Swimming in circles: motion of bacteria near solid boundaries - Wikidata - wikimedia - TriplyDB

Swimming in circles: motion of bacteria near solid boundaries

Swimming in circles: motion of bacteria near solid boundaries

http://www.wikidata.org/entity/Q34352954

about

Bacterial growth and motility in sub-micron constrictions.The selective value of bacterial shape On torque and tumbling in swimming Escherichia coli Microfluidics expanding the frontiers of microbial ecology Magnetic Propulsion of Microswimmers with DNA-Based Flagellar Bundles Entrapment of ciliates at the water-air interface The flagellar motor of Caulobacter crescentus generates more torque when a cell swims backward Boundaries can steer active Janus spheres.Bimodal rheotactic behavior reflects flagellar beat asymmetry in human sperm cells.Two-dimensional slither swimming of sperm within a micrometre of a surface Opposite and Coordinated Rotation of Amphitrichous Flagella Governs Oriented Swimming and Reversals in a Magnetotactic Spirillum.Novel methods for analysing bacterial tracks reveal persistence in Rhodobacter sphaeroides Swimming performance of Bradyrhizobium diazoefficiens is an emergent property of its two flagellar systems Disrupting the wall accumulation of human sperm cells by artificial corrugation.Hydrodynamics of a self-actuated bacterial carpet using microscale particle image velocimetry.Radial and spiral stream formation in Proteus mirabilis colonies Near surface swimming of Salmonella Typhimurium explains target-site selection and cooperative invasion Dynamics of an active magnetic particle in a rotating magnetic field Interplay of physical mechanisms and biofilm processes: review of microfluidic methods Critical waves and the length problem of biology.Helicobacter pylori moves through mucus by reducing mucin viscoelasticity.Studying the dynamics of flagella in multicellular communities of Escherichia coli by using biarsenical dyes.Counterclockwise circular motion of bacteria swimming at the air-liquid interface.Microchannel-nanopore device for bacterial chemotaxis assays.Microbubbles reveal chiral fluid flows in bacterial swarms.Propulsion of microorganisms by a helical flagellum.Sperm trajectories form chiral ribbons.From swimming to swarming: Escherichia coli cell motility in two-dimensions Microgrooves and fluid flows provide preferential passageways for sperm over pathogen Tritrichomonas foetus.Vibrio cholerae use pili and flagella synergistically to effect motility switching and conditional surface attachment Physical Sensing of Surface Properties by Microswimmers--Directing Bacterial Motion via Wall Slip.Species-dependent hydrodynamics of flagellum-tethered bacteria in early biofilm development The mechanics clarifying counterclockwise rotation in most IVF eggs in mice.Deployable micro-traps to sequester motile bacteria.Cell morphology governs directional control in swimming bacteria.Phototaxis beyond turning: persistent accumulation and response acclimation of the microalga Chlamydomonas reinhardtii.A bead-spring model for running and tumbling of flagellated swimmers: detailed predictions compared to experimental data for E. coli.The hydrodynamics of a run-and-tumble bacterium propelled by polymorphic helical flagella.The upper surface of an Escherichia coli swarm is stationary Detachment and successive re-attachment of multiple, reversibly-binding tethers result in irreversible bacterial adhesion to surfaces.

