We present two algorithms that use spectral methods to align protein folds. One of the algorithms is suitable for database searches, the other for difficult alignments. We present computational results for 780 pairwise alignments used to classify 40 proteins as well as results for a separate set of 36 protein alignments used for comparison to four other alignment algorithms. We also provide a mathematically rigorous development of the intrinsic geometry underlying our spectral approach
Abstract: The Protein Structure Alignment Problem (PSAP) consists in finding the best alig...
Accurate comparative analysis tools for low-homology proteins remains a difficult challenge in compu...
none4Not availableopenMarti-Renom, Marc A.; Capriotti, Emidio; Shindyalov, Ilya N.; Bourne, Philip E...
Structural genomics aims to experimentally determine nearly all protein folds by 2010, which makes ...
Structural biologists will perform a significant portion of their future work in silico due to incre...
Part of the Bioinformatics Commons, and the Numerical Analysis and Computation Commons This Article ...
The central dogma of molecular biology asserts a one way transfer of information from a cell’s genet...
We address the problem of aligning the 3D structures of two proteins. Our pairwise comparisons are b...
Computational recognition of native-like folds from a protein fold database is considered to be a pr...
Proteins are a primary functional component of organic life, and understanding their function is int...
Comparing protein sequences is an essential procedure that has many applications in the field of bio...
The basic operation in analysis of protein evolution is alignment: the specification of residue-resi...
The alignment of two protein structures is a fundamental problem in structural bioinformatics.Their ...
Background: The chemical property and biological function of a protein is a direct consequence of it...
The availability of three-dimensional spatial information about protein structures is expanding, as ...
Abstract: The Protein Structure Alignment Problem (PSAP) consists in finding the best alig...
Accurate comparative analysis tools for low-homology proteins remains a difficult challenge in compu...
none4Not availableopenMarti-Renom, Marc A.; Capriotti, Emidio; Shindyalov, Ilya N.; Bourne, Philip E...
Structural genomics aims to experimentally determine nearly all protein folds by 2010, which makes ...
Structural biologists will perform a significant portion of their future work in silico due to incre...
Part of the Bioinformatics Commons, and the Numerical Analysis and Computation Commons This Article ...
The central dogma of molecular biology asserts a one way transfer of information from a cell’s genet...
We address the problem of aligning the 3D structures of two proteins. Our pairwise comparisons are b...
Computational recognition of native-like folds from a protein fold database is considered to be a pr...
Proteins are a primary functional component of organic life, and understanding their function is int...
Comparing protein sequences is an essential procedure that has many applications in the field of bio...
The basic operation in analysis of protein evolution is alignment: the specification of residue-resi...
The alignment of two protein structures is a fundamental problem in structural bioinformatics.Their ...
Background: The chemical property and biological function of a protein is a direct consequence of it...
The availability of three-dimensional spatial information about protein structures is expanding, as ...
Abstract: The Protein Structure Alignment Problem (PSAP) consists in finding the best alig...
Accurate comparative analysis tools for low-homology proteins remains a difficult challenge in compu...
none4Not availableopenMarti-Renom, Marc A.; Capriotti, Emidio; Shindyalov, Ilya N.; Bourne, Philip E...