The Bacterial SMC Complex Displays Two Distinct Modes of Interaction with the Chromosome

The Bacterial SMC Complex Displays Two Distinct Modes of Interaction with the Chromosome

The bacterial SMC (structural maintenance of chromosomes) complex binds nonspecifically to DNA in vitro and forms two discrete subcellular centers in vivo, one in each cell half. How this distribution is maintained is unclear. We show by time-lapse imaging of single molecules that the localization...

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Main Authors: Luise A.K. Kleine Borgmann, Jonas Ries, Helge Ewers, Maximilian H. Ulbrich, Peter L. Graumann
Format: Article
Language:English
Published: Elsevier 2013-05-01
Series:Cell Reports
Online Access:http://www.sciencedirect.com/science/article/pii/S2211124713001721
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spelling doaj-b6cd9f7b0356438faf050027302861f52020-11-24T21:34:06ZengElsevierCell Reports2211-12472013-05-01351483149210.1016/j.celrep.2013.04.005The Bacterial SMC Complex Displays Two Distinct Modes of Interaction with the ChromosomeLuise A.K. Kleine Borgmann0Jonas Ries1Helge Ewers2Maximilian H. Ulbrich3Peter L. Graumann4Microbiology, Faculty for Biology, University of Freiburg, Schänzlestraße 1, 79104 Freiburg, GermanyETH Zürich, Institute of Biochemistry, Wolfgang-Pauli-Str. 10, HCI, F 209 8093 Zürich, SwitzerlandETH Zürich, Institute of Biochemistry, Wolfgang-Pauli-Str. 10, HCI, F 209 8093 Zürich, SwitzerlandInstitute of Physiology II, University of Freiburg, Schänzlestraße 18, 79104 Freiburg, GermanyMicrobiology, Faculty for Biology, University of Freiburg, Schänzlestraße 1, 79104 Freiburg, Germany The bacterial SMC (structural maintenance of chromosomes) complex binds nonspecifically to DNA in vitro and forms two discrete subcellular centers in vivo, one in each cell half. How this distribution is maintained is unclear. We show by time-lapse imaging of single molecules that the localization is achieved through limited, yet rapid movement of the SMC subunits through the nucleoid. Accessory ScpAB subunits mediate the arrest of 20% of SMC molecules at the center of a cell half and do not move together with the 80% mobile SMC molecules. Only free SMC, but not the preformed SMC/ScpAB complex, was able to bind to DNA in vitro, revealing distinct functions of SMC fractions. Thus, whereas SMC alone dynamically interacts with many sites on the chromosome, it forms static assemblies together with ScpAB complex partners. Our findings reveal two distinct modes of interaction of SMC with the chromosome and indicate that limited diffusion within a confined space and transient arrest may be a general mechanism for positioning proteins within a chromosome and within a noncompartmentalized cell. http://www.sciencedirect.com/science/article/pii/S2211124713001721
collection DOAJ
language English
format Article
sources DOAJ
author Luise A.K. Kleine Borgmann
Jonas Ries
Helge Ewers
Maximilian H. Ulbrich
Peter L. Graumann
spellingShingle Luise A.K. Kleine Borgmann
Jonas Ries
Helge Ewers
Maximilian H. Ulbrich
Peter L. Graumann
The Bacterial SMC Complex Displays Two Distinct Modes of Interaction with the Chromosome
Cell Reports
author_facet Luise A.K. Kleine Borgmann
Jonas Ries
Helge Ewers
Maximilian H. Ulbrich
Peter L. Graumann
author_sort Luise A.K. Kleine Borgmann
title The Bacterial SMC Complex Displays Two Distinct Modes of Interaction with the Chromosome
title_short The Bacterial SMC Complex Displays Two Distinct Modes of Interaction with the Chromosome
title_full The Bacterial SMC Complex Displays Two Distinct Modes of Interaction with the Chromosome
title_fullStr The Bacterial SMC Complex Displays Two Distinct Modes of Interaction with the Chromosome
title_full_unstemmed The Bacterial SMC Complex Displays Two Distinct Modes of Interaction with the Chromosome
title_sort bacterial smc complex displays two distinct modes of interaction with the chromosome
publisher Elsevier
series Cell Reports
issn 2211-1247
publishDate 2013-05-01
description The bacterial SMC (structural maintenance of chromosomes) complex binds nonspecifically to DNA in vitro and forms two discrete subcellular centers in vivo, one in each cell half. How this distribution is maintained is unclear. We show by time-lapse imaging of single molecules that the localization is achieved through limited, yet rapid movement of the SMC subunits through the nucleoid. Accessory ScpAB subunits mediate the arrest of 20% of SMC molecules at the center of a cell half and do not move together with the 80% mobile SMC molecules. Only free SMC, but not the preformed SMC/ScpAB complex, was able to bind to DNA in vitro, revealing distinct functions of SMC fractions. Thus, whereas SMC alone dynamically interacts with many sites on the chromosome, it forms static assemblies together with ScpAB complex partners. Our findings reveal two distinct modes of interaction of SMC with the chromosome and indicate that limited diffusion within a confined space and transient arrest may be a general mechanism for positioning proteins within a chromosome and within a noncompartmentalized cell.
url http://www.sciencedirect.com/science/article/pii/S2211124713001721
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