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Complete fold annotation of the human proteome using a novel structural feature space.


ABSTRACT: Recognition of protein structural fold is the starting point for many structure prediction tools and protein function inference. Fold prediction is computationally demanding and recognizing novel folds is difficult such that the majority of proteins have not been annotated for fold classification. Here we describe a new machine learning approach using a novel feature space that can be used for accurate recognition of all 1,221 currently known folds and inference of unknown novel folds. We show that our method achieves better than 94% accuracy even when many folds have only one training example. We demonstrate the utility of this method by predicting the folds of 34,330 human protein domains and showing that these predictions can yield useful insights into potential biological function, such as prediction of RNA-binding ability. Our method can be applied to de novo fold prediction of entire proteomes and identify candidate novel fold families.

SUBMITTER: Middleton SA 

PROVIDER: S-EPMC5390313 | biostudies-literature | 2017 Apr

REPOSITORIES: biostudies-literature

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Complete fold annotation of the human proteome using a novel structural feature space.

Middleton Sarah A SA   Illuminati Joseph J   Kim Junhyong J  

Scientific reports 20170413


Recognition of protein structural fold is the starting point for many structure prediction tools and protein function inference. Fold prediction is computationally demanding and recognizing novel folds is difficult such that the majority of proteins have not been annotated for fold classification. Here we describe a new machine learning approach using a novel feature space that can be used for accurate recognition of all 1,221 currently known folds and inference of unknown novel folds. We show t  ...[more]

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