Phase variation controls expression of Salmonella lipopolysaccharide modification genes by a DNA methylation-dependent mechanism.
about
Culture history and population heterogeneity as determinants of bacterial adaptation: the adaptomics of a single environmental transitionBacteriophage lambda: Early pioneer and still relevantViral Transmission Dynamics at Single-Cell Resolution Reveal Transiently Immune Subpopulations Caused by a Carrier State AssociationBacteriophage protein-protein interactionsOxyR-dependent formation of DNA methylation patterns in OpvABOFF and OpvABON cell lineages of Salmonella enterica.OmpA and OmpC are critical host factors for bacteriophage Sf6 entry in Shigella.An epigenetic switch involving overlapping fur and DNA methylation optimizes expression of a type VI secretion gene cluster.STM2209-STM2208 (opvAB): a phase variation locus of Salmonella enterica involved in control of O-antigen chain length.The dam replacing gene product enhances Neisseria gonorrhoeae FA1090 viability and biofilm formation.Horizontally acquired glycosyltransferase operons drive salmonellae lipopolysaccharide diversityDNA methylation impacts gene expression and ensures hypoxic survival of Mycobacterium tuberculosis.Genome-wide methylation patterns in Salmonella enterica Subsp. enterica Serovars.Genetic analysis of the CDI pathway from Burkholderia pseudomallei 1026bDeletion of one nucleotide within the homonucleotide tract present in the hsdS gene alters the DNA sequence specificity of type I restriction-modification system NgoAVSingle molecule-level detection and long read-based phasing of epigenetic variations in bacterial methylomes.Cell Cycle Constraints and Environmental Control of Local DNA Hypomethylation in α-Proteobacteria.Peroxide-sensing transcriptional regulators in bacteriaParameter inference for stochastic single-cell dynamics from lineage tree data.Type III Methyltransferase M.NgoAX from Neisseria gonorrhoeae FA1090 Regulates Biofilm Formation and Interactions with Human Cells.The intestinal environment of surgical injury transforms Pseudomonas aeruginosa into a discrete hypervirulent morphotype capable of causing lethal peritonitis.Inhibition of Yersinia pestis DNA adenine methyltransferase in vitro by a stibonic acid compound: identification of a potential novel class of antimicrobial agents.DNA methylation by CcrM activates the transcription of two genes required for the division of Caulobacter crescentus.Bacteriophage tailspike protein based assay to monitor phase variable glucosylations in Salmonella O-antigens.Salmonella enterica Serovar Typhi Lipopolysaccharide O-Antigen Modification Impact on Serum Resistance and Antibody RecognitionProgrammed heterogeneity: epigenetic mechanisms in bacteria.Prophylaxis and therapy of plague.Global analysis of phase variation in Myxococcus xanthus.Epigenetic mechanisms in microbial members of the human microbiota: current knowledge and perspectives.Bacterial DNA Methylation and Methylomes.A BTP1 prophage gene present in invasive non-typhoidal Salmonella determines composition and length of the O-antigen of the lipopolysaccharide.Branched Lateral Tail Fiber Organization in T5-Like Bacteriophages DT57C and DT571/2 is Revealed by Genetic and Functional Analysis.Structural evolution of the P22-like phages: comparison of Sf6 and P22 procapsid and virion architectures.DNA Adenine Methyltransferase (Dam) Overexpression Impairs Photorhabdus luminescens Motility and Virulence.Proximal recognition sites facilitate intrasite hopping by DNA adenine methyltransferase: mechanistic exploration of epigenetic gene regulationSpontaneous and transient defence against bacteriophage by phase-variable glucosylation of O-antigen in Salmonella enterica serovar Typhimurium.Phase Variable Expression of a Single Phage Receptor in Campylobacter jejuni NCTC12662 Influences Sensitivity Toward Several Diverse CPS-Dependent Phages.Genes affecting progression of bacteriophage P22 infection in Salmonella identified by transposon and single gene deletion screens.
P2860
Q26825267-0B0A16CF-4922-4FCD-B866-4BD1F3329A4DQ26830795-5716E976-96C7-4503-9E2F-C4256BD85976Q27309333-974793D3-7CA1-4B1D-9189-4F1A8E7CD4C8Q28269950-C8A78FE8-DEBE-417D-B359-BCD8EEA0C1AAQ30383951-3CA3A383-351C-4CB7-8B70-378442B9277AQ30578890-845168C4-AFFB-4061-9185-A8F5EB941948Q33987536-7AB1E3F2-2256-4997-84E0-5B2CC6DA3C95Q34273732-4083D840-D25B-4159-95DF-6C6E91A4C7F0Q34722544-0B56A73B-446D-4901-8599-D472766F2452Q34789422-71F366C9-1136-4CFA-8ED0-D287DE7184B4Q34819430-59F674A1-CACA-419E-A270-09515300C4B2Q35362814-2A162D0D-F615-4805-AB2A-CBB839342140Q35580649-CD402057-8D4A-4006-BCFC-C4212147F598Q35598777-CF90675C-E981-46E7-8F41-EFE12928DA61Q35813616-4A988E74-FE84-43E5-95AD-0ADAEFCB2413Q36229443-D92118B8-0140-4BF1-A869-5B1E5178FFE8Q36281008-FBFB03D9-730A-4C73-BCB4-9242D573FEC5Q36356583-393D4C16-1774-48A4-9E18-B990EE82A3CAQ36387438-FF97CB6E-C16F-4742-9CE6-720DD3EA2EEEQ36463413-8FD86B06-608C-4AE0-8B9C-DB1500F4FCFBQ36603214-396FE596-9629-48F1-9403-C17572117893Q37001793-9E0DEBA5-BFBE-4A31-8682-E3CA79991897Q37240274-68D0AC87-74E7-488B-807D-3401A7B3B14AQ37719214-1D476094-46E4-47AE-9F6E-75B1D25EF350Q38099632-B5C6B3F4-0326-4C78-9B3E-229888C0FFDBQ38131537-317CC1E7-7AAA-4C13-BD93-FB5961B17E5AQ38692887-8DE4E18F-072E-4134-A6B3-B39DBEBE499CQ38944454-976BB4AA-41D4-4C20-9ED1-9970821798F7Q39003514-23E238E9-712B-4624-ADDB-AD319E7EE166Q40031715-B756B32C-9F66-46A3-84A1-BE6401681CDDQ40066983-57EC2329-07D3-4C23-9E67-55C734572BA1Q41614017-EBE48D57-2C4A-432D-9FFE-3B54781C55E6Q41619619-FDD0A7FF-A72C-4EDE-92A5-BC845040014AQ41887583-FD86CBC9-1B8D-4A48-A7E1-53AB40342EDAQ50023982-AA44E75F-1836-4ADC-B5C6-74309689B072Q50281542-2065AA63-224B-451E-9FC2-E8E6904817E7Q52688693-C3B3CD16-0629-4AAC-B4B0-1D3EAE9CA779
P2860
Phase variation controls expression of Salmonella lipopolysaccharide modification genes by a DNA methylation-dependent mechanism.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
2010年论文
@zh
2010年论文
@zh-cn
name
Phase variation controls expre ...... thylation-dependent mechanism.
@en
type
label
Phase variation controls expre ...... thylation-dependent mechanism.
@en
prefLabel
Phase variation controls expre ...... thylation-dependent mechanism.
@en
P2860
P1476
Phase variation controls expre ...... ethylation-dependent mechanism
@en
P2093
S E Broadbent
P2860
P304
P356
10.1111/J.1365-2958.2010.07203.X
P407
P577
2010-05-12T00:00:00Z