Absence of a barrier to backwards rotation of the bacterial flagellar motor demonstrated with optical tweezers
about
On torque and tumbling in swimming Escherichia coliBio-Hybrid Micro/Nanodevices Powered by Flagellar Motor: Challenges and StrategiesSynchronization, slippage, and unbundling of driven helical flagellaMechanics of torque generation in the bacterial flagellar motor.Force per cross-sectional area from molecules to muscles: a general property of biological motors.Torque-speed relationship of the bacterial flagellar motor.A programmable optical angle clamp for rotary molecular motorsHigh hydrostatic pressure induces counterclockwise to clockwise reversals of the Escherichia coli flagellar motor.Dynamics of mechanosensing in the bacterial flagellar motor.Physical Sensing of Surface Properties by Microswimmers--Directing Bacterial Motion via Wall Slip.Using optics to measure biological forces and mechanics.Applying torque to the Escherichia coli flagellar motor using magnetic tweezersPhysical properties of Escherichia coli P pili measured by optical tweezersResource Letter: LBOT-1: Laser-based optical tweezersTorque measurement at the single-molecule levelFunction of proline residues of MotA in torque generation by the flagellar motor of Escherichia coli.Torque-speed relationship of the flagellar rotary motor of Escherichia coli.The fast tumble signal in bacterial chemotaxisA simple technique based on a single optical trap for the determination of bacterial swimming pattern.Dynamics of the bacterial flagellar motor: the effects of stator compliance, back steps, temperature, and rotational asymmetry.Low flagellar motor torque and high swimming efficiency of Caulobacter crescentus swarmer cells.Evaluating the toxic effect of an antimicrobial agent on single bacterial cells with optical tweezers.Flagellar movement driven by proton translocation.Physics of bacterial morphogenesis.Force-extension measurements on bacterial flagella: triggering polymorphic transformations.The shape and dynamics of the Leptospiraceae.Optical tweezers for single cellsDynamics of the bacterial flagellar motor with multiple statorsBacterial flagellar motor.Viscous dynamics of Lyme disease and syphilis spirochetes reveal flagellar torque and dragFlagellar motility of the pathogenic spirochetes.Proposed model for the flagellar rotary motor with shear stress transmissionForce and velocity of mycoplasma mobile gliding.Forcing mycoplasma mobile into line.An electrostatic mechanism closely reproducing observed behavior in the bacterial flagellar motor.Torque generated by the flagellar motor of Escherichia coli while driven backward.Biophysical Tools to Study Cellular Mechanotransduction.Viscous drag on the flagellum activates Bacillus subtilis entry into the K-state.Shear stress transmission model for the flagellar rotary motor.Speed of the bacterial flagellar motor near zero load depends on the number of stator units.
P2860
Q24680495-811ADD50-6A36-4E54-A75A-137675F78040Q26797265-76FC97F1-C060-4079-A255-E7F6F49E5B2EQ27310050-6D4D735C-A679-4B64-81D0-15B18DB4C14AQ27324397-41EEDF9C-5558-4C34-A006-57AE0985AAC8Q27333872-9EF00AC4-70D6-42D3-B9E2-6F878D543FCBQ30476718-845B49C3-C053-4B3C-8B9B-890F1FB6DE8EQ30479744-F95B9B9E-15E0-4DF2-B967-C4DC272F0C7AQ30538780-4B3AB1CF-2BC5-43F0-89B2-E5A2B0A3B827Q30541672-DD16F64E-8586-4871-B373-64ED87A22832Q30651150-225421A2-8E14-4781-8D90-AB1AA99ADC34Q30716494-D3B652CB-A1B6-4EB4-8A97-738800805394Q30840820-DF6CF480-FA90-4464-96B6-76DA91AD3671Q33206950-69E95B8E-00F0-4F3F-8D2D-2DD3BDC89B33Q33257540-51570AB5-B010-4FF5-8EE6-05DE54EA3F33Q33914834-5C4B9B44-4BC9-4E4D-8873-69101CB03CCAQ33992206-6A7C9209-4803-479B-BF76-2C355A82F0B3Q34172486-C57CEECB-58B4-40F3-8015-4ECB5521BAD9Q34186136-E272D845-F3D1-4E13-8839-518E0784055BQ34700479-1124674B-C4A5-40E3-81A1-7904DF6ED4CCQ34800884-A1E60F88-9FA1-4138-805D-A373CB7667DDQ35021413-E7B23191-A4C4-4F49-8D1B-43D7D3883A48Q35049250-E0A7C441-1D0E-48BA-AFD9-3DCE5D34FB4CQ35146235-611ED16C-5C2A-44DB-82DC-4732703502A3Q35598316-9C3823E3-98CF-4C54-8EC3-2694A583D084Q35774488-FD449BBE-8058-4F7F-8CF9-44B9584855D0Q35881252-D87A91CA-D98D-405D-AC6A-4CF89BF20F80Q37125303-FCD99306-A89C-45E8-B563-321234C32EAAQ37129362-71C018B9-555F-4912-B1F3-B2CDAA4FAB3AQ37277358-42056591-BA5A-4B87-8776-8F33A8108AE3Q37338019-E07126ED-DB04-459F-A237-AAE0173A6F10Q38611284-8CB4C037-87AE-4C55-92C4-E96DD040DFA4Q38919388-5FE19417-13E4-4D99-94E2-8A6252C3B608Q39678608-FD6A63B4-391A-4FB0-997A-0679358792B5Q39678701-14FE8AA2-20CA-4942-BA52-2294AEF279F2Q40157579-4060A69B-D73A-45F6-A5C2-CBE8B32E084EQ40224323-D3C87455-A64C-4D72-8C67-F8544EE3AC7CQ41513525-C96D9E1C-0C08-433B-94D1-324F57F682DDQ42513571-703C4FB9-8562-4368-987F-C115E65C4DBAQ43187732-F6792B8B-BFD2-4392-B706-7E59A671BA98Q50097682-5DF2E29A-C07A-416F-8318-9F8414C4D2BC
P2860
Absence of a barrier to backwards rotation of the bacterial flagellar motor demonstrated with optical tweezers
description
1997 nî lūn-bûn
@nan
1997 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1997 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
name
Absence of a barrier to backwa ...... nstrated with optical tweezers
@ast
Absence of a barrier to backwa ...... nstrated with optical tweezers
@en
type
label
Absence of a barrier to backwa ...... nstrated with optical tweezers
@ast
Absence of a barrier to backwa ...... nstrated with optical tweezers
@en
prefLabel
Absence of a barrier to backwa ...... nstrated with optical tweezers
@ast
Absence of a barrier to backwa ...... nstrated with optical tweezers
@en
P2860
P356
P1476
Absence of a barrier to backwa ...... nstrated with optical tweezers
@en
P2093
P2860
P304
14433-14437
P356
10.1073/PNAS.94.26.14433
P407
P577
1997-12-01T00:00:00Z