Unraveling functional and ancestral relationships between proteins as well as structure prediction procedures require powerful protein alignment methods. This paper describes the use of fuzzy alignments when matching protein structures. The method use mean-field annealing optimization of fuzzy alignment variables, based on a cost expressed in terms of distances between aligned atoms and of gaps. The approach performs well when compared to other methods, requires modest CPU consumption, and is robust with respect to choice of iteration parameters for a wide range of proteins
Abstract: The Protein Structure Alignment Problem (PSAP) consists in finding the best alig...
Conventionally, protein structure prediction via "threading" relies on some non-optimal me...
The three-dimensional structure of a protein molecule provides significant insight into its biologic...
Abstract:- Unraveling functional and ancestral relationships between proteins as well as structure p...
A novel approach for structure alignment is presented, where the key ingredients are: (1) An error f...
The availability of three-dimensional spatial information about protein structures is expanding, as ...
Motivation: Protein structure alignment is one of the most important computational problems in molec...
Protein structure alignment is an important tool for studying evolutionary biology and protein model...
This paper proposes new algorithms for protein structure alignment. Protein structure alignment is, ...
The importance of pairwise protein structural comparison in biomedical research is fueling the searc...
Protein structure alignment is an important tool for studying evolutionary biology and protein model...
Proteins are complex biological molecules that perform a vast array of functions crucial to life. A ...
Abstract. This paper proposes a parameterized algorithm for aligning two protein structures, in the ...
Conventionally, protein structure prediction via threading relies on some nonoptimal method to align...
Structural biologists will perform a significant portion of their future work in silico due to incre...
Abstract: The Protein Structure Alignment Problem (PSAP) consists in finding the best alig...
Conventionally, protein structure prediction via "threading" relies on some non-optimal me...
The three-dimensional structure of a protein molecule provides significant insight into its biologic...
Abstract:- Unraveling functional and ancestral relationships between proteins as well as structure p...
A novel approach for structure alignment is presented, where the key ingredients are: (1) An error f...
The availability of three-dimensional spatial information about protein structures is expanding, as ...
Motivation: Protein structure alignment is one of the most important computational problems in molec...
Protein structure alignment is an important tool for studying evolutionary biology and protein model...
This paper proposes new algorithms for protein structure alignment. Protein structure alignment is, ...
The importance of pairwise protein structural comparison in biomedical research is fueling the searc...
Protein structure alignment is an important tool for studying evolutionary biology and protein model...
Proteins are complex biological molecules that perform a vast array of functions crucial to life. A ...
Abstract. This paper proposes a parameterized algorithm for aligning two protein structures, in the ...
Conventionally, protein structure prediction via threading relies on some nonoptimal method to align...
Structural biologists will perform a significant portion of their future work in silico due to incre...
Abstract: The Protein Structure Alignment Problem (PSAP) consists in finding the best alig...
Conventionally, protein structure prediction via "threading" relies on some non-optimal me...
The three-dimensional structure of a protein molecule provides significant insight into its biologic...