Structural differences in the DNA binding domains of human p53 and its C. elegans ortholog Cep-1
Structure, 2004•cell.com
The DNA binding domains of human p53 and Cep-1, its C. elegans ortholog, recognize
essentially identical DNA sequences despite poor sequence similarity. We solved the three-
dimensional structure of the Cep-1 DNA binding domain in the absence of DNA and
compared it to that of human p53. The two domains have similar overall folds. However,
three loops, involved in DNA and Zn binding in human p53, contain small α helices in Cep-
1. The α helix in loop L3 of Cep-1 orients the side chains of two conserved arginines toward …
essentially identical DNA sequences despite poor sequence similarity. We solved the three-
dimensional structure of the Cep-1 DNA binding domain in the absence of DNA and
compared it to that of human p53. The two domains have similar overall folds. However,
three loops, involved in DNA and Zn binding in human p53, contain small α helices in Cep-
1. The α helix in loop L3 of Cep-1 orients the side chains of two conserved arginines toward …
Abstract
The DNA binding domains of human p53 and Cep-1, its C. elegans ortholog, recognize essentially identical DNA sequences despite poor sequence similarity. We solved the three-dimensional structure of the Cep-1 DNA binding domain in the absence of DNA and compared it to that of human p53. The two domains have similar overall folds. However, three loops, involved in DNA and Zn binding in human p53, contain small α helices in Cep-1. The α helix in loop L3 of Cep-1 orients the side chains of two conserved arginines toward DNA; in human p53, both arginines are mutation hotspots, but only one contacts DNA. The α helix in loop L1 of Cep-1 repositions the entire loop, making it unlikely for residues of this loop to contact bases in the major groove of DNA, as occurs in human p53. Thus, during evolution there have been considerable changes in the structure of the p53 DNA binding domain.
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