Add to ORKGHydrophobins, highly surface-active proteins, have the ability to reverse surface hydrophobicity through selfassembly at the hydrophilic-hydrophobic interfaces. Their unique structure and interfacial activity lead hydrophobins to have potential applications on surface functional modifications. However, class I hydrophobins are prone to self-assemble into highly insoluble amyloid-like rodlets structure. Recombinant hydrophobins could be produced by Escherichia coli but generally as an insoluble inclusion body. To overcome this insoluble expression limitation, cellulose-binding domain (CBD) from Clostridium hermocellum was fused to the N-terminal of class I hydrophobin HGFI to enhance its soluble expression in E. coli. Approximately, 94% of...
Hydrophobins are proteins exclusively produced by filamentous fungi. They self-assemble at hydrophil...
Hydrophobins are surface-active proteins produced by filamentous fungi, where they seem to be ubiqui...
Hydrophobins are surface-active proteins produced by filamentous fungi, where they seem to be ubiqui...
The physiochemical nature of surfaces can be changed by small proteins which are secreted by filamen...
A particular class of amphiphilic proteins, the hydrophobins (HPBs), have been described as the most...
A particular class of amphiphilic proteins, the hydrophobins (HPBs), have been described as the most...
The physiochemical nature of surfaces can be changed by small proteins which are secreted by filamen...
Small secreted proteins called hydrophobins play diverse roles in the life cycle of filamentous fung...
Hydrophobins are small (ca. 100 amino acids) secreted fungal proteins that are characterized by the ...
Hydrophobins are a unique class of proteins which grow in fungi which demonstrate unique properties...
Class I hydrophobins have the ability to form amyloid-like rodlets upon exposure to an air-water int...
Class I hydrophobins have the ability to form amyloid-like rodlets upon exposure to an air-water int...
Hydrophobins are proteins exclusively produced by filamentous fungi. They self-assemble at hydrophil...
Hydrophobins are proteins exclusively produced by filamentous fungi. They self-assemble at hydrophil...
Hydrophobins are proteins exclusively produced by filamentous fungi. They self-assemble at hydrophil...
Hydrophobins are proteins exclusively produced by filamentous fungi. They self-assemble at hydrophil...
Hydrophobins are surface-active proteins produced by filamentous fungi, where they seem to be ubiqui...
Hydrophobins are surface-active proteins produced by filamentous fungi, where they seem to be ubiqui...
The physiochemical nature of surfaces can be changed by small proteins which are secreted by filamen...
A particular class of amphiphilic proteins, the hydrophobins (HPBs), have been described as the most...
A particular class of amphiphilic proteins, the hydrophobins (HPBs), have been described as the most...
The physiochemical nature of surfaces can be changed by small proteins which are secreted by filamen...
Small secreted proteins called hydrophobins play diverse roles in the life cycle of filamentous fung...
Hydrophobins are small (ca. 100 amino acids) secreted fungal proteins that are characterized by the ...
Hydrophobins are a unique class of proteins which grow in fungi which demonstrate unique properties...
Class I hydrophobins have the ability to form amyloid-like rodlets upon exposure to an air-water int...
Class I hydrophobins have the ability to form amyloid-like rodlets upon exposure to an air-water int...
Hydrophobins are proteins exclusively produced by filamentous fungi. They self-assemble at hydrophil...
Hydrophobins are proteins exclusively produced by filamentous fungi. They self-assemble at hydrophil...
Hydrophobins are proteins exclusively produced by filamentous fungi. They self-assemble at hydrophil...
Hydrophobins are proteins exclusively produced by filamentous fungi. They self-assemble at hydrophil...
Hydrophobins are surface-active proteins produced by filamentous fungi, where they seem to be ubiqui...
Hydrophobins are surface-active proteins produced by filamentous fungi, where they seem to be ubiqui...