Background Identification of the tertiary structure (3D structure) of a protein is a fundamental problem in biology which helps in identifying its functions. Predicting a protein׳s fold is considered to be an intermediate step for identifying the tertiary structure of a protein. Computational methods have been applied to determine a protein׳s fold by assembling information from its structural, physicochemical and/or evolutionary properties. Methods In this study, we propose a scheme in which a feature extraction technique that extracts probabilistic expressions of amino acid dimers, which have varying degree of spatial separation in the primary sequences of proteins, from the Position Specific Scoring Matrix (PSSM). SVM classifier is u...
Protein fold classification is a key step to predicting protein tertiary structures. This paper prop...
Accurately assigning folds for divergent protein sequences is a major obstacle to structural studies...
Abstract: Because of the relatively large gap of knowledge between number of protein sequences and p...
Successful protein structure identification enables researchers to estimate the biological functions...
Abstract Deciphering three dimensional structure of a protein sequence is a challenging task in biol...
Abstract—Protein fold recognition (PFR) is considered as an important step towards the protein struc...
Predicting the three-dimensional (3-D) structure of a protein is an important task in the field of b...
Successful protein structure identification enables researchers to estimate the biological functions...
The classical sequence-structure-function paradigm for proteins illustrates that the amino acid sequ...
Abstract. Protein Fold recognition (PFR) is considered as an impor-tant step towards protein structu...
Knowledge of the three-dimensional structure of a protein is essential for describing and understand...
Deciphering three dimensional structure of a protein sequence is a challenging task in biological sc...
The rapid growth in genomic and proteomic data causes a lot of challenges that are raised up and nee...
Knowledge of the secondary structure and solvent accessibility of a protein plays a vital role in th...
Knowledge of the secondary structure and solvent accessibility of a protein plays a vital role in th...
Protein fold classification is a key step to predicting protein tertiary structures. This paper prop...
Accurately assigning folds for divergent protein sequences is a major obstacle to structural studies...
Abstract: Because of the relatively large gap of knowledge between number of protein sequences and p...
Successful protein structure identification enables researchers to estimate the biological functions...
Abstract Deciphering three dimensional structure of a protein sequence is a challenging task in biol...
Abstract—Protein fold recognition (PFR) is considered as an important step towards the protein struc...
Predicting the three-dimensional (3-D) structure of a protein is an important task in the field of b...
Successful protein structure identification enables researchers to estimate the biological functions...
The classical sequence-structure-function paradigm for proteins illustrates that the amino acid sequ...
Abstract. Protein Fold recognition (PFR) is considered as an impor-tant step towards protein structu...
Knowledge of the three-dimensional structure of a protein is essential for describing and understand...
Deciphering three dimensional structure of a protein sequence is a challenging task in biological sc...
The rapid growth in genomic and proteomic data causes a lot of challenges that are raised up and nee...
Knowledge of the secondary structure and solvent accessibility of a protein plays a vital role in th...
Knowledge of the secondary structure and solvent accessibility of a protein plays a vital role in th...
Protein fold classification is a key step to predicting protein tertiary structures. This paper prop...
Accurately assigning folds for divergent protein sequences is a major obstacle to structural studies...
Abstract: Because of the relatively large gap of knowledge between number of protein sequences and p...