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SpoIIIE Protein Achieves Directional DNA Translocation through Allosteric Regulation of ATPase Activity by an Accessory Domain
Authors:Marina Besprozvannaya  Valerie L. Pivorunas  Zachary Feldman  Briana M. Burton
Affiliation:From the Department of Molecular and Cellular Biology, Harvard University, Cambridge, Massachusetts 02138
Abstract:Bacterial chromosome segregation utilizes highly conserved directional translocases of the SpoIIIE/FtsK family. These proteins employ an accessory DNA-binding domain (γ) to dictate directionality of DNA transport. It remains unclear how the interaction of γ with specific recognition sequences coordinates directional DNA translocation. We demonstrate that the γ domain of SpoIIIE inhibits ATPase activity of the motor domain in the absence of DNA but stimulates ATPase activity through sequence-specific DNA recognition. Furthermore, we observe that communication between γ subunits is necessary for both regulatory roles. Consistent with these findings, the γ domain is necessary for robust DNA transport along the length of the chromosome in vivo. Together, our data reveal that directional activation involves allosteric regulation of ATP turnover through coordinated action of γ domains. Thus, we propose a coordinated stimulation model in which γ-γ communication is required to translate DNA sequence information from each γ to its respective motor domain.
Keywords:Allosteric Regulation   ATPases   Chromosomes   DNA-Protein Interaction   Molecular Motors
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