P2860

Q24649107-CDA30051-C5A7-4EB7-AA07-A5F937EBD2C6 Q24669928-5BAE9CB0-45F2-4140-9ECB-20B973969B63 Q24680495-C3422A7C-4776-414C-887E-513528FF6170 Q27002943-E57D736F-F361-4522-AC4C-8B25EA31BD11 Q27301013-B54F8F55-6FC2-45EB-9D1C-3C889B56A61B Q27305415-DADA7CB5-BD70-4A63-8EEE-CCC874155F1B Q27311354-0AFA9C58-CBD3-4FCC-962D-B660FED55DD1 Q27316599-948BD4D8-2960-44F5-A709-142AC149E975 Q27318660-81F5A1D3-526C-4FA2-9C3F-50822B24EF41 Q27319985-4C2DE844-4144-4950-AB60-BC8F8E155BCA Q27322470-9516376B-283F-4F5F-8498-610CFA5314F9 Q27324087-377635A0-5539-415D-8539-F7372A2BBA12 Q27324463-305880BF-7584-43E9-9A0E-B45088C847B9 Q27331507-E362F637-236E-4BAB-9A45-B2F0CB6028F1 Q27331586-E0696D1B-F608-48CC-9712-29B6187CD9CB Q27332154-54D44ED9-44F8-40AB-AF7E-AEEE0AFE27AB Q27343152-3753D5BC-9E9D-4D1F-A166-2CDBFA7ACA16 Q27349524-6D8E3466-1C27-4ED2-BA8C-E3D397E40376 Q30394297-ABC0DF09-2413-4700-9B4C-F20C24EAFAFA Q30404303-B97CF0BD-02DF-469B-B85A-C9616B0A8BC4 Q30489798-9823A140-8DC8-4BB4-8B39-659C77F654AE Q30493108-486EAF0E-3FF5-48D0-8005-6E44C43D4684 Q30497369-570657AD-7281-43B2-959C-2BE03A245D7D Q30497474-2E871653-69A6-4158-8C11-8992E507B9F5 Q30498488-63037DC4-5DB3-45B1-84CB-4E3CEAD3CB23 Q30533990-98B0BD97-EDA1-42D0-A77C-546CE810DE17 Q30538970-F6DEE07F-3A1C-4D82-BB0A-E60D96CA70BE Q30596993-14BBBA4A-B389-4391-8D60-1FE04E9FBFFD Q30647298-816202C6-295D-4173-92FF-044B7A76C8FA Q30647811-E159780D-9542-42C3-B9DF-9FBAF2227F99 Q30651150-68054239-26D2-4D44-8B61-75E2F802050D Q30724599-DF57221C-B658-48DD-BAFD-B0D0D4B5F5E8 Q30840549-792E5685-46D4-424C-8227-0E06CEBDA1AB Q30844184-158F9494-00F9-4CBD-970C-294071319AB2 Q30851262-02E7C963-FAFC-43FF-98F0-0B2452702CB2 Q30855763-CA7B19EF-B706-4938-981D-92FF50BE5E31 Q30884536-5FD0C82C-7734-4B2A-8984-80110E56517A Q33568325-963182BF-BCA6-43DC-9897-C1864A3F915B Q33591650-D711139B-0FD1-41BE-A509-65E3CB5799FB Q33854350-FE5BBA2F-D724-469B-ACE8-A216D332CCC4

