Convergent sensing pathways mediate response to two extracellular competence factors in Bacillus subtilis.
about
Signal peptide-dependent protein transport in Bacillus subtilis: a genome-based survey of the secretomeAn unmodified heptadecapeptide pheromone induces competence for genetic transformation in Streptococcus pneumoniaeA bacterial cytokineBacterial autoinduction: looking outside the cell for new metabolic engineering targetsQuorum Sensing: An Under-Explored Phenomenon in the Phylum ActinobacteriaConformational change-induced repeat domain expansion regulates Rap phosphatase quorum-sensing signal receptorsWater surface tension modulates the swarming mechanics of Bacillus subtilisNMR Solution Structure and DNA-binding Model of the DNA-binding Domain of Competence Protein AQuorum sensing and biofilm formation in mycobacteria: role of c-di-GMP and methods to study this second messengerYjbH-enhanced proteolysis of Spx by ClpXP in Bacillus subtilis is inhibited by the small protein YirB (YuzO)Directed natural product biosynthesis gene cluster capture and expression in the model bacterium Bacillus subtilisDiversity of oligopeptide transport specificity in Lactococcus lactis species. A tool to unravel the role of OppA in uptake specificity.Comparative analysis of the development of swarming communities of Bacillus subtilis 168 and a natural wild type: critical effects of surfactin and the composition of the medium.Enterococcus faecalis pheromone binding protein, PrgZ, recruits a chromosomal oligopeptide permease system to import sex pheromone cCF10 for induction of conjugation.Altered srf expression in Bacillus subtilis resulting from changes in culture pH is dependent on the Spo0K oligopeptide permease and the ComQX system of extracellular control.Quenching the quorum sensing system: potential antibacterial drug targets.Specificity and genetic polymorphism of the Bacillus competence quorum-sensing systemOppA of Listeria monocytogenes, an oligopeptide-binding protein required for bacterial growth at low temperature and involved in intracellular survival.Control of a family of phosphatase regulatory genes (phr) by the alternate sigma factor sigma-H of Bacillus subtilis.The quorum sensing diversity within and between ecotypes of Bacillus subtilis.Extracellular DNA release by undomesticated Bacillus subtilis is regulated by early competenceChemical communication among bacteria.Extracellular complementation and the identification of additional genes involved in aerial mycelium formation in Streptomyces coelicolorA postgenomic appraisal of osmotolerance in Listeria monocytogenesBacterial quorum-sensing network architecturesComQXPA quorum sensing systems may not be unique to Bacillus subtilis: a census in prokaryotic genomes.Translation of the open reading frame encoded by comS, a gene of the srf operon, is necessary for the development of genetic competence, but not surfactin biosynthesis, in Bacillus subtilis.Plasmid-amplified comS enhances genetic competence and suppresses sinR in Bacillus subtilisNatural genetic transformation in Streptococcus gordonii: comX imparts spontaneous competence on strain wicky.CodY is required for nutritional repression of Bacillus subtilis genetic competence.Regulation of Bacillus subtilis sigmaH (spo0H) and AbrB in response to changes in external pH.Proteomics of protein secretion by Bacillus subtilis: separating the "secrets" of the secretome.Whole-Genome Sequencing and Comparative Genome Analysis of Bacillus subtilis Strains Isolated from Non-Salted Fermented Soybean FoodsA Secreted Factor Coordinates Environmental Quality with Bacillus Development.High-Throughput Genetic Screens Identify a Large and Diverse Collection of New Sporulation Genes in Bacillus subtilisInteractive regulation by the Bacillus subtilis global regulators CodY and ScoC.Clostridium difficile infection: toxins and non-toxin virulence factors, and their contributions to disease establishment and host response.CSF, a species-specific extracellular signaling peptide for communication among strains of Bacillus subtilis and Bacillus mojavensisIdentification of residues important for cleavage of the extracellular signaling peptide CSF of Bacillus subtilis from its precursor protein.patS minigenes inhibit heterocyst development of Anabaena sp. strain PCC 7120.
