scholarly article | Q13442814 |
P50 | author | Mercedes Hernando Pérez | Q82845711 |
Yves Brun | Q29829857 | ||
Cecile Berne | Q48120653 | ||
P2093 | author name string | Bogdan Dragnea | |
Sima Setayeshgar | |||
Yifeng Hou | |||
Roger Temam | |||
P2860 | cites work | Nanoscale mapping and functional analysis of individual adhesins on living bacteria | Q57369654 |
Role of ionic strength on the relationship of biopolymer conformation, DLVO contributions, and steric interactions to bioadhesion of Pseudomonas putida KT2442 | Q73659847 | ||
Hertz beyond belief | Q87485481 | ||
Quantifying the forces guiding microbial cell adhesion using single-cell force spectroscopy | Q87658351 | ||
A bacterial extracellular DNA inhibits settling of motile progeny cells within a biofilm | Q22065688 | ||
BIOLOGICAL PROPERTIES AND CLASSIFICATION OF THE CAULOBACTER GROUP | Q24562640 | ||
Adhesins Involved in Attachment to Abiotic Surfaces by Gram-Negative Bacteria | Q26782609 | ||
Short-Stalked Prosthecomicrobium hirschii Cells Have a Caulobacter-Like Cell Cycle. | Q27321731 | ||
Recent approaches in designing bioadhesive materials inspired by mussel adhesive protein | Q28074009 | ||
A reversible wet/dry adhesive inspired by mussels and geckos | Q28236935 | ||
Relating the physical properties of Pseudomonas aeruginosa lipopolysaccharides to virulence by atomic force microscopy. | Q30430880 | ||
Adhesion of single bacterial cells in the micronewton range | Q30477246 | ||
A localized multimeric anchor attaches the Caulobacter holdfast to the cell pole | Q30495636 | ||
Atomic force microscopy detects differences in the surface brush of normal and cancerous cells | Q30499745 | ||
Heterogeneity in bacterial surface polysaccharides, probed on a single-molecule basis | Q30711606 | ||
Determination of elastic moduli of thin layers of soft material using the atomic force microscope | Q30833023 | ||
Nanoscale investigation of pathogenic microbial adhesion to a biomaterial | Q33207644 | ||
Detection and localization of single molecular recognition events using atomic force microscopy | Q33240545 | ||
Absolute quantitation of bacterial biofilm adhesion and viscoelasticity by microbead force spectroscopy | Q33427247 | ||
The elastic properties of the caulobacter crescentus adhesive holdfast are dependent on oligomers of N-acetylglucosamine | Q33553151 | ||
Molecular interactions and inhibition of the staphylococcal biofilm-forming protein SdrC | Q33556800 | ||
Studies of Freshwater Bacteria: II. Stalked Bacteria, a New Order of Schizomycetes. | Q33702639 | ||
Evolutionary adaptations of biofilms infecting cystic fibrosis lungs promote mechanical toughness by adjusting polysaccharide production. | Q33731316 | ||
If cell mechanics can be described by elastic modulus: study of different models and probes used in indentation experiments | Q34031125 | ||
Fluctuation analysis of Caulobacter crescentus adhesion | Q34418862 | ||
Holdfast spreading and thickening during Caulobacter crescentus attachment to surfaces | Q34777338 | ||
A nutrient uptake role for bacterial cell envelope extensions | Q34984558 | ||
Binding forces of Streptococcus mutans P1 adhesin. | Q35206438 | ||
Mussel-Inspired Adhesives and Coatings. | Q35513358 | ||
Atomic force microscopy in biomaterials surface science | Q35530049 | ||
Active biological materials | Q35609809 | ||
Staphylococcus aureus Fibronectin-Binding Protein A Mediates Cell-Cell Adhesion through Low-Affinity Homophilic Bonds | Q35660171 | ||
Quantitative nanoscale electrostatics of viruses | Q35728622 | ||
Atomic force and super-resolution microscopy support a role for LapA as a cell-surface biofilm adhesin of Pseudomonas fluorescens | Q36456576 | ||
In Situ probing of newly synthesized peptidoglycan in live bacteria with fluorescent D-amino acids | Q36660084 | ||
Interrogation of single synthetic polymer chains and polysaccharides by AFM-based force spectroscopy | Q36936996 | ||
