Add to ORKGThe cystatins were the first amyloidogenic proteins to be shown to oligo-merize through a 3D domain swapping mechanism. Here we show that, under conditions leading to the formation of amyloid deposits, the domain-swapped dimer of chicken cystatin further oligomerizes to a tetramer, prior to fibrillization. The tetramer has a very similar circular dichroism and fluorescence signature to the folded monomer and dimer structures, but exhibits some loss of dispersion in the 1H-NMR spectrum. 8-Anilino-1-naphthalene sulfonate fluorescence enhancement indicates an increase in the degree of disorder. While the dimerization reaction is bimolecular and most likely limited by the availability of a predominantly unfolded form of the monomer, the tetrame...
Three dimensional domain swapping is one of the mechanisms involved in formation of insoluble aggreg...
Human L68Q cystatin C is one of the known human amyloidogenic proteins. In its native state it is a ...
Human cystatin C (HCC) inhibits papain-like cysteine proteases by a binding epitope composed of two ...
Cystatin C and the prion protein have been shown to form dimers via three-dimensional domain swappin...
The crystal structure of human cystatin C, a protein with amyloidogenic properties and a potent inhi...
It has been hypothesized that prior to protein domain swapping, unfolding occurs in regions importan...
Amyloidosis is a group of diseases characterized by a change in protein conformation resulting in ag...
Human cystatin C (HCC), an amyloidogenic protein, forms dimers and higher oligomers (trimers, tetram...
Oligomerization of human cystatin C (HCC) leads to amyloid deposits in brain arteries, and this proc...
The pathophysiological process in amyloid disorders usually involves the transformation of a functio...
With the aim to improve our understanding of the structural basis for protein self-association and a...
Cystatins are natural inhibitors of cysteine proteases, enzymes that are widely distributed in anima...
Amyloid formation is a predominant feature of many human diseases including Alzheimers’ disease, Par...
Unlike a number of amyloid-forming proteins, stefins, and in particular stefin B (cystatin B) form a...
Amyloidogenic proteins like cystatin C and prion proteins have been shown to form dimers by exchange...
Three dimensional domain swapping is one of the mechanisms involved in formation of insoluble aggreg...
Human L68Q cystatin C is one of the known human amyloidogenic proteins. In its native state it is a ...
Human cystatin C (HCC) inhibits papain-like cysteine proteases by a binding epitope composed of two ...
Cystatin C and the prion protein have been shown to form dimers via three-dimensional domain swappin...
The crystal structure of human cystatin C, a protein with amyloidogenic properties and a potent inhi...
It has been hypothesized that prior to protein domain swapping, unfolding occurs in regions importan...
Amyloidosis is a group of diseases characterized by a change in protein conformation resulting in ag...
Human cystatin C (HCC), an amyloidogenic protein, forms dimers and higher oligomers (trimers, tetram...
Oligomerization of human cystatin C (HCC) leads to amyloid deposits in brain arteries, and this proc...
The pathophysiological process in amyloid disorders usually involves the transformation of a functio...
With the aim to improve our understanding of the structural basis for protein self-association and a...
Cystatins are natural inhibitors of cysteine proteases, enzymes that are widely distributed in anima...
Amyloid formation is a predominant feature of many human diseases including Alzheimers’ disease, Par...
Unlike a number of amyloid-forming proteins, stefins, and in particular stefin B (cystatin B) form a...
Amyloidogenic proteins like cystatin C and prion proteins have been shown to form dimers by exchange...
Three dimensional domain swapping is one of the mechanisms involved in formation of insoluble aggreg...
Human L68Q cystatin C is one of the known human amyloidogenic proteins. In its native state it is a ...
Human cystatin C (HCC) inhibits papain-like cysteine proteases by a binding epitope composed of two ...