Add to ORKGWe have used GRATH, a graph-based structure comparison algorithm, to map the similarities between the different folds observed in the CATH domain structure database. Statistical analysis of the distributions of the fold similarities has allowed us to assess the significance for any similarity. Therefore we have examined whether it is best to represent folds as discrete entities or whether, in fact, a more accurate model would be a continuum wherein folds overlap via common motifs. To do this we have introduced a new statistical measure of fold similarity, termed gregariousness. For a particular fold, gregariousness measures how many other folds have a significant structural overlap with that fold, typically comprising 40% or more of the lar...
Several protein structure classification schemes exist that partition the protein universe into stru...
The Fragnostic (http://ffas.burnham.org/Fragnostic) web tool implements a novel and useful view of p...
AbstractProtein structure comparison by pairwise alignment is commonly used to identify highly simil...
This paper reports a graph-theoretic program, GRATH, that rapidly, and accurately, matches a novel s...
This paper reports a graph-theoretic program, GRATH, that rapidly, and accurately, matches a novel s...
This paper explores the structural continuum in CATH and the extent to which superfamilies adopt dis...
This paper explores the structural continuum in CATH and the extent to which superfamilies adopt dis...
SummaryThis paper explores the structural continuum in CATH and the extent to which superfamilies ad...
Understanding how protein structures evolve is essential for deciphering relationships between homol...
SummaryThe quest to order and classify protein structures has lead to various classification schemes...
Current classification of protein folds are based, ultimately, on visual inspection of similarities....
<div><p>Several protein structure classification schemes exist that partition the protein universe i...
Many protein classification systems capture homologous relationships by grouping domains into famili...
By constructing the fold similarity network (FSN), we present an alternative approach to the charact...
Many protein classification systems capture homologous relationships by grouping domains into famili...
Several protein structure classification schemes exist that partition the protein universe into stru...
The Fragnostic (http://ffas.burnham.org/Fragnostic) web tool implements a novel and useful view of p...
AbstractProtein structure comparison by pairwise alignment is commonly used to identify highly simil...
This paper reports a graph-theoretic program, GRATH, that rapidly, and accurately, matches a novel s...
This paper reports a graph-theoretic program, GRATH, that rapidly, and accurately, matches a novel s...
This paper explores the structural continuum in CATH and the extent to which superfamilies adopt dis...
This paper explores the structural continuum in CATH and the extent to which superfamilies adopt dis...
SummaryThis paper explores the structural continuum in CATH and the extent to which superfamilies ad...
Understanding how protein structures evolve is essential for deciphering relationships between homol...
SummaryThe quest to order and classify protein structures has lead to various classification schemes...
Current classification of protein folds are based, ultimately, on visual inspection of similarities....
<div><p>Several protein structure classification schemes exist that partition the protein universe i...
Many protein classification systems capture homologous relationships by grouping domains into famili...
By constructing the fold similarity network (FSN), we present an alternative approach to the charact...
Many protein classification systems capture homologous relationships by grouping domains into famili...
Several protein structure classification schemes exist that partition the protein universe into stru...
The Fragnostic (http://ffas.burnham.org/Fragnostic) web tool implements a novel and useful view of p...
AbstractProtein structure comparison by pairwise alignment is commonly used to identify highly simil...