Characterization of the Caulobacter crescentus holdfast polysaccharide biosynthesis pathway reveals significant redundancy in the initiating glycosyltransferase and polymerase steps. | Q36966958 | ||
Single-cell and single-molecule analysis deciphers the localization, adhesion, and mechanics of the biofilm adhesin LapA. | Q37060114 | ||
Single-molecule analysis of Pseudomonas fluorescens footprints. | Q37074166 | ||
Single-cell force spectroscopy | Q37168816 | ||
Physiochemical properties of Caulobacter crescentus holdfast: a localized bacterial adhesive | Q37588010 | ||
Staying sticky: contact self-cleaning of gecko-inspired adhesives | Q37680457 | ||
Stretching single polysaccharides and proteins using atomic force microscopy | Q37983739 | ||
Nanomechanical properties of single amyloid fibrils | Q38010103 | ||
Method for quantitative measurements of the elastic modulus of biological cells in AFM indentation experiments | Q38103733 | ||
Investigating cell mechanics with atomic force microscopy | Q38318750 | ||
Sticky microbes: forces in microbial cell adhesion | Q38356599 | ||
A Rhizobiales-Specific Unipolar Polysaccharide Adhesin Contributes to Rhodopseudomonas palustris Biofilm Formation across Diverse Photoheterotrophic Conditions. | Q38781670 | ||
Amyloid Structures as Biofilm Matrix Scaffolds | Q38836013 | ||
Optical and force nanoscopy in microbiology | Q38990962 | ||
Scaling down for a broader understanding of underwater adhesives - a case for the Caulobacter crescentus holdfast | Q38998262 | ||
Imaging modes of atomic force microscopy for application in molecular and cell biology. | Q39223922 | ||
Mussel-mimetic protein-based adhesive hydrogel | Q39226837 | ||
Atomic force microscopy studies of bioprocess engineering surfaces - imaging, interactions and mechanical properties mediating bacterial adhesion | Q39295302 | ||
Surface viscoelasticity of individual gram-negative bacterial cells measured using atomic force microscopy | Q39758948 | ||
Characterization of the adhesive holdfast of marine and freshwater caulobacters | Q39920286 | ||
Attachment of the adhesive holdfast organelle to the cellular stalk of Caulobacter crescentus | Q39944239 | ||
Sticky Matrix: Adhesion Mechanism of the Staphylococcal Polysaccharide Intercellular Adhesin | Q40780209 | ||
Interpreting atomic force microscopy nanoindentation of hierarchical biological materials using multi-regime analysis. | Q41609360 | ||
Fibrinogen Activates the Capture of Human Plasminogen by Staphylococcal Fibronectin-Binding Proteins | Q41622673 | ||
In situ characterization of differences in the viscoelastic response of individual gram-negative and gram-positive bacterial cells. | Q41954043 | ||
Atomic force microscopy study of the role of LPS O-antigen on adhesion of E. coli. | Q46032572 | ||
Protective coatings on extensible biofibres | Q46317050 | ||
Force-Induced Strengthening of the Interaction between Staphylococcus aureus Clumping Factor B and Loricrin | Q47126939 | ||
Mapping in vitro local material properties of intact and disrupted virions at high resolution using multi-harmonic atomic force microscopy. | Q51061628 | ||
WSXM: a software for scanning probe microscopy and a tool for nanotechnology. | Q53481540 | ||
Transition from reversible to irreversible attachment during biofilm formation by Pseudomonas fluorescens WCS365 requires an ABC transporter and a large secreted protein | Q57340400 | ||
P433 | issue | 1 | |
P577 | publication date | 2018-02-06 | |
P1433 | published in | mBio | Q15817061 |
P1476 | title | Layered Structure and Complex Mechanochemistry Underlie Strength and Versatility in a Bacterial Adhesive | |
P478 | volume | 9 |
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Q64448240 | Bacterial mechanosensing: the force will be with you, always |
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Q64448225 | The role of cell surface structures in colonization of the air-liquid interface |
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