Deciphering chemotaxis pathways using cross species comparisons
about
Using Structural Information to Change the Phosphotransfer Specificity of a Two-Component Chemotaxis Signalling ComplexSplit histidine kinases enable ultrasensitivity and bistability in two-component signaling networksBacterial chemotaxis: the early years of molecular studiesEvolution of response dynamics underlying bacterial chemotaxisConstruction of a genetic multiplexer to toggle between chemosensory pathways in Escherichia coliEnhanced hybrid search algorithm for protein structure prediction using the 3D-HP lattice model.The Azospirillum brasilense Che1 chemotaxis pathway controls swimming velocity, which affects transient cell-to-cell clumping.Feedback control architecture and the bacterial chemotaxis network.Modeling chemotaxis reveals the role of reversed phosphotransfer and a bi-functional kinase-phosphatase.A family of ParA-like ATPases promotes cell pole maturation by facilitating polar localization of chemotaxis proteinsUpdated genome assembly and annotation of Paenibacillus larvae, the agent of American foulbrood disease of honey bees.Predicting inter-species cross-talk in two-component signalling systems.Architecture and gene repertoire of the flexible genome of the extreme acidophile Acidithiobacillus caldus.Phosphate sink containing two-component signaling systems as tunable threshold devices.ParA-like protein uses nonspecific chromosomal DNA binding to partition protein complexes.Spatial organization in bacterial chemotaxis.Diversity at its best: bacterial taxis.High specificity in CheR methyltransferase function: CheR2 of Pseudomonas putida is essential for chemotaxis, whereas CheR1 is involved in biofilm formation.Recent advances and future prospects in bacterial and archaeal locomotion and signal transduction.In Rhodobacter sphaeroides, chemotactic operon 1 regulates rotation of the flagellar system 2.Campylobacter: from microbiology to prevention.Optimal chemotactic responses in stochastic environments.Identification of a chemoreceptor that specifically mediates chemotaxis toward metabolizable purine derivatives.RpoS and quorum sensing control expression and polar localization of Vibrio cholerae chemotaxis cluster III proteins in vitro and in vivo.The HBM domain: introducing bimodularity to bacterial sensing.Specificity of the CheR2 methyltransferase in Pseudomonas aeruginosa is directed by a C-terminal pentapeptide in the McpB chemoreceptor.Sensory Repertoire of Bacterial Chemoreceptors.The expression of many chemoreceptor genes depends on the cognate chemoeffector as well as on the growth medium and phase.Essential Role of the Cytoplasmic Chemoreceptor TlpT in the De Novo Formation of Chemosensory Complexes in Rhodobacter sphaeroides.Comparative structural bioinformatics analysis of Bacillus amyloliquefaciens chemotaxis proteins within Bacillus subtilis group
P2860
Q27659885-510B360F-AB63-48ED-A411-6BA11E3C8B57Q28487725-D7D1D081-479B-4E94-9663-735F915B93DBQ28659940-2F4A4DAF-1093-4C35-A713-51C021819E9FQ28744656-A8EE53C3-1B7D-4F08-B841-D0B2FDED17BEQ28914734-18E85A5F-44A9-4816-9F8D-A48CEFB96741Q30432692-114A780B-8583-464E-AA19-F3A22DFC209FQ30524721-380210C5-9F67-44C5-95F9-0F02DC8B2F9BQ31010067-2CA56978-7136-4DD3-8ED9-826F81765B3BQ33680672-B1B96A10-1072-4303-98F5-3EAA27032420Q33963306-1E574F45-1334-4D9C-96E8-334E589BF513Q34020907-C1676E5B-18E2-4F85-AC7E-FA26C7F7485AQ34282126-FB0D8C27-389E-435F-8DD0-05B9A1AB6B2EQ35046577-D1070549-2474-40AD-BFF0-CA43A656BF6BQ35378297-8449D1B8-4A5A-4374-BBF5-F5CDC3B742DFQ35921811-741FB11B-FE23-4024-A6D6-A528627548A7Q37780681-49A56F70-B8B5-4470-A8F6-682D29E16778Q37810628-4DDE17B6-6E2E-47B3-A060-ABD6B4383281Q38315454-6093C98A-4542-4D67-83DE-4E45937EC493Q38686245-20CF0229-71AA-45E5-87EB-0C368699BD0FQ39662718-051E3DDC-1B29-464C-B640-45B534EF9F5EQ40039181-F83A95C8-0864-4715-8AB2-0848DA102468Q40160422-C652BCFB-88C1-41AD-B976-6435DED5C095Q40555850-3B0DDA22-5E86-4BA9-85AD-7C912ACC7C72Q41218370-B55B6114-00E5-464B-B10B-4798270BC9B8Q42007194-A87E6808-CED3-471F-B079-F027B7810F58Q46908139-EE6A63AC-08F7-44D0-8F19-705DE7B7A0EDQ47410139-DCD8F544-E522-445A-8E29-E8867F69D4EFQ48353181-5BB90A7A-B599-42B7-A5CC-968ECE76E022Q48355631-A14111E6-7B56-4FBB-A4F6-F71E18009E1AQ58861488-BD0836B5-8AA9-4FFF-BA48-C27D8BD5052A
P2860
Deciphering chemotaxis pathways using cross species comparisons
description
2010 nî lūn-bûn
@nan
2010 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հունվարին հրատարակված գիտական հոդված
@hy
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
name
Deciphering chemotaxis pathways using cross species comparisons
@ast
Deciphering chemotaxis pathways using cross species comparisons
@en
Deciphering chemotaxis pathways using cross species comparisons.
@nl
type
label
Deciphering chemotaxis pathways using cross species comparisons
@ast
Deciphering chemotaxis pathways using cross species comparisons
@en
Deciphering chemotaxis pathways using cross species comparisons.
@nl
prefLabel
Deciphering chemotaxis pathways using cross species comparisons
@ast
Deciphering chemotaxis pathways using cross species comparisons
@en
Deciphering chemotaxis pathways using cross species comparisons.
@nl
P2093
P2860
P356
P1433
P1476
Deciphering chemotaxis pathways using cross species comparisons
@en
P2093
Judith P Armitage
Pao-Yang Chen
Rebecca Hamer
P2860
P2888
P356
10.1186/1752-0509-4-3
P577
2010-01-11T00:00:00Z
P5875
P6179
1050888104