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Requirements for Septal Localization and Chromosome Segregation Activity of the DNA Translocase SftA from Bacillus subtilis. | LitMetric

Requirements for Septal Localization and Chromosome Segregation Activity of the DNA Translocase SftA from Bacillus subtilis.

J Mol Microbiol Biotechnol

SYNMIKRO, LOEWE Center for Synthetic Microbiology, and Department of Chemistry, Philipps-Universität Marburg, Marburg, Germany.

Published: May 2017

AI Article Synopsis

  • Bacillus subtilis has two DNA translocases, SftA and SpoIIIE, that help with chromosome segregation: SftA separates DNA before cell division, while SpoIIIE deals with DNA stuck in the septum.
  • SftA's N-terminal region, consisting of 47 amino acids, links it to the cell division machinery, with some parts allowing mid-cell recruitment even without its typical membrane-binding segment.
  • Experiments show SftA is primarily found in the cytosol and some in the membrane, and when nonfunctional SftA fragments are produced, they disrupt normal function, indicating that accurate assembly of SftA is crucial for its effectiveness.

Article Abstract

Bacillus subtilis possesses 2 DNA translocases that affect late stages of chromosome segregation: SftA separates nonsegregated DNA prior to septum closure, while SpoIIIE rescues septum-entrapped DNA. We provide evidence that SftA is associated with the division machinery via a stretch of 47 amino acids within its N-terminus, suggesting that SftA is recruited by protein-protein interactions with a component of the division machinery. SftA was also recruited to mid-cell in the absence of its first 20 amino acids, which are proposed to contain a membrane-binding motif. Cell fractionation experiments showed that SftA can be found in the cytosolic fraction, and to a minor degree in the membrane fraction, showing that it is a soluble protein in vivo. The expression of truncated SftA constructs led to a dominant sftA deletion phenotype, even at very low induction rates of the truncated proteins, indicating that the incorporation of nonfunctional monomers into SftA hexamers abolishes functionality. Mobility shift experiments and surface plasmon binding studies showed that SftA binds to DNA in a cooperative manner, and demonstrated low ATPase activity when binding to short nucleotides rather than to long stretches of DNA.

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Source
http://dx.doi.org/10.1159/000450725DOI Listing

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