P2860
Q24548495-11697AD8-80C7-474F-8A8D-888511739910Q24564159-4B32F788-E033-4A2E-8B46-C969E76FAECDQ24678303-A298869A-934B-497C-812B-A01BCBEF8542Q24800552-1BF2F332-B3E3-4566-8DB8-324AEE260828Q26767734-E7951225-1848-43D2-8350-675932CF0EEAQ27318174-3DED0E3B-B15E-439B-8A20-929F4EF84472Q27329039-6037387C-5E46-40CA-9F0C-A238A390497BQ27660288-D4FD1846-4131-42BD-93F5-789A59730441Q28082326-E1BE10E1-C1B4-41B4-86B2-573503991919Q28488959-03305980-79D3-4294-B04A-D7BE7AE4BBA5Q28552699-47EB639A-3C0F-4E5B-ADDF-240B59D4E74CQ31131846-BE783CA8-8405-4C4A-94D9-80D9D6F07499Q33553228-28B7F0E3-34C0-4F90-B4C3-E623A7155E04Q33614856-66DACCAB-6748-4537-AA9A-ABD959C50371Q33726923-EB42053E-693A-4020-9F58-2610E535A65EQ33805168-9D2C0B3A-B737-4C5A-8F31-92AFCC885A57Q33995289-8A881FE1-302F-4261-A8A8-C47DADE85FD1Q34005331-18967E76-ECEB-4E5D-A1B6-A396D7E032BCQ34011532-E86C85BF-097E-4D48-A0E0-34CEFCC81ADCQ34184900-F25FD8E6-5A69-4C3A-829F-56EFC731BD5CQ34469849-5A018682-E543-4B35-8500-F029382C4E8BQ34583164-07DB94ED-7C07-48FA-9F20-C2BA0A766F23Q34606207-F098B97F-B3A5-4BA6-8354-0B7093CD1676Q34880689-D51ED38F-E577-44FC-A31E-7815E7085CDEQ35037002-92DB906A-279D-40F6-8D2B-6434C2586EB1Q35161440-CE9472E9-EB39-4BB6-9B46-8300DE2C4078Q35590517-E5924257-93DE-4443-946A-76AA85C35F72Q35611571-9FBA2948-7713-4D9C-B286-9449CD0307F0Q35614215-97CD6466-FCC3-4621-9B6D-04E6C1BE8E19Q35614237-518655D0-CE4A-4D77-B947-7F8BC3291F8AQ35631949-7150D320-2F5B-41FB-B369-E340881BFFDEQ35798768-7DD3D810-E442-4B0D-8897-6BABDC4BDA00Q35822925-95E466BF-6DD7-4126-AF9B-251479634B9BQ35866600-99AF8C3C-0C2E-455E-B958-DCEE7BFD6D96Q35886866-EEDA3C51-053F-4EFE-A3A3-7FE5A05EFDA2Q35997875-8E5C79AB-A4FA-49DF-AAE1-4C159E4AF387Q36019350-FA7B6B7B-B357-4F17-9726-781D321BF71AQ36672896-5C0E4DBC-CB2B-45B6-AD8B-4C1C0FB696C5Q36933721-9D937431-8B83-4350-B616-6F9EC9759D42Q37513605-05A57DA4-10AA-4212-8AAE-C02E69C4FF7B
P2860
Convergent sensing pathways mediate response to two extracellular competence factors in Bacillus subtilis.
description
1995 nî lūn-bûn
@nan
1995 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
1995 թվականի մարտին հրատարակված գիտական հոդված
@hy
1995年の論文
@ja
1995年論文
@yue
1995年論文
@zh-hant
1995年論文
@zh-hk
1995年論文
@zh-mo
1995年論文
@zh-tw
1995年论文
@wuu
name
Convergent sensing pathways me ...... factors in Bacillus subtilis.
@ast
Convergent sensing pathways me ...... factors in Bacillus subtilis.
@en
Convergent sensing pathways me ...... factors in Bacillus subtilis.
@nl
type
label
Convergent sensing pathways me ...... factors in Bacillus subtilis.
@ast
Convergent sensing pathways me ...... factors in Bacillus subtilis.
@en
Convergent sensing pathways me ...... factors in Bacillus subtilis.
@nl
prefLabel
Convergent sensing pathways me ...... factors in Bacillus subtilis.
@ast
Convergent sensing pathways me ...... factors in Bacillus subtilis.
@en
Convergent sensing pathways me ...... factors in Bacillus subtilis.
@nl
P2093
P356
P1433
P1476
Convergent sensing pathways me ...... factors in Bacillus subtilis.
@en
P2093
Grossman AD
Magnuson R
Solomon JM
Srivastava A
P304
P356
10.1101/GAD.9.5.547
P577
1995-03-01T00:00:00Z