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Roles for replichores and macrodomains in segregation of the Escherichia coli chromosomeAsymmetry of chromosome Replichores renders the DNA translocase activity of FtsK essential for cell division and cell shape maintenance in Escherichia coliLive-cell superresolution microscopy reveals the organization of RNA polymerase in the bacterial nucleoidReplication and segregation of an Escherichia coli chromosome with two replication origins.RecA bundles mediate homology pairing between distant sisters during DNA break repair.MapZ marks the division sites and positions FtsZ rings in Streptococcus pneumoniae.A defined terminal region of the E. coli chromosome shows late segregation and high FtsK activity.CRISPR-mediated control of the bacterial initiation of replication.The Localization and Action of Topoisomerase IV in Escherichia coli Chromosome Segregation Is Coordinated by the SMC Complex, MukBEF.Role of eukaryotic-like serine/threonine kinases in bacterial cell division and morphogenesis.KOPS: DNA motifs that control E. coli chromosome segregation by orienting the FtsK translocaseThe Escherichia coli SMC complex, MukBEF, shapes nucleoid organization independently of DNA replicationA dual role for the FtsK protein in Escherichia coli chromosome segregation.Activation of XerCD-dif recombination by the FtsK DNA translocase.Mapping mid-cell: MapZ shows the way.Investigating Bacterial Chromosome Architecture.The Two-Component System ZraPSR Is a Novel ESR that Contributes to Intrinsic Antibiotic Tolerance in Escherichia coliImaging of the Segregation of the 2 Chromosomes and the Cell Division Proteins of Reveals an Unexpected Role for MipZFunctionality of membrane proteins overexpressed and purified from E. coli is highly dependent upon the strainIdentification of a Contact-Dependent Growth Inhibition (CDI) System That Reduces Biofilm Formation and Host Cell Adhesion of Acinetobacter baumannii DSM30011 StrainMulti-scale Analysis of Bacterial Growth Under Stress TreatmentsRole of AcrAB-TolC multidrug efflux pump in drug-resistance acquisition by plasmid transfer
P50
Q24539073-012D2157-9379-4C3B-9289-133AC274881BQ27313431-FF2A7C78-759F-44C6-AE87-EA41C2EB6F14Q27322413-3ACBA503-0E80-461D-B2F7-6513D9448038Q30501913-0FE2D4FF-C9B4-46D9-B4D6-55C4CA8347DFQ30571928-A6F750B6-43D3-4884-8F77-66426AFB89FFQ30608668-4FB4B1F5-18C6-4B12-B273-474EC3EA0F11Q31026931-47439B83-CF21-4459-8C1D-C003241D6004Q36870565-E7D12DD1-8504-4620-80FA-344AD5922AAEQ37334603-E48EF79D-B51A-4647-9C0B-BD8125C1A5EDQ38597630-41768359-7941-4C40-A646-560C1F6C2B2CQ39491027-DAD5543A-AF09-4EB4-BECE-A2D71072AE6AQ42268886-B53414D3-06CD-42E1-A0CF-1DF57E218BAAQ42583753-8D82295C-98F2-4C34-B931-A9BC3FC7CC88Q42787954-CC1612A5-7E5C-445C-899C-630AA572B804Q43207469-DDDD1D35-5D4B-4681-B55E-2C65D1F3BE5BQ53086151-264FF01D-7F70-47A9-84BF-2C8CE2DBEE5DQ58593360-E14827BE-65A0-4D0C-9787-2ADE0B7A9D93Q60922199-C5557EAC-C650-4B8F-AB04-B2B5064C2537Q64106850-7184D391-FE63-4A02-B199-0891471B9398Q91316601-24658470-694E-4E1B-9568-5E364193B741Q92000379-D1AE0417-7258-457C-B06B-0CBA73B33BF6Q92254947-1A1A5B8A-6882-4831-B23C-EA385E868580
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Christian Lesterlin
@ast
Christian Lesterlin
@en
Christian Lesterlin
@es
Christian Lesterlin
@nl
Christian Lesterlin
@sl
type
label
Christian Lesterlin
@ast
Christian Lesterlin
@en
Christian Lesterlin
@es
Christian Lesterlin
@nl
Christian Lesterlin
@sl
prefLabel
Christian Lesterlin
@ast
Christian Lesterlin
@en
Christian Lesterlin
@es
Christian Lesterlin
@nl
Christian Lesterlin
@sl
P108
P106
P108
P21
P31
P496
0000-0002-9108-0848