Evidence for a Dynamic Adaptor Complex between the P1 Plasmid and Bacterial Nucleoid Promoted by ParA and ParB Partition Proteins

P1 prophage is stably maintained in E. coli as a low-copy-number plasmid. Stable maintenance of P1 is dependent on the function of the plasmid encoded partition system, parABS. ParA is the partition ATPase, ParB is the partition-site binding protein, and parS is the partition site. The concerted act...

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Bibliographic Details
Main Author: Havey, James C.
Other Authors: Funnell, Barbara E.
Language:en_ca
Published: 2012
Subjects:
P1
NAC
Online Access:http://hdl.handle.net/1807/32730
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spelling ndltd-TORONTO-oai-tspace.library.utoronto.ca-1807-327302013-04-19T19:57:32ZEvidence for a Dynamic Adaptor Complex between the P1 Plasmid and Bacterial Nucleoid Promoted by ParA and ParB Partition ProteinsHavey, James C.Chromosome DynamicsPlasmid PartitionParAParBP1Low-copy-number plasmidNucleoid-adaptor complexNAC04870307P1 prophage is stably maintained in E. coli as a low-copy-number plasmid. Stable maintenance of P1 is dependent on the function of the plasmid encoded partition system, parABS. ParA is the partition ATPase, ParB is the partition-site binding protein, and parS is the partition site. The concerted action of these proteins results in dynamic movement of the plasmid over the bacterial nucleoid, which results in its stable maintenance. Plasmid movement has been proposed to be caused by interactions between parS bound ParB and nucleoid bound ParA. In this thesis, I have identified a complex of ParA, ParB, and DNA that is capable of promoting plasmid stability. ParA, ParB, DNA interactions required the ATP bound conformation of ParA. The ParA-ParB-DNA complex was dynamically regulated by nucleotide hydrolysis, which promoted complex disassembly. Complex formation resulted from the cooperative binding of ParA and ParB to DNA. ParA-ParB and ParB-DNA interactions were both necessary for complex formation. ParA-ParB-DNA complex size was regulated by ParB stimulation of ParA-ATP hydrolysis. Microscopy demonstrated that complexes resulted in the association of multiple DNA molecules due to protein binding. The properties of complex assembly, dynamics, and DNA grouping lead me to propose a model where associations between ParA bound to the bacterial nucleoid and the partition complex mediated plasmid movement and localization.Funnell, Barbara E.2012-062012-08-21T19:08:36ZNO_RESTRICTION2012-08-21T19:08:36Z2012-08-21Thesishttp://hdl.handle.net/1807/32730en_ca
collection NDLTD
language en_ca
sources NDLTD
topic Chromosome Dynamics
Plasmid Partition
ParA
ParB
P1
Low-copy-number plasmid
Nucleoid-adaptor complex
NAC
0487
0307
spellingShingle Chromosome Dynamics
Plasmid Partition
ParA
ParB
P1
Low-copy-number plasmid
Nucleoid-adaptor complex
NAC
0487
0307
Havey, James C.
Evidence for a Dynamic Adaptor Complex between the P1 Plasmid and Bacterial Nucleoid Promoted by ParA and ParB Partition Proteins
description P1 prophage is stably maintained in E. coli as a low-copy-number plasmid. Stable maintenance of P1 is dependent on the function of the plasmid encoded partition system, parABS. ParA is the partition ATPase, ParB is the partition-site binding protein, and parS is the partition site. The concerted action of these proteins results in dynamic movement of the plasmid over the bacterial nucleoid, which results in its stable maintenance. Plasmid movement has been proposed to be caused by interactions between parS bound ParB and nucleoid bound ParA. In this thesis, I have identified a complex of ParA, ParB, and DNA that is capable of promoting plasmid stability. ParA, ParB, DNA interactions required the ATP bound conformation of ParA. The ParA-ParB-DNA complex was dynamically regulated by nucleotide hydrolysis, which promoted complex disassembly. Complex formation resulted from the cooperative binding of ParA and ParB to DNA. ParA-ParB and ParB-DNA interactions were both necessary for complex formation. ParA-ParB-DNA complex size was regulated by ParB stimulation of ParA-ATP hydrolysis. Microscopy demonstrated that complexes resulted in the association of multiple DNA molecules due to protein binding. The properties of complex assembly, dynamics, and DNA grouping lead me to propose a model where associations between ParA bound to the bacterial nucleoid and the partition complex mediated plasmid movement and localization.
author2 Funnell, Barbara E.
author_facet Funnell, Barbara E.
Havey, James C.
author Havey, James C.
author_sort Havey, James C.
title Evidence for a Dynamic Adaptor Complex between the P1 Plasmid and Bacterial Nucleoid Promoted by ParA and ParB Partition Proteins
title_short Evidence for a Dynamic Adaptor Complex between the P1 Plasmid and Bacterial Nucleoid Promoted by ParA and ParB Partition Proteins
title_full Evidence for a Dynamic Adaptor Complex between the P1 Plasmid and Bacterial Nucleoid Promoted by ParA and ParB Partition Proteins
title_fullStr Evidence for a Dynamic Adaptor Complex between the P1 Plasmid and Bacterial Nucleoid Promoted by ParA and ParB Partition Proteins
title_full_unstemmed Evidence for a Dynamic Adaptor Complex between the P1 Plasmid and Bacterial Nucleoid Promoted by ParA and ParB Partition Proteins
title_sort evidence for a dynamic adaptor complex between the p1 plasmid and bacterial nucleoid promoted by para and parb partition proteins
publishDate 2012
url http://hdl.handle.net/1807/32730
work_keys_str_mv AT haveyjamesc evidenceforadynamicadaptorcomplexbetweenthep1plasmidandbacterialnucleoidpromotedbyparaandparbpartitionproteins
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