Topics
pHAircraft
cysteineChemical substance
leucine zipperProtein
covalent bondAlbum
multiangle light scatteringTopical concept
anisotropicBuilding
We present a strategy to stabilize artificial protein hydrogels through covalent bond formation following physical association of terminal leucine zipper domains. Artificial proteins consisting of two terminal leucine zipper domains and a random coil central domain form transient networks above a certain concentration, but the networks dissolve when placed in excess buffer. Engineering of a cysteine residue into each leucine zipper domain allows formation of disulfide bonds templated by leucine zipper aggregation. Circular dichroism spectra show that the zipper domains remain helical after cysteine residues and disulfide bonds are introduced. Asymmetric placement of the cysteine residues in the leucine zipper domains suppresses intramolecul...
Recombinant DNA methods were used to create artificial proteins that undergo reversible gelation in ...
Cells assemble dynamic protein-based nanostructures far from equilibrium, such as microtubules, in a...
We designed and produced an asymmetric collagen-inspired telechelic protein polymer with end blocks ...
We present a strategy to stabilize artificial protein hydrogels through covalent bond formation foll...
Techniques of genetic engineering have recently allowed for the synthesis of artificial, multidomain...
Artificial protein hydrogels made from a triblock protein (designated AC10A, where A is an acidic zi...
Artificial protein hydrogels made from a triblock protein (designated AC10A, where A is an acidic zi...
Network relaxation dynamics of hydrogels formed from a genetically engineered multidomain protein (A...
Network relaxation dynamics of hydrogels formed from a genetically engineered multidomain protein (A...
Small-angle X-ray scattering (SAXS) and circular dichroism (CD) were used to study the structure of ...
Small-angle X-ray scattering (SAXS) and circular dichroism (CD) were used to study the structure of ...
Recombinant DNA methods were used to create a new class of artificial proteins that undergo reversib...
Recombinant DNA methods were used to create a new class of artificial proteins that undergo reversib...
Hydrogels are of interest to the biomedical field because the hydrated networks can provide a physio...
Recombinant DNA methods were used to create artificial proteins that undergo reversible gelation in ...
Recombinant DNA methods were used to create artificial proteins that undergo reversible gelation in ...
Cells assemble dynamic protein-based nanostructures far from equilibrium, such as microtubules, in a...
We designed and produced an asymmetric collagen-inspired telechelic protein polymer with end blocks ...
We present a strategy to stabilize artificial protein hydrogels through covalent bond formation foll...
Techniques of genetic engineering have recently allowed for the synthesis of artificial, multidomain...
Artificial protein hydrogels made from a triblock protein (designated AC10A, where A is an acidic zi...
Artificial protein hydrogels made from a triblock protein (designated AC10A, where A is an acidic zi...
Network relaxation dynamics of hydrogels formed from a genetically engineered multidomain protein (A...
Network relaxation dynamics of hydrogels formed from a genetically engineered multidomain protein (A...
Small-angle X-ray scattering (SAXS) and circular dichroism (CD) were used to study the structure of ...
Small-angle X-ray scattering (SAXS) and circular dichroism (CD) were used to study the structure of ...
Recombinant DNA methods were used to create a new class of artificial proteins that undergo reversib...
Recombinant DNA methods were used to create a new class of artificial proteins that undergo reversib...
Hydrogels are of interest to the biomedical field because the hydrated networks can provide a physio...
Recombinant DNA methods were used to create artificial proteins that undergo reversible gelation in ...
Recombinant DNA methods were used to create artificial proteins that undergo reversible gelation in ...
Cells assemble dynamic protein-based nanostructures far from equilibrium, such as microtubules, in a...
We designed and produced an asymmetric collagen-inspired telechelic protein polymer with end blocks ...
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