Physical properties of Escherichia coli P pili measured by optical tweezers
about
Observation of bacterial type I pili extension and contraction under fluid flowYielding elastic tethers stabilize robust cell adhesionForce per cross-sectional area from molecules to muscles: a general property of biological motors.Uncoiling mechanics of Escherichia coli type I fimbriae are optimized for catch bondsIsopeptide bonds block the mechanical extension of pili in pathogenic Streptococcus pyogenesVisco-elastic membrane tethers extracted from Escherichia coli by optical tweezers.Structural and mechanical properties of Klebsiella pneumoniae type 3 FimbriaeP-fimbriae in the presence of anti-PapA antibodies: new insight of antibodies action against pathogensThe influence of pH on the specific adhesion of P piliated Escherichia coliNanoscale characterization and determination of adhesion forces of Pseudomonas aeruginosa pili by using atomic force microscopy.A sticky chain model of the elongation and unfolding of Escherichia coli P pili under stressGrowth kinetics of bacterial pili from pairwise pilin association rates.Type IV pili interactions promote intercellular association and moderate swarming of Pseudomonas aeruginosa.Structure and function of enterotoxigenic Escherichia coli fimbriae from differing assembly pathwaysDynamic force spectroscopy of E. coli P pili.The mechanical properties of E. coli type 1 pili measured by atomic force microscopy techniques.Stability and instability for low refractive-index-contrast particle trapping in a dual-beam optical trap.Characterizing pilus-mediated adhesion of biofilm-forming E. coli to chemically diverse surfaces using atomic force microscopyHelicobacter pylori adhesion to carbohydrates.Optical tweezers for single cellsCatch-bond mechanism of force-enhanced adhesion: counterintuitive, elusive, but ... widespread?Impairment of the biomechanical compliance of P pili: a novel means of inhibiting uropathogenic bacterial infections?The elementary events underlying force generation in neuronal lamellipodia.The unfolding of the P pili quaternary structure by stretching is reversible, not plastic.Molecular mechanism of bacterial type 1 and P pili assembly.Functional characterization of a mucus-specific LPXTG surface adhesin from probiotic Lactobacillus rhamnosus GG.The biomechanical properties of E. coli pili for urinary tract attachment reflect the host environment.Catch-bond behavior of bacteria binding by slip bonds.Pilicides regulate pili expression in E. coli without affecting the functional properties of the pilus rod.The Cryoelectron Microscopy Structure of the Type 1 Chaperone-Usher Pilus Rod.Optical fiber-based force transducer for microscale samples.Helix-like biopolymers can act as dampers of force for bacteria in flows.Fast uncoiling kinetics of F1C pili expressed by uropathogenic Escherichia coli are revealed on a single pilus level using force-measuring optical tweezers.Multipili attachment of bacteria with helixlike pili exposed to stress.Pilicides-small molecules targeting bacterial virulence.The Role of Glycans in Bacterial Adhesion to Mucosal Surfaces: How Can Single-Molecule Techniques Advance Our Understanding?
P2860
Q27316609-2ADA1346-C5CF-4ECE-80C4-470D3DDB19D1Q27320178-425A9FB6-5EBA-4416-8026-B82BC3250CC6Q27333872-E50F5D26-7EC5-461F-A02F-D9FB257A27E5Q27335234-A21535DE-4FE9-4F1F-9905-79AB12A3BF6CQ28272641-DAEA1257-8026-4D73-8009-E7DDB167ADE5Q30480698-B1104BDA-31F9-4F6C-87F2-213043E2C696Q30499242-62C9A88D-FE4C-42D4-BB2C-038645F0A465Q30558351-950ED21C-7DEF-4A3B-AB12-D95D81FC9F94Q34297135-D501DAB3-CC8C-4879-ACD8-7B2CF5AE187FQ34303316-8080FE8F-5856-4742-AC27-E2E8F6D34FC4Q34354221-9AA6565C-B133-4447-8C41-02BAFCC97B0CQ34717996-501A2DCD-E929-452F-89A1-430E01BDED36Q34753204-6DE29D58-5F8B-485A-8BCA-000B2921A0AAQ34767712-3FE2CA97-C22F-413C-B9AA-4FB0537916E5Q35021402-5783E30A-875B-4B92-B2C5-1F09BBB5868EQ35121353-F1620B57-87E2-46B4-BDAB-DA672A40C9B4Q35822437-FF07E2DA-5CC8-4B4C-9237-FD8D601A9DB3Q36664372-BB1142A9-62D3-4CF5-929D-9421F787A1E7Q36667142-81600F1D-3C62-454C-85C6-3B1460A12A5BQ37125303-26D0B6D7-5D74-4940-B775-0F58FBBEF66AQ37293577-CD7B1546-244B-4A00-9412-764D2C4EAE66Q39665383-700EA354-301B-4AD3-97EE-A3F887E30872Q39871695-8BF9678E-BE04-40D9-8B58-5683C3ECC946Q40107896-287C9974-705C-4A71-9728-CBB8FFF5C969Q41520121-EC33BEC0-F7F4-4259-8292-6D8349D1352FQ42048173-8B93DC00-0900-4744-BE99-43745D7F3E38Q42123792-4A74EA4C-83F7-413D-8C84-61218658070AQ42433978-1677D14F-6D87-45C2-8E6D-6BF56675F0E7Q44847796-A44FB1C3-40BD-49B3-B18E-C13D795C625DQ47138670-11561E48-6FC4-4662-8CCF-419873FBF680Q51146141-E2E146F4-11E2-40D0-A037-D685BD9D0F56Q54337105-593CE4FD-9C37-4D1D-810F-6014F96B40A8Q54373991-B797676E-5CD8-4407-B6F1-673906FD0DB1Q54402714-D2CB74BE-C4BB-47A1-955F-C4175919FA26Q54440212-C4BD15F3-0FC2-47C1-8D05-1D6752B44002Q56888631-8D983539-080A-4B2F-908A-F69775CA7E01
P2860
Physical properties of Escherichia coli P pili measured by optical tweezers
description
2004 nî lūn-bûn
@nan
2004 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Physical properties of Escherichia coli P pili measured by optical tweezers
@ast
Physical properties of Escherichia coli P pili measured by optical tweezers
@en
type
label
Physical properties of Escherichia coli P pili measured by optical tweezers
@ast
Physical properties of Escherichia coli P pili measured by optical tweezers
@en
prefLabel
Physical properties of Escherichia coli P pili measured by optical tweezers
@ast
Physical properties of Escherichia coli P pili measured by optical tweezers
@en
P2093
P2860
P50
P1433
P1476
Physical properties of Escherichia coli P pili measured by optical tweezers
@en
P2093
Erik Fällman
Jörgen Ohlsson
P2860
P304
P356
10.1529/BIOPHYSJ.104.044867
P407
P577
2004-09-17T00:00:00Z