will also discuss the prospects for using this approach to further explore the unknown functions of pRB.</p>
url http://www.celldiv.com/content/2/1/26
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