about
Analysis of the Borrelia burgdorferi cyclic-di-GMP-binding protein PlzA reveals a role in motility and virulenceSodium-driven motor of the polar flagellum in marine bacteria VibrioCrystallographic and Molecular Dynamics Analysis of Loop Motions Unmasking the Peptidoglycan-Binding Site in Stator Protein MotB of Flagellar MotorThe tetrameric MotA complex as the core of the flagellar motor stator from hyperthermophilic bacteriumLoss of FlhE in the flagellar Type III secretion system allows proton influx into Salmonella and Escherichia coli.Swarming: flexible roaming plans.Sodium-driven energy conversion for flagellar rotation of the earliest divergent hyperthermophilic bacterium.Dynamic motors for bacterial flagella.Conformational change in the periplamic region of the flagellar stator coupled with the assembly around the rotor.The flagellar protein FliL is essential for swimming in Rhodobacter sphaeroides.Design, purification and characterization of a soluble variant of the integral membrane protein MotB for structural studiesA distant homologue of the FlgT protein interacts with MotB and FliL and is essential for flagellar rotation in Rhodobacter sphaeroidesA new player at the flagellar motor: FliL controls both motor output and biasSerine 26 in the PomB subunit of the flagellar motor is essential for hypermotility of Vibrio cholerae.Perturbation of FliL interferes with Proteus mirabilis swarmer cell gene expression and differentiation.Gate-controlled proton diffusion and protonation-induced ratchet motion in the stator of the bacterial flagellar motorThe Bacterial Flagellar Type III Export Gate Complex Is a Dual Fuel Engine That Can Use Both H+ and Na+ for Flagellar Protein Export.The ExbD periplasmic domain contains distinct functional regions for two stages in TonB energization.A novel component of the Rhodobacter sphaeroides Fla1 flagellum is essential for motor rotation.Distinct roles of highly conserved charged residues at the MotA-FliG interface in bacterial flagellar motor rotationLoad-dependent assembly of the bacterial flagellar motorBacterial flagellar motor.From Genomes to Phenotypes: Traitar, the Microbial Trait Analyzer.Structure and function of the bi-directional bacterial flagellar motor.Controlling Autolysis During Flagella Insertion in Gram-Negative Bacteria.The C-terminal periplasmic domain of MotB is responsible for load-dependent control of the number of stators of the bacterial flagellar motorFunctional chimeras of flagellar stator proteins between E. coli MotB and Vibrio PomB at the periplasmic region in Vibrio or E. coliGenetic analysis of revertants isolated from the rod-fragile fliF mutant of Salmonella.Dual stator dynamics in the Shewanella oneidensis MR-1 flagellar motor.How 34 pegs fit into 26 + 8 holes in the flagellar motor.Suppressor analysis of the MotB(D33E) mutation to probe bacterial flagellar motor dynamics coupled with proton translocation.Characterization of the periplasmic region of PomB, a Na+-driven flagellar stator protein in Vibrio alginolyticusIntragenic suppressor of a plug deletion nonmotility mutation in PotB, a chimeric stator protein of sodium-driven flagella.MotX and MotY are required for flagellar rotation in Shewanella oneidensis MR-1.Structure of the flagellar motor protein complex PomAB: implications for the torque-generating conformation.Structural analysis of variant of Helicobacter pylori MotB in its activated form, engineered as chimera of MotB and leucine zipper.Characterization of the periplasmic domain of MotB and implications for its role in the stator assembly of the bacterial flagellar motor.More than motility: Salmonella flagella contribute to overriding friction and facilitating colony hydration during swarming.Na+-induced structural transition of MotPS for stator assembly of the Bacillus flagellar motor.The role of a cytoplasmic loop of MotA in load-dependent assembly and disassembly dynamics of the MotA/B stator complex in the bacterial flagellar motor.
