Add to ORKGDragline silk from orb-weaving spiders is a copolymer of two large proteins, major ampullate spidroin 1 (MaSp1) and 2 (MaSp2). The ratio of these proteins is known to have a large variation across different species of orb-weaving spiders. NMR results from gland material of two different species of spiders, N. clavipes and A. aurantia, indicates that MaSp1 proteins are more easily formed into β-sheet nanostructures, while MaSp2 proteins form random coil and helical structures. To test if this behavior of natural silk proteins could be reproduced by recombinantly produced spider silk mimic protein, recombinant MaSp1/MaSp2 mixed fibers as well as chimeric silk fibers from MaSp1 and MaSp2 sequences in a single protein were produced based on the...
Spider silks are desirable biomaterials characterized by high tensile strength, elasticity, and bioc...
Spider silks are desirable biomaterials characterized by high tensile strength, elasticity, and bioc...
Variability in spider major ampullate (MA) silk properties at different scales has proven difficult ...
Dragline silk from orb-weaving spiders is a copolymer of two large proteins, major ampullate spidroi...
The exceptional strength and extensibility of spider dragline silk have been thought to be facilitat...
The exceptional strength and extensibility of spider dragline silk have been thought to be facilitat...
As a promising biomaterial with numerous potential applications, various types of synthetic spider s...
Due to certain characteristics of spider silk, such as high elasticity and tensile strength, researc...
The two Flag/MaSp 2 silk proteins produced recombinantly were based on the basic consensus repeat of...
All characterized major ampullate silks from orb-web weaving spiders are composites of primarily two...
Spider silks are biological protein polymers which are spun into fibers with an incredibly diverse r...
Spider silk is known for its extraordinary material properties, being both very strong and extensibl...
Molecular and material properties of major ampullate silk were studied for the cobweb-building black...
The properties of native spider silk vary within and across species due to the presence of different...
Spider dragline silk exhibits an extraordinary toughness and is typically composed of two types of m...
Spider silks are desirable biomaterials characterized by high tensile strength, elasticity, and bioc...
Spider silks are desirable biomaterials characterized by high tensile strength, elasticity, and bioc...
Variability in spider major ampullate (MA) silk properties at different scales has proven difficult ...
Dragline silk from orb-weaving spiders is a copolymer of two large proteins, major ampullate spidroi...
The exceptional strength and extensibility of spider dragline silk have been thought to be facilitat...
The exceptional strength and extensibility of spider dragline silk have been thought to be facilitat...
As a promising biomaterial with numerous potential applications, various types of synthetic spider s...
Due to certain characteristics of spider silk, such as high elasticity and tensile strength, researc...
The two Flag/MaSp 2 silk proteins produced recombinantly were based on the basic consensus repeat of...
All characterized major ampullate silks from orb-web weaving spiders are composites of primarily two...
Spider silks are biological protein polymers which are spun into fibers with an incredibly diverse r...
Spider silk is known for its extraordinary material properties, being both very strong and extensibl...
Molecular and material properties of major ampullate silk were studied for the cobweb-building black...
The properties of native spider silk vary within and across species due to the presence of different...
Spider dragline silk exhibits an extraordinary toughness and is typically composed of two types of m...
Spider silks are desirable biomaterials characterized by high tensile strength, elasticity, and bioc...
Spider silks are desirable biomaterials characterized by high tensile strength, elasticity, and bioc...
Variability in spider major ampullate (MA) silk properties at different scales has proven difficult ...