Add to ORKGMicroorganisms can live and proliferate as individual cells swimming freely in the environment, or they can grow as highly organized, multicellular communities encased in a self-produced polymeric matrix in close association with surfaces and interfaces. This microbial lifestyle is referred to as biofilms. The intense search over the last few years for factors involved in biofilm development has revealed that distantly related bacterial species recurrently make use of the same elements to produce biofilms. These common elements include a group of proteins containing GGDEF/EAL domains, surface proteins homologous to Bap of Staphylococcus aureus, and some types of exopolysaccharides, such as cellulose and the poly-β-1,6-N-acetylglucosamine. T...
Microorganisms attach to surfaces and develop biofilms. Biofilm-associated cells can be differentiat...
Abstract Microbial biofouling is a problem of microbial biofilms. Biofouling occurs in very differen...
Since Anton van Leeuwenhoek first observed a surface-associated multicellular structure of bacteria...
Biofilms are formed by microorganisms living together in a hydrated extracellular matrix. Formation ...
Bacteria employ certain basic survival strategies one of which is to form in natural and industrial ...
In nature, bacteria alternate between two modes of growth: a unicellular life phase, in which the ce...
AbstractA biofilm may be defined as a microbially derived, sessile community characterized by cells ...
Biofilms are the aggregation of microbial cells, which are associated with the surface in almost an ...
In 1862 Louis Pasteur introduced the “Germ Theory of Disease.” Subsequently the study of microbiolog...
Biofilms are manifested in nature and the complex surface (bacterial, algal and fungal)require attac...
A hallmark of microbial biofilms is the self-production of an extracellular molecular matrix that en...
In 1862 Louis Pasteur introduced the “Germ Theory of Disease.” Subsequently the study of microbiolog...
A hallmark of microbial biofilms is the self-production of an extracellular molecular matrix that en...
In nature, about 80% of bacteria exist as biofilm communities, and according to the Centers for Dise...
A hallmark of microbial biofilms is the self-production of an extracellular molecular matrix that en...
Microorganisms attach to surfaces and develop biofilms. Biofilm-associated cells can be differentiat...
Abstract Microbial biofouling is a problem of microbial biofilms. Biofouling occurs in very differen...
Since Anton van Leeuwenhoek first observed a surface-associated multicellular structure of bacteria...
Biofilms are formed by microorganisms living together in a hydrated extracellular matrix. Formation ...
Bacteria employ certain basic survival strategies one of which is to form in natural and industrial ...
In nature, bacteria alternate between two modes of growth: a unicellular life phase, in which the ce...
AbstractA biofilm may be defined as a microbially derived, sessile community characterized by cells ...
Biofilms are the aggregation of microbial cells, which are associated with the surface in almost an ...
In 1862 Louis Pasteur introduced the “Germ Theory of Disease.” Subsequently the study of microbiolog...
Biofilms are manifested in nature and the complex surface (bacterial, algal and fungal)require attac...
A hallmark of microbial biofilms is the self-production of an extracellular molecular matrix that en...
In 1862 Louis Pasteur introduced the “Germ Theory of Disease.” Subsequently the study of microbiolog...
A hallmark of microbial biofilms is the self-production of an extracellular molecular matrix that en...
In nature, about 80% of bacteria exist as biofilm communities, and according to the Centers for Dise...
A hallmark of microbial biofilms is the self-production of an extracellular molecular matrix that en...
Microorganisms attach to surfaces and develop biofilms. Biofilm-associated cells can be differentiat...
Abstract Microbial biofouling is a problem of microbial biofilms. Biofouling occurs in very differen...
Since Anton van Leeuwenhoek first observed a surface-associated multicellular structure of bacteria...