The essential Saccharomyces cerevisiae regulatory protein Rap1 contains two e tandem Myb-like DNA binding sub-domains that interact with two defined DNA "hemisites", separated by a trinucleotide linker sequence. We have mapped the thermodynamically defined DNA-binding site of Rap1 by a primer extension method coupled with electrophoretic separation of bound and unbound DNAs. Relative to published consensus sequences, we detect binding interactions that extend 3 bp beyond 5'-end of the putative DNA-binding site. This new site of interaction is located where the DNA minor groove faces the protein, and may account for the major DNA bending induced by Rap1p that previous studies have mapped to a site immediately upstream of the consensus binding site. In addition, we show that a minimal DNA-binding site made of one single consensus hemisite, preceded or followed by a spacer trinucleotide that interacts with the unstructured protein linker between the two Rap1p DNA binding domains, is able to bind the protein, although at lower affinity. These findings may explain the observed in vivo binding properties of Rap1p at many promoters that lack canonical binding sites. (C) 2004 Elsevier Ltd. All rights reserved.
Distinct DNA elements contribute to Rap1p affinity for its binding sites / DEL VESCOVO, Valerio; Veronica De, Sanctis; Alessandro, Bianchi; David, Shore; DI MAURO, Ernesto; Negri, Rodolfo. - In: JOURNAL OF MOLECULAR BIOLOGY. - ISSN 0022-2836. - 338:5(2004), pp. 877-893. [10.1016/j.jmb.2004.03.047]
Distinct DNA elements contribute to Rap1p affinity for its binding sites
DEL VESCOVO, Valerio;DI MAURO, Ernesto;NEGRI, RODOLFO
2004
Abstract
The essential Saccharomyces cerevisiae regulatory protein Rap1 contains two e tandem Myb-like DNA binding sub-domains that interact with two defined DNA "hemisites", separated by a trinucleotide linker sequence. We have mapped the thermodynamically defined DNA-binding site of Rap1 by a primer extension method coupled with electrophoretic separation of bound and unbound DNAs. Relative to published consensus sequences, we detect binding interactions that extend 3 bp beyond 5'-end of the putative DNA-binding site. This new site of interaction is located where the DNA minor groove faces the protein, and may account for the major DNA bending induced by Rap1p that previous studies have mapped to a site immediately upstream of the consensus binding site. In addition, we show that a minimal DNA-binding site made of one single consensus hemisite, preceded or followed by a spacer trinucleotide that interacts with the unstructured protein linker between the two Rap1p DNA binding domains, is able to bind the protein, although at lower affinity. These findings may explain the observed in vivo binding properties of Rap1p at many promoters that lack canonical binding sites. (C) 2004 Elsevier Ltd. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
