about
A checkpoint control orchestrates the replication of the two chromosomes of Vibrio cholerae.Dam methylation: coordinating cellular processesThe two chromosomes of Vibrio cholerae are initiated at different time points in the cell cycleGenome engineering in Vibrio cholerae: a feasible approach to address biological issues.Genetic organization of the Vibrio harveyi DnaA gene region and analysis of the function of the V. harveyi DnaA protein in Escherichia coliGenome-wide detection of chromosomal rearrangements, indels, and mutations in circular chromosomes by short read sequencingMarkerless Escherichia coli rrn Deletion Strains for Genetic Determination of Ribosomal Binding Sites.Complete Genome Sequences of Aerococcus christensenii CCUG 28831T, Aerococcus sanguinicola CCUG 43001T, Aerococcus urinae CCUG 36881T, Aerococcus urinaeequi CCUG 28094T, Aerococcus urinaehominis CCUG 42038 BT, and Aerococcus viridans CCUG 4311TThe central lysine in the P-loop motif of the Escherichia coli DnaA protein is essential for initiating DNA replication from the chromosomal origin, oriC, and the F factor origin, oriS, but is dispensable for initiation from the P1 plasmid origin, oIndependent control of replication initiation of the two Vibrio cholerae chromosomes by DnaA and RctB.Draft Genome Sequence of Type Strain Streptococcus gordonii ATCC 10558Whole genome sequencing as a tool for phylogenetic analysis of clinical strains of Mitis group streptococci.Comparison of dnaA nucleotide sequences of Escherichia coli, Salmonella typhimurium, and Serratia marcescens.Shaping the landscape of the Escherichia coli chromosome: replication-transcription encounters in cells with an ectopic replication origin.Aerococcus urinae and Aerococcus sanguinicola: Susceptibility Testing of 120 Isolates to Six Antimicrobial Agents Using Disk Diffusion (EUCAST), Etest, and Broth Microdilution Techniques.Genomic characterization, phylogenetic analysis, and identification of virulence factors in Aerococcus sanguinicola and Aerococcus urinae strains isolated from infection episodes.In silico assessment of virulence factors in strains of Streptococcus oralis and Streptococcus mitis isolated from patients with Infective Endocarditis.Suppressors of DnaA(ATP) imposed overinitiation in Escherichia coli.A novel class of mutations that affect DNA replication in E. coli.Reduced initiation frequency from oriC restores viability of a temperature-sensitive Escherichia coli replisome mutant.Genetic population structure of the prosobranch snailPotamopyrgus antipodarum(Gray) in Denmark using PCR-RAPD fingerprintsReplicate Once Per Cell Cycle: Replication Control of Secondary ChromosomesFuse or die: how to survive the loss of Dam inVibrio choleraeOrigins Left, Right, and Centre: Increasing the Number of Initiation Sites in the Escherichia coli Chromosome.BPTI and N-terminal extended analogues generated by factor Xa cleavage and cathepsin C trimming of a fusion protein expressed in Escherichia coliFine structure genetic map and complementation analysis of mutations in the dnaA gene of Escherichia coliReplication termination without a replication fork trap
P50
Q27334038-1718464E-9BBA-44DF-8F70-59686D541DF4Q28242787-5D2B9C20-4A28-4F14-A863-4F634D459BE8Q28757429-CA3B9F91-CCC4-4968-8DA2-6D31BF2721B1Q34130257-13725B97-DE32-4DD4-9088-1A94F2B76323Q34309881-550D5137-B228-40F7-8FE8-8928C5D30ACAQ35145539-5CB51434-CB5B-49CA-9505-709494B2C731Q36383088-996FA413-E867-452D-976D-BA3B97FED123Q36826115-2AB32D9E-A75F-4F95-B521-B972D8FDD526Q38333438-407D2462-3BF7-467B-A7D0-17CD8211D223Q38500811-9B0F2C2C-402E-4FA4-8D0E-AEC5F73B7BEDQ38550711-7EF80869-A9DC-4962-8048-DF55EF312DFAQ39668379-0F8E30AE-3B35-42D5-B8B3-F6F01231E7B3Q39962073-D56205A7-80EA-44B2-BFEE-EC2AFDFC07B2Q40752063-28728BE3-3EFF-49DB-9966-C53E7BDCC57FQ45433968-0158311D-2894-441D-AA56-4F82B690286BQ46301627-E8C3E18E-E85D-4591-9BB2-D63180A365B9Q46311751-C4D30E84-5C72-4AD3-B4C9-231D7948B24FQ54368939-00CCDC43-2F2F-4A1B-A346-9DDFA5CD77C0Q54444747-02018990-FE91-4D9C-B115-A69C92D80B09Q54489948-62D6B452-6598-462A-80B6-26F7A4835042Q56962295-F09F6818-8A0C-4206-B7ED-1AD65761F558Q58797330-B3236C21-0BE3-4C59-8115-01EBA42AFCAFQ59208157-F3F9DD6D-E470-4E2D-B1ED-91E982842B51Q64963817-F72C519C-A9DC-4501-B797-C9B79A1489C9Q67895051-E147AFEC-17C7-4BE1-A9DD-145AD2685969Q72403224-44AF162E-81D7-4E52-9BDD-E7948EAF0C4BQ92531968-C4214C47-0584-4CF3-A73C-09BD9A4B9BED
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Ole Skovgaard
@ast
Ole Skovgaard
@en
Ole Skovgaard
@es
Ole Skovgaard
@nl
type
label
Ole Skovgaard
@ast
Ole Skovgaard
@en
Ole Skovgaard
@es
Ole Skovgaard
@nl
prefLabel
Ole Skovgaard
@ast
Ole Skovgaard
@en
Ole Skovgaard
@es
Ole Skovgaard
@nl
P106
P31
P496
0000-0002-4860-1847