Classification of protein structures provides insight into the function and the evolution of proteins. Numerous studies have classified protein structures based on large units called domains, which consist of 150–300-amino-acid residues on average. Most of their results were based on the assumption that the domai
Main goal of classifying proteins into families is to understand structural, functional and evolutio...
AbstractBackground: Protein evolution gives rise to families of structurally related proteins, withi...
Abstract. Proteins are composed of domains, which are conserved evolutionary units that often also c...
Abstract: Protein structure classification by using bioinformatics can involve sequence similarity s...
It is well known that the three-dimensional (3D) structure of a protein is closely related to its fu...
proteins in bite-sized chunks Possibly the ultimate goal of bioinformatics is to be able to predict ...
Background The study of proteins is of uttermost importance for biology, and computational tools hav...
A protein structural domain is defined as a compact, spatially distinct part of a protein that can f...
Domains can be viewed as the basic components of proteins and the division of a protein structure in...
A simple method for the definition of protein structural domains is described that requires only a-c...
The Structural Classification of Proteins (SCOP) and Class, Architecture, Topology, Homology (CATH) ...
Detection and characterization of structural domains of proteins is crucial for determination of its...
Abstract Background Protein domains have long been an ill-defined concept in biology. They are gener...
Proteins are building blocks of life. Proteins exhibit more sequence and chemical complexity than DN...
International audienceBackground: Formal classification of a large collection of protein structures ...
Main goal of classifying proteins into families is to understand structural, functional and evolutio...
AbstractBackground: Protein evolution gives rise to families of structurally related proteins, withi...
Abstract. Proteins are composed of domains, which are conserved evolutionary units that often also c...
Abstract: Protein structure classification by using bioinformatics can involve sequence similarity s...
It is well known that the three-dimensional (3D) structure of a protein is closely related to its fu...
proteins in bite-sized chunks Possibly the ultimate goal of bioinformatics is to be able to predict ...
Background The study of proteins is of uttermost importance for biology, and computational tools hav...
A protein structural domain is defined as a compact, spatially distinct part of a protein that can f...
Domains can be viewed as the basic components of proteins and the division of a protein structure in...
A simple method for the definition of protein structural domains is described that requires only a-c...
The Structural Classification of Proteins (SCOP) and Class, Architecture, Topology, Homology (CATH) ...
Detection and characterization of structural domains of proteins is crucial for determination of its...
Abstract Background Protein domains have long been an ill-defined concept in biology. They are gener...
Proteins are building blocks of life. Proteins exhibit more sequence and chemical complexity than DN...
International audienceBackground: Formal classification of a large collection of protein structures ...
Main goal of classifying proteins into families is to understand structural, functional and evolutio...
AbstractBackground: Protein evolution gives rise to families of structurally related proteins, withi...
Abstract. Proteins are composed of domains, which are conserved evolutionary units that often also c...