Add to ORKGUnderstanding the interactions between collagen and adhesive mussel foot proteins (mfps) can lead to improved medical and dental adhesives, particularly for collagen-rich tissues. Here we investigated interactions between collagen type-1, the most abundant load-bearing animal protein, and mussel foot protein-3 (mfp-3) using a quartz crystal microbalance and surface forces apparatus (SFA). Both hydrophilic and hydrophobic variants of mfp-3 were exploited to probe the nature of the interaction between the protein and collagen. Our chief findings are: 1) mfp-3 is an effective chaperone for tropocollagen adsorption to TiO2 and mica surfaces; 2) at pH 3, collagen addition between two mfp-3 films (Wc = 5.4 ± 0.2 mJ/m(2)) increased their cohesion ...
Adhesion represents a key joining technology and nature has been developing adhesives for millions o...
Robust adhesion to wet, salt-encrusted, corroded and slimy surfaces has been an essential adaptation...
The role of friction in the functional performance of biomaterial interfaces is widely reckoned to b...
Understanding the interactions between collagen and adhesive mussel foot proteins (mfps) can lead to...
Adhesive proteins from marine mussels have long been studied for their potential biomedical applicat...
Protective coating of the byssus of mussels (Mytilus sp.) has been suggested as a new paradigm of me...
The adhesion of mussel foot proteins (Mfps) to a variety of specially engineered mineral and metal o...
Mussel foot protein-1 (mfp-1) is an essential constituent of the protective cuticle covering all exp...
Marine organisms process and deliver many of their underwater coatings and adhesives as complex flui...
Adhesive proteins from marine mussels have long been studied for their potential biomedical applicat...
Mussel adhesion to mineral surfaces is widely attributed to 3,4-dihydroxyphenylalanine (Dopa) functi...
Mussel foot protein-1 (mfp-1) is an essential constituent of the protective cuticle covering all exp...
Mussel adhesion to mineral surfaces is widely attributed to 3,4-dihydroxyphenylalanine (Dopa) functi...
Recent works on mussel adhesion have identified a load bearing matrix protein (PTMP1) containing von...
Mussels have a remarkable ability to attach their holdfast, or byssus, opportunistically to a variet...
Adhesion represents a key joining technology and nature has been developing adhesives for millions o...
Robust adhesion to wet, salt-encrusted, corroded and slimy surfaces has been an essential adaptation...
The role of friction in the functional performance of biomaterial interfaces is widely reckoned to b...
Understanding the interactions between collagen and adhesive mussel foot proteins (mfps) can lead to...
Adhesive proteins from marine mussels have long been studied for their potential biomedical applicat...
Protective coating of the byssus of mussels (Mytilus sp.) has been suggested as a new paradigm of me...
The adhesion of mussel foot proteins (Mfps) to a variety of specially engineered mineral and metal o...
Mussel foot protein-1 (mfp-1) is an essential constituent of the protective cuticle covering all exp...
Marine organisms process and deliver many of their underwater coatings and adhesives as complex flui...
Adhesive proteins from marine mussels have long been studied for their potential biomedical applicat...
Mussel adhesion to mineral surfaces is widely attributed to 3,4-dihydroxyphenylalanine (Dopa) functi...
Mussel foot protein-1 (mfp-1) is an essential constituent of the protective cuticle covering all exp...
Mussel adhesion to mineral surfaces is widely attributed to 3,4-dihydroxyphenylalanine (Dopa) functi...
Recent works on mussel adhesion have identified a load bearing matrix protein (PTMP1) containing von...
Mussels have a remarkable ability to attach their holdfast, or byssus, opportunistically to a variet...
Adhesion represents a key joining technology and nature has been developing adhesives for millions o...
Robust adhesion to wet, salt-encrusted, corroded and slimy surfaces has been an essential adaptation...
The role of friction in the functional performance of biomaterial interfaces is widely reckoned to b...