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Magnetic Propulsion of Microswimmers with DNA-Based Flagellar BundlesTorque-induced precession of bacterial flagella.Running and tumbling with E. coli in polymeric solutions.Synchronization, slippage, and unbundling of driven helical flagellaUnderstanding the link between single cell and population scale responses of Escherichia coli in differing ligand gradientsHigh-throughput 3D tracking of bacteria on a standard phase contrast microscopeDependence of bacterial chemotaxis on gradient shape and adaptation rateVoronoi tessellation captures very early clustering of single primary cells as induced by interactions in nascent biofilmsA molecular brake, not a clutch, stops the Rhodobacter sphaeroides flagellar motor.The switching dynamics of the bacterial flagellar motorPropulsion of African trypanosomes is driven by bihelical waves with alternating chirality separated by kinks.Counterclockwise circular motion of bacteria swimming at the air-liquid interface.Flagellar hook flexibility is essential for bundle formation in swimming Escherichia coli cells.Propulsion of microorganisms by a helical flagellum.Key amino acid residues involved in the transitions of L- to R-type protofilaments of the Salmonella flagellar filamentUnlocking the secrets of multi-flagellated propulsion: drawing insights from Tritrichomonas foetus.Hyperswarming adaptations in a bacterium improve collective motility without enhancing single cell motility.Helicobacter pylori strains vary cell shape and flagellum number to maintain robust motility in viscous environmentsApplying torque to the Escherichia coli flagellar motor using magnetic tweezersCell morphology governs directional control in swimming bacteria.A bead-spring model for running and tumbling of flagellated swimmers: detailed predictions compared to experimental data for E. coli.Predicted auxiliary navigation mechanism of peritrichously flagellated chemotactic bacteria.The hydrodynamics of a run-and-tumble bacterium propelled by polymorphic helical flagella.Developing stochastic models for spatial inference: bacterial chemotaxisGame theory in the death galaxy: interaction of cancer and stromal cells in tumour microenvironment.Dynamics of bacterial swarming.Visualization of Flagella during bacterial SwarmingSingle-cell E. coli response to an instantaneously applied chemotactic signal.Asymmetry in the clockwise and counterclockwise rotation of the bacterial flagellar motor.Hydration-controlled bacterial motility and dispersal on surfaces.Fluid dynamics and noise in bacterial cell-cell and cell-surface scatteringMicroscopic analysis of bacterial motility at high pressure.Flagellated bacterial motility in polymer solutions.Coordinated reversal of flagellar motors on a single Escherichia coli cell.Loose coupling in the bacterial flagellar motor.Stochastic coordination of multiple actuators reduces latency and improves chemotactic response in bacteriaBacterial Motility Reveals Unknown Molecular Organization.Chemotactic adaptation kinetics of individual Escherichia coli cells.Bacterial flagella are firmly anchored.Optical tweezers for single cells
P2860
Q27301013-2422BA06-59A4-41F6-91D7-4F00C64C8407Q27303337-1802F6F5-AE24-4EC8-BA43-9814639966C6Q27308046-C614D0D5-4E21-41B9-BC79-176D4C3616E1Q27310050-88042072-55C2-4D37-B74E-DFBF1C40211AQ27317181-851B3747-A2CE-4CC2-9070-82239EF6497CQ27318941-1FA36748-4D42-4A7D-A2CF-ED49F6A3D19DQ28304568-BF0BA46C-6749-4660-AE4D-01226186CD0EQ28477529-02F681E8-0946-4F61-8A98-F2FED2476DF3Q30488807-191A2C07-C612-4307-A8F4-117C465FC0CBQ30491731-CD92852A-DC7E-4FF8-829C-37F3B09F7893Q30491791-815F695A-9B53-4E86-84DF-FE88D1D80AE2Q30497369-AC646EFA-0BCE-4264-9A1C-347C41652450Q30524723-182C3BEB-0168-40ED-89BA-5B553ECDDDACQ30533990-EE7CB23B-FF04-4468-973F-B5B19D18C3BBQ30543770-DF390DE5-E89D-4CE6-8E29-89E92D466F71Q30572253-B0647A02-3F76-4D02-9028-0D6F3B6176DEQ30574122-9891D51B-5CDE-4862-874E-D91AE88CF121Q30753432-E569419D-7A68-4D58-9131-2E3A2087E5CBQ30840820-C4564639-487C-45B1-9B0E-BD79F1A5DCE0Q30851262-0002F3C5-0DF1-4B5B-80BF-D113ED404EF0Q30884536-2C87D7EF-4778-44ED-801D-B8982BA8FEF7Q33545207-2B075EBD-DA83-40EF-B5FB-FBEF9936BA47Q33568325-03A8E4D4-1D21-4AA2-BD27-383ECDE1EDEFQ33586109-667D0FA1-5E4A-44DD-83EA-F8479A045C51Q33808741-44D036D8-A632-49D7-BD0A-FF283DF0162FQ33858372-86C26CD3-0541-4B22-8C1C-1A9433DD0D82Q33964285-3D3C0BCC-C40E-4BCF-98E3-BA1FC4C800F9Q34031045-FAEA177E-0D89-4357-A6D5-C64269B9C602Q34059236-A3E19C5B-5CEC-4E5C-8EB7-42DAD400A1E1Q34069552-B566AB10-E4DD-44C8-AA3A-FA5D3134EDF3Q34194146-B7D4CB83-18C9-4477-9C0E-E314539961CFQ34329327-2DB7E2B4-FA1C-46B4-8619-C6BA78D87E29Q34752481-F36E8524-A5AC-49D9-9FF1-12BD120C7550Q35144701-997D0E70-230B-4154-8C2C-9B53C3A11D0EQ35485013-B4C5B383-E87B-4BFF-B89B-34FB27C76FADQ35734962-E2746659-6AA9-41A6-94A5-867CF707A0C7Q35847240-6241EC19-8723-4B80-ADE5-F9D03C103C2DQ36056612-D157DB53-4751-4F4D-8A56-A3D0D8D8B134Q36994429-B627E1BD-6DC8-460B-997D-A013DD08A067Q37125303-A3EAB246-CFCD-4F30-B058-025FAFA005F7
P2860
description
2006 nî lūn-bûn
@nan
2006 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի դեկտեմբերին 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
On torque and tumbling in swimming Escherichia coli
@ast
On torque and tumbling in swimming Escherichia coli
@en
On torque and tumbling in swimming Escherichia coli
@nl
type
label
On torque and tumbling in swimming Escherichia coli
@ast
On torque and tumbling in swimming Escherichia coli
@en
On torque and tumbling in swimming Escherichia coli
@nl
prefLabel
On torque and tumbling in swimming Escherichia coli
@ast
On torque and tumbling in swimming Escherichia coli
@en
On torque and tumbling in swimming Escherichia coli
@nl
P2093
P2860
P3181
P356
P1476
On torque and tumbling in swimming Escherichia coli
@en
P2093
Howard C Berg
Linda Turner
Nicholas C Darnton
Svetlana Rojevsky
P2860
P304
P3181
P356
10.1128/JB.01501-06
P407
P577
2006-12-22T00:00:00Z