Bioinformatics-based molecular classification of Arthrobacter plasmids

The omnipresence of Arthrobacter species in polluted and toxic soils indicates their great potential in environmental biotechnologies, but practical applications of these bacteria are scarce mainly due to the availability of useful genetic engineering tools. Although many fully sequenced Arthrobacte...

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Veröffentlicht in:	Cellular & molecular biology letters 2015-12, Vol.20 (4), p.612-625
1. Verfasser:	Mihăşan, Marius
Format:	Artikel
Sprache:	eng
Schlagworte:	Arthrobacter Arthrobacter - genetics Bacterial Proteins - genetics Classification Computational Biology - methods DNA Replication Partition Phylogeny Plasmids Plasmids - genetics Replication Replication Origin
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container_title	Cellular & molecular biology letters
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creator	Mihăşan, Marius
description	The omnipresence of Arthrobacter species in polluted and toxic soils indicates their great potential in environmental biotechnologies, but practical applications of these bacteria are scarce mainly due to the availability of useful genetic engineering tools. Although many fully sequenced Arthrobacter genomes have been deposited in GenBank, little is known about the biology of their plasmids, especially the core functions: replication and partition. In this study the available Arthrobacter plasmid sequences were analyzed in order to identify their putative replication origin. At least the oris from the cryptic plasmids pXZ10142, pCG1, and pBL1 appear to work in this genus. Based on ParA homolog sequences, the Arthrobacter specific plasmids were classified into 4 clades. Iteron-like sequences were identified on most of the plasmids, indicating the position of the putative Arthrobacter specific oris. Although attempts were made to identify the core gene set required for plasmid replication in this genus, it was not possible. The plasmid proteomes showed a rather low similarity.
doi_str_mv	10.1515/cmble-2015-0036
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subjects	Arthrobacter Arthrobacter - genetics Bacterial Proteins - genetics Classification Computational Biology - methods DNA Replication Partition Phylogeny Plasmids Plasmids - genetics Replication Replication Origin
title	Bioinformatics-based molecular classification of Arthrobacter plasmids
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