Add to ORKGAn important open problem in molecular biology is how to use computational methods to understand the structure and function of proteins given only their primary sequences. We describe and evaluate an original machine-learning approach to classifying protein sequences according to their structural folding class. Our work is novel in several respects: we use a set of protein classes that previously have not been used for classifying primary sequences, and we use a unique set of attributes to represent protein sequences to the learners. We evaluate our approach by measuring its ability to correctly classify proteins that were not in its training set. We compare our input representation to a commonly used input representation -- amino acid comp...
Knowledge of the three-dimensional structure of a protein is essential for describing and understand...
When the standard approach to predict protein function by sequence homology fails, other alternative...
BACKGROUND: Predicting the function of newly discovered proteins by simply inspecting their amino ac...
An important open problem in molecular biology is how to use computational methods to under-stand th...
Three-dimensional protein structures can be divided into classes in which proteins demonstrate high ...
The classical sequence-structure-function paradigm for proteins illustrates that the amino acid sequ...
Abstract: When the standard approach to predict protein function by sequence homology fails, other a...
Abstract: When the standard approach to predict protein function by sequence homology fails, other a...
The classical sequence-structure-function paradigm for proteins illustrates that the amino acid sequ...
Abstract: When the standard approach to predict protein function by sequence homology fails, other a...
Abstract: When the standard approach to predict protein function by sequence homology fails, other a...
Background: Predicting the function of newly discovered proteins by simply inspecting their amino ac...
Knowledge on protein folding has a profound impact on understanding the heterogeneity and molecular ...
To classify proteins into functional families based on their primary sequences, existing classificat...
Knowledge on protein folding has a profound impact on understanding the heterogeneity and molecular ...
Knowledge of the three-dimensional structure of a protein is essential for describing and understand...
When the standard approach to predict protein function by sequence homology fails, other alternative...
BACKGROUND: Predicting the function of newly discovered proteins by simply inspecting their amino ac...
An important open problem in molecular biology is how to use computational methods to under-stand th...
Three-dimensional protein structures can be divided into classes in which proteins demonstrate high ...
The classical sequence-structure-function paradigm for proteins illustrates that the amino acid sequ...
Abstract: When the standard approach to predict protein function by sequence homology fails, other a...
Abstract: When the standard approach to predict protein function by sequence homology fails, other a...
The classical sequence-structure-function paradigm for proteins illustrates that the amino acid sequ...
Abstract: When the standard approach to predict protein function by sequence homology fails, other a...
Abstract: When the standard approach to predict protein function by sequence homology fails, other a...
Background: Predicting the function of newly discovered proteins by simply inspecting their amino ac...
Knowledge on protein folding has a profound impact on understanding the heterogeneity and molecular ...
To classify proteins into functional families based on their primary sequences, existing classificat...
Knowledge on protein folding has a profound impact on understanding the heterogeneity and molecular ...
Knowledge of the three-dimensional structure of a protein is essential for describing and understand...
When the standard approach to predict protein function by sequence homology fails, other alternative...
BACKGROUND: Predicting the function of newly discovered proteins by simply inspecting their amino ac...