P2860
Q24600004-64215498-8E0B-4F6D-B14E-9FBCFF8764D1Q26822693-091C5406-DECA-4C0E-9F4B-DED4122B1534Q27667632-B37B1929-28B2-4D5F-9CAD-0BF127038E90Q28830138-5CAF714D-A30D-49C6-9830-4C15E3CFA67EQ30513626-A42795FB-AFB0-4E01-BC92-2729BEDB1FBAQ30535706-5B42757C-B4FE-4A5D-B48E-113294680806Q30659981-C26FC0A1-842D-4165-886F-C0648F027556Q33952936-004A6D47-B196-4C22-B0EA-1EF43B02057BQ34218084-03C076DE-4A41-49BF-A36E-84016C25BBEBQ34309277-6B9B8192-54DE-4694-823A-B5B118C09F81Q34495139-2D9721E4-A9DC-44B5-8BE5-064ED07E81A9Q34993651-5DE7CDAF-0A2C-42A1-9ECA-0BF7F33308EFQ35172343-BA9426CC-8457-426E-90CB-B511284802CCQ35601627-E48C5468-A498-4602-AB68-4D1523144C44Q35668113-8A47FBCB-54C3-4AE7-B21A-50BD22920702Q35796229-E35B10B0-B009-4CFA-AC56-002424BDF548Q35946328-88614DB1-A9EA-43E7-9F3B-E707841EA350Q36019148-7153CA61-6DD2-43AE-B7A0-5ACFABC86B8DQ36363503-ACCDD3E5-0177-458A-A526-FF41CADE244DQ36559339-0BD1A627-B07D-4429-89A4-40EED521A000Q37105691-51D8DD03-D342-4FB7-89A8-9BCDDFB472ABQ37277358-9BBE7B91-0924-46D0-8A95-587B44E4EE5DQ37538567-79BAEBF8-A094-462A-9676-ACC95DBE55F1Q38223689-5597F127-2608-4282-AF40-C79E30104277Q38976974-31FDC992-8633-46E7-982D-67B5A3A6DD17Q39521634-74C4AEED-98AF-4642-860C-7E7E165A9F6BQ39671817-0697BA96-CD81-446B-9C0B-334945F35445Q41227013-5F6EFB91-4560-4EDA-91AD-BAFEA09AB064Q41331672-D7281FD9-AB54-41FD-B517-EEA19F746929Q41837071-C9BF0726-C6D4-430D-89BE-F2A2AD24381FQ42002851-CBB7872F-9083-4670-99C9-8F87DE451C1EQ42174513-31357561-A96E-408A-9071-1AF9C8803FFEQ42371697-0A466FCA-A656-4D5E-A111-B6F77E25334DQ42454983-B25746D9-9567-4F5F-9F82-5D8DD76A4130Q42489436-4F1E9123-0FF2-4CB3-B7D3-42C7D1689B8AQ42658698-F3A64690-9AA0-4F98-B610-6E94C5665FC9Q43184122-02CBD071-786D-42E9-B16B-145A96D76CD6Q43248523-EC89F88B-416E-430A-90A7-6D1BD86BABCDQ47139837-C56C49FA-2649-4E98-844F-AFDF028C79CAQ47780159-CAA21AEE-EFD4-4A09-A211-9BE67F5B7FD4
P2860
description
2006 nî lūn-bûn
@nan
2006 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
The Escherichia coli MotAB proton channel unplugged.
@ast
The Escherichia coli MotAB proton channel unplugged.
@en
The Escherichia coli MotAB proton channel unplugged.
@nl
type
label
The Escherichia coli MotAB proton channel unplugged.
@ast
The Escherichia coli MotAB proton channel unplugged.
@en
The Escherichia coli MotAB proton channel unplugged.
@nl
prefLabel
The Escherichia coli MotAB proton channel unplugged.
@ast
The Escherichia coli MotAB proton channel unplugged.
@en
The Escherichia coli MotAB proton channel unplugged.
@nl
P2093
P1476
The Escherichia coli MotAB proton channel unplugged.
@en
P2093
Christian Vogt
Edan R Hosking
Evert P Bakker
Michael D Manson
P304
P356
10.1016/J.JMB.2006.09.035
P407
P577
2006-09-16T00:00:00Z