REPAIRtoire - a database of DNA repair pathways

Welcome! Click here to login or here to register.
Home
Proteins
DNA damage
Diseases
Homologs
Pathways
Keywords
Publications
Draw a picture
 
Search
 
Links
Help
Contact





Bujnicki Lab Homepage

"Relative levels of the two mammalian Rad23 homologs determine composition and stability of the xeroderma pigmentosum group C protein complex."

Okuda Y, Nishi R, Ng JM, Vermeulen W, van der Horst GT, Mori T, Hoeijmakers JH, Hanaoka F, Sugasawa K



Published Oct. 5, 2004 in DNA Repair (Amst) volume 3 .

Pubmed ID: 15336624

Abstract:
Mammalian cells express two Rad23 homologs, HR23A and HR23B, which have been implicated in regulation of proteolysis via the ubiquitin/proteasome pathway. Recently, the proteins have been shown to stabilize xeroderma pigmentosum group C (XPC) protein that is involved in DNA damage recognition for nucleotide excision repair (NER). Because the vast majority of XPC forms a complex with HR23B rather than HR23A, we investigated possible differences between the two Rad23 homologs in terms of their effects on the XPC protein. In wild-type mouse embryonic fibroblasts (MEFs), endogenous XPC was found to be relatively stable, while its steady-state level and stability appeared significantly reduced by targeted disruption of the mHR23B gene, but not by that of mHR23A. Loss of both mHR23 genes caused a strong further reduction of the XPC protein level. Quantification of the two mHR23 proteins revealed that in normal cells mHR23B is actually approximately 10 times more abundant than mHR23A. In addition, overexpression of mHR23A in the mHR23A/B double knock out cells restored not only the steady-state level and stability of the XPC protein, but also cellular NER activity to near wild-type levels. These results indicate that the two Rad23 homologs are largely functionally equivalent in NER, and that the difference in expression levels explains for a major part the difference in complex formation with as well as stabilization effects on XPC.


This publication refers to following REPAIRtoire entries:

Genes


Last modification of this entry: Oct. 6, 2010

Add your own comment!

There is no comment yet.
Welcome stranger! Click here to login or here to register.
Valid HTML 4.01! This site is Emacs powered. Made with Django.