Global mutational analysis of NtrC-like activators in Myxococcus xanthus: identifying activator mutants defective for motility and fruiting body development.
about
The role of bacterial antizyme: From an inhibitory protein to AtoC transcriptional regulatorMyxobacteria: Moving, Killing, Feeding, and Surviving TogetherTwo-Component Signal Transduction Systems That Regulate the Temporal and Spatial Expression of Myxococcus xanthus Sporulation GenesA novel signaling network essential for regulating Pseudomonas aeruginosa biofilm developmentComprehensive mutation identification in an evolved bacterial cooperator and its cheating ancestorChemotaxis as an emergent property of a swarm.Identification of enhancer binding proteins important for Myxococcus xanthus development.Global transcriptome analysis of spore formation in Myxococcus xanthus reveals a locus necessary for cell differentiation.Regulating pilin expression reveals a threshold for S motility in Myxococcus xanthusEnhancer-binding proteins with a forkhead-associated domain and the sigma54 regulon in Myxococcus xanthus fruiting body development.Eukaryotic-like signaling and gene regulation in a prokaryote that undergoes multicellular development.Sigma54 enhancer binding proteins and Myxococcus xanthus fruiting body development.Nla18, a key regulatory protein required for normal growth and development of Myxococcus xanthusTransposon insertions of magellan-4 that impair social gliding motility in Myxococcus xanthus.Transcription factor MrpC binds to promoter regions of hundreds of developmentally-regulated genes in Myxococcus xanthusThe enhancer binding protein Nla6 regulates developmental genes that are important for Myxococcus xanthus sporulation.A cascade of coregulating enhancer binding proteins initiates and propagates a multicellular developmental programFatty acids from membrane lipids become incorporated into lipid bodies during Myxococcus xanthus differentiation.CbgA, a protein involved in cortex formation and stress resistance in Myxococcus xanthus sporesIdentification of major sporulation proteins of Myxococcus xanthus using a proteomic approach.Genome-wide analysis of myxobacterial two-component systems: genome relatedness and evolutionary changesThe zinc-ribbon domain of Helicobacter pylori HP0958: requirement for RpoN accumulation and possible roles of homologs in other bacteria.A Minimal Threshold of c-di-GMP Is Essential for Fruiting Body Formation and Sporulation in Myxococcus xanthusTriple mutants uncover three new genes required for social motility in Myxococcus xanthus.The Nla28S/Nla28 two-component signal transduction system regulates sporulation in Myxococcus xanthus.The Myxococcus xanthus Nla4 protein is important for expression of stringent response-associated genes, ppGpp accumulation, and fruiting body developmentCharacterization of Myxococcus xanthus MazF and implications for a new point of regulation.Practical applications of bacterial functional genomics.Seawater-regulated genes for two-component systems and outer membrane proteins in myxococcus.Spontaneous Reversions of an Evolutionary Trait Loss Reveal Regulators of a Small RNA That Controls Multicellular Development in Myxobacteria.Inter-laboratory evolution of a model organism and its epistatic effects on mutagenesis screens.Highly Signal-Responsive Gene Regulatory Network Governing Myxococcus Development.Draft Genome Sequence of Myxococcus xanthus Wild-Type Strain DZ2, a Model Organism for Predation and DevelopmentCyclic Di-GMP Regulates Type IV Pilus-Dependent Motility in Myxococcus xanthus.Evolution by flight and fight: diverse mechanisms of adaptation by actively motile microbes.Specificity residues determine binding affinity for two-component signal transduction systemsPhenotypic profiling of ABC transporter coding genes in Myxococcus xanthus.Small acid-soluble proteins with intrinsic disorder are required for UV resistance in Myxococcus xanthus spores.Draft Genome of a Type 4 Pilus Defective Myxococcus xanthus Strain, DZF1.Functional genome annotation through phylogenomic mapping.
