Domain structure and dynamics in the helical filaments formed by RecA and Rad51 on DNA
Data(s) |
17/07/2001
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Resumo |
Both the bacterial RecA protein and the eukaryotic Rad51 protein form helical nucleoprotein filaments on DNA that catalyze strand transfer between two homologous DNA molecules. However, only the ATP-binding cores of these proteins have been conserved, and this same core is also found within helicases and the F1-ATPase. The C-terminal domain of the RecA protein forms lobes within the helical RecA filament. However, the Rad51 proteins do not have the C-terminal domain found in RecA, but have an N-terminal extension that is absent in the RecA protein. Both the RecA C-terminal domain and the Rad51 N-terminal domain bind DNA. We have used electron microscopy to show that the lobes of the yeast and human Rad51 filaments appear to be formed by N-terminal domains. These lobes are conformationally flexible in both RecA and Rad51. Within RecA filaments, the change between the “active” and “inactive” states appears to mainly involve a large movement of the C-terminal lobe. The N-terminal domain of Rad51 and the C-terminal domain of RecA may have arisen from convergent evolution to play similar roles in the filaments. |
Identificador |
/pmc/articles/PMC37452/ /pubmed/11459984 |
Idioma(s) |
en |
Publicador |
The National Academy of Sciences |
Direitos |
Copyright © 2001, The National Academy of Sciences |
Palavras-Chave | #Colloquium Paper |
Tipo |
Text |