P2860

Swimming in circles: motion of bacteria near solid boundaries

http://www.wikidata.org/entity/Q34352954

description

2005 nî lūn-bûn

@nan

2005 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած

@hyw

2005 թվականի հոտեմբերին հրատարակված գիտական հոդված

@hy

2005年の論文

@ja

2005年論文

@yue

2005年論文

@zh-hant

2005年論文

@zh-hk

2005年論文

@zh-mo

2005年論文

@zh-tw

2005年论文

@wuu

name

Swimming in circles: motion of bacteria near solid boundaries

@ast

Swimming in circles: motion of bacteria near solid boundaries

@en

Swimming in circles: motion of bacteria near solid boundaries

@nl

type

label

Swimming in circles: motion of bacteria near solid boundaries

@ast

Swimming in circles: motion of bacteria near solid boundaries

@en

Swimming in circles: motion of bacteria near solid boundaries

@nl

prefLabel

Swimming in circles: motion of bacteria near solid boundaries

@ast

Swimming in circles: motion of bacteria near solid boundaries

@en

Swimming in circles: motion of bacteria near solid boundaries

@nl

P1433

Q34352954-C59A22AE-86E3-4387-808C-15165167573D

P1476

Q34352954-70179604-F39B-4D34-A542-1E80CE4D388F

P2093

Q34352954-C0457FFE-5192-4E86-A47F-DCBFDFDE41F4

Q34352954-C9774BAA-15B4-401C-9DE6-B103467CC104

Q34352954-FA14DC7B-16D5-4094-B787-1620652FD5A5

P2860

Q34352954-1FA56F78-6FC1-4494-B489-CBB7B0989102

Q34352954-35C785D1-396A-4E20-9DEA-2FFDE24F5F12

Q34352954-49F8141D-E806-4444-A1FB-B68DDB6BF603

Q34352954-4B5D9E1B-646F-4F3B-A732-1E56BA6DEB22

Q34352954-674FA460-D5E7-487D-8330-45C71DA96DB5

Q34352954-6DE74BF2-6B39-4B38-8AB0-BF654476449C

Q34352954-76519241-898E-4FD3-95DE-FF4AC90BA332

Q34352954-7B25839F-81A1-421D-8A10-0F32586EEE50

Q34352954-956E7D61-42CE-4CED-B358-1AC305F6857F

Q34352954-97A6A919-9C0A-42A3-99B7-269A2E8F2166

P304

Q34352954-8E0ACDDD-1007-4C5F-9644-D6B00E1C9D7D

P31

Q34352954-834B4468-7817-4ACE-8080-182B8BE831DE

P356

Q34352954-B11AF704-F567-493B-95D4-CAE1BD02873C

P407

Q34352954-37AE0518-5DD5-4056-A3A4-6E443A00A6E0

P433

Q34352954-AA9812EC-5D56-45A9-8C25-3EDE4D4E5B54

P478

Q34352954-B6F62254-4EC3-4EFE-BD73-45C95E2140CB

P50

Q34352954-65DD4964-8311-4233-A38D-B5584C18654D

P577

Q34352954-7B1E58D5-4371-43B8-BCCE-441DAF287787

P5875

Q34352954-9A762AC7-A8AB-4662-8F71-B83006ECF7B3

P698

Q34352954-A019D78F-3E34-4B50-A083-DABE235839B3

P818

Q34352954-A3E90012-BCA2-4BA4-993E-B2E6B301C216

P932

Q34352954-16F40688-961C-44A3-8C12-ED60201822EC

P356

BIOPHYSJ.105.069401

P1433

Biophysical Journal

P1476

Swimming in circles: motion of bacteria near solid boundaries

@en

P2093

George M Whitesides

http://www.w3.org/2001/XMLSchema#string

Howard A Stone

http://www.w3.org/2001/XMLSchema#string

Willow R DiLuzio

http://www.w3.org/2001/XMLSchema#string

P2860

Bacterial flagella rotating in bundles: a study in helical geometry

Chemotaxis in Escherichia coli analysed by three-dimensional tracking

Reversible and irreversible adhesion of motile Escherichia coli cells analyzed by total internal reflection aqueous fluorescence microscopy.

Interactions between motile Escherichia coli and glass in media with various ionic strengths, as observed with a three-dimensional-tracking microscope.

Three-dimensional tracking of motile bacteria near a solid planar surface.

Bacterial swimming speed and rotation rate of bundled flagella.

Real-time imaging of fluorescent flagellar filaments.

Chemotaxis of bacteria in glass capillary arrays. Escherichia coli, motility, microchannel plate, and light scattering

Motility and chemotaxis of filamentous cells of Escherichia coli

The role of hydrodynamic interaction in the locomotion of microorganisms.

P304

400-412

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1529/BIOPHYSJ.105.069401

http://www.w3.org/2001/XMLSchema#string

P407

P433

2

http://www.w3.org/2001/XMLSchema#string

P478

90

http://www.w3.org/2001/XMLSchema#string

P50

P577

2005-10-20T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

7527839

http://www.w3.org/2001/XMLSchema#string

P698

16239332

http://www.w3.org/2001/XMLSchema#string

P818

cond-mat/0506675

http://www.w3.org/2001/XMLSchema#string

P932

1367047

http://www.w3.org/2001/XMLSchema#string