P2860
Q24798200-60121BC4-81E2-4051-BFA9-A81B37F52997Q26745995-7F0F0C2A-B7F8-4FBC-AA06-18BC3F01D4A0Q26787127-08FACD0F-40F1-4DB6-8E75-AFFF8FB3D4AFQ28471924-94CE66CC-0066-4A56-9E96-A1F3A6DA5B7FQ28768673-55BCD2F6-FEE8-42D1-9738-47F9DECD2DA0Q30484019-AFF9FCF3-6F97-4DAA-AA7D-372B6C687634Q33557990-62AF3A33-2EF3-4F8E-A7ED-A337DA0F4BB6Q33564929-6B4BBC2D-D0BE-4194-8F42-55EAEA4DDDB7Q33714553-415B194F-9F9C-467A-A1ED-D622197E368FQ33863986-A7E31D93-AC86-45DD-8ED8-9C671C4EE4EDQ33864227-E2E5E4D6-E19A-4FBB-9E9F-A7764BE3E925Q34434944-629FA765-D5F5-49B9-BBAC-FF703C3E8C7DQ34509948-814539C5-CD9B-4C89-85B8-BE9DE8B44C6FQ34587992-6262BE67-D348-469E-A297-B4D4E8DBD140Q35060612-BF2A63EA-CE32-4009-AC33-CBD5734B8EE4Q35156596-C78EC361-6DF7-457F-BD39-F7B20589C47CQ35164845-9E3896E1-76A6-4FBB-9CC9-76636EDD975AQ35183111-3DB9FD76-FA8C-4BF8-B940-1F51A52A28A8Q35220602-DCD15A78-0E1F-480E-B4CD-FCD7974BEFF5Q35759667-E42B8E9F-88B8-4528-A3B6-95B1E8ACE78DQ35805350-96A5985E-0736-4A29-A41F-5AD8089720B6Q36023387-15FD49D3-7384-47CA-B4A0-84C623975221Q36026595-92513919-E9BB-46E8-870C-47C996CA1920Q36052339-C6D52897-501E-4744-B978-C2452795EE46Q36152768-A867CF99-F08D-4919-B2A0-798991C9255FQ36315373-FC0CB7AA-2146-466A-AD28-EAFDD16D3ACAQ36681018-2A26654F-778A-45EA-9D2A-6965F6A4A8B7Q37024705-764C9061-53B0-4B04-8109-66C0AE6832E5Q37127802-F413F047-3D73-4348-9278-DD3FBB6A6CA3Q37409374-FB936353-FF35-4D65-A5A2-7E86C87C6F83Q37460076-8EF759F8-62A7-4993-9614-7ADE5AD2CB91Q39028888-8CFF1F93-F093-4F86-B0C5-DCED797C3479Q40602287-FD96F6F9-320A-419E-AA74-2EF95E45701FQ40783425-06A9BDCB-CF3B-4270-8DE3-F3B187E7E96FQ41839414-FCB28DDF-A74B-4D44-BFF2-2D36116A66BFQ41873483-804C09DA-8DF2-4529-9A26-32A10A813BABQ42047933-4E9B25C0-94EB-40FB-B191-03C981E63BBAQ42124997-9CA07084-D2D4-490B-9F5B-0AD00D45DF18Q42246773-C4486019-7018-4EA2-AB4D-03911EF79885Q42658846-C8391986-9411-4C6F-9514-0D44FD07ED57
P2860
Global mutational analysis of NtrC-like activators in Myxococcus xanthus: identifying activator mutants defective for motility and fruiting body development.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh
2003年學術文章
@zh-hant
name
Global mutational analysis of ...... and fruiting body development.
@ast
Global mutational analysis of ...... and fruiting body development.
@en
type
label
Global mutational analysis of ...... and fruiting body development.
@ast
Global mutational analysis of ...... and fruiting body development.
@en
prefLabel
Global mutational analysis of ...... and fruiting body development.
@ast
Global mutational analysis of ...... and fruiting body development.
@en
P2093
P2860
P1476
Global mutational analysis of ...... and fruiting body development
@en
P2093
Anthony G Garza
Jimmy S Jakobsen
Nora B Caberoy
Steven C Slater
P2860
P304
P356
10.1128/JB.185.20.6083-6094.2003
P407
P50
P577
2003-10-01T00:00:00Z