Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substances (EPS), is a crucial step for biofilm formation. Some pathogens can modulate cell adhesiveness, impacting host colonization and virulence. A framework able to quantify cell-surface interaction forces and their dependence on chemical surface composition may unveil adhesiveness control mechanisms as new targets for intervention and disease control. Here we employed InP nanowire arrays to dissect factors involved in the early stage biofilm formation of the phytopathogen Xylella fastidiosa. Ex vivo experiments demonstrate single-cell adhesion forces up to 45 nN, depending on the cell orientation with respect to the surface. Larger adhesion fo...
The development of bacterial biofilms on surfaces leads to hospital-acquired infections that are dif...
The development of bacterial biofilms on surfaces leads to hospital-acquired infections that are dif...
Understanding the fundamental forces involved in the adhesion of microbial cells is important not on...
Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substa...
Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substa...
Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substa...
Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substa...
Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substa...
Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substa...
Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substa...
Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substa...
FAPESP - FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULOCNPQ - CONSELHO NACIONAL DE DESENVOLVIM...
Although bacterial pili are known to mediate cell adhesion to a variety of substrates, the molecular...
A variety of bacterial pathogens use nanoscale protein fibers called type IV pili to mediate cell ad...
The development of bacterial biofilms on surfaces leads to hospital-acquired infections that are dif...
The development of bacterial biofilms on surfaces leads to hospital-acquired infections that are dif...
The development of bacterial biofilms on surfaces leads to hospital-acquired infections that are dif...
Understanding the fundamental forces involved in the adhesion of microbial cells is important not on...
Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substa...
Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substa...
Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substa...
Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substa...
Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substa...
Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substa...
Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substa...
Surface attachment of a planktonic bacteria, mediated by adhesins and extracellular polymeric substa...
FAPESP - FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULOCNPQ - CONSELHO NACIONAL DE DESENVOLVIM...
Although bacterial pili are known to mediate cell adhesion to a variety of substrates, the molecular...
A variety of bacterial pathogens use nanoscale protein fibers called type IV pili to mediate cell ad...
The development of bacterial biofilms on surfaces leads to hospital-acquired infections that are dif...
The development of bacterial biofilms on surfaces leads to hospital-acquired infections that are dif...
The development of bacterial biofilms on surfaces leads to hospital-acquired infections that are dif...
Understanding the fundamental forces involved in the adhesion of microbial cells is important not on...