Novel Chromosome Organization Pattern in Actinomycetales—Overlapping Replication Cycles Combined with Diploidy

Bacteria regulate chromosome replication and segregation tightly with cell division to ensure faithful segregation of DNA to daughter generations. The underlying mechanisms have been addressed in several model species. It became apparent that bacteria have evolved quite different strategies to regul...

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Main Authors: Kati Bohm, Fabian Meyer, Agata Rhomberg, Jorn Kalinowski, Catriona Donovan, Marc Bramkamp, Kimberly A. Kline
Format: Article
Language:English
Published: American Society for Microbiology 2017-06-01
Series:mBio
Online Access:http://mbio.asm.org/cgi/content/full/8/3/e00511-17
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spelling doaj-693f381c14004aa1b2142b904bfb94692021-07-02T03:16:03ZengAmerican Society for MicrobiologymBio2150-75112017-06-0183e00511-1710.1128/mBio.00511-17Novel Chromosome Organization Pattern in Actinomycetales—Overlapping Replication Cycles Combined with DiploidyKati BohmFabian MeyerAgata RhombergJorn KalinowskiCatriona DonovanMarc BramkampKimberly A. KlineBacteria regulate chromosome replication and segregation tightly with cell division to ensure faithful segregation of DNA to daughter generations. The underlying mechanisms have been addressed in several model species. It became apparent that bacteria have evolved quite different strategies to regulate DNA segregation and chromosomal organization. We have investigated here how the actinobacterium Corynebacterium glutamicum organizes chromosome segregation and DNA replication. Unexpectedly, we found that C. glutamicum cells are at least diploid under all of the conditions tested and that these organisms have overlapping C periods during replication, with both origins initiating replication simultaneously. On the basis of experimental data, we propose growth rate-dependent cell cycle models for C. glutamicum.http://mbio.asm.org/cgi/content/full/8/3/e00511-17
collection DOAJ
language English
format Article
sources DOAJ
author Kati Bohm
Fabian Meyer
Agata Rhomberg
Jorn Kalinowski
Catriona Donovan
Marc Bramkamp
Kimberly A. Kline
spellingShingle Kati Bohm
Fabian Meyer
Agata Rhomberg
Jorn Kalinowski
Catriona Donovan
Marc Bramkamp
Kimberly A. Kline
Novel Chromosome Organization Pattern in Actinomycetales—Overlapping Replication Cycles Combined with Diploidy
mBio
author_facet Kati Bohm
Fabian Meyer
Agata Rhomberg
Jorn Kalinowski
Catriona Donovan
Marc Bramkamp
Kimberly A. Kline
author_sort Kati Bohm
title Novel Chromosome Organization Pattern in Actinomycetales—Overlapping Replication Cycles Combined with Diploidy
title_short Novel Chromosome Organization Pattern in Actinomycetales—Overlapping Replication Cycles Combined with Diploidy
title_full Novel Chromosome Organization Pattern in Actinomycetales—Overlapping Replication Cycles Combined with Diploidy
title_fullStr Novel Chromosome Organization Pattern in Actinomycetales—Overlapping Replication Cycles Combined with Diploidy
title_full_unstemmed Novel Chromosome Organization Pattern in Actinomycetales—Overlapping Replication Cycles Combined with Diploidy
title_sort novel chromosome organization pattern in actinomycetales—overlapping replication cycles combined with diploidy
publisher American Society for Microbiology
series mBio
issn 2150-7511
publishDate 2017-06-01
description Bacteria regulate chromosome replication and segregation tightly with cell division to ensure faithful segregation of DNA to daughter generations. The underlying mechanisms have been addressed in several model species. It became apparent that bacteria have evolved quite different strategies to regulate DNA segregation and chromosomal organization. We have investigated here how the actinobacterium Corynebacterium glutamicum organizes chromosome segregation and DNA replication. Unexpectedly, we found that C. glutamicum cells are at least diploid under all of the conditions tested and that these organisms have overlapping C periods during replication, with both origins initiating replication simultaneously. On the basis of experimental data, we propose growth rate-dependent cell cycle models for C. glutamicum.
url http://mbio.asm.org/cgi/content/full/8/3/e00511-17
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