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  • HydRA: Deep-learning models for predicting RNA-binding capacity from protein interaction association context and protein sequence.

HydRA: Deep-learning models for predicting RNA-binding capacity from protein interaction association context and protein sequence.

Molecular cell (2023-07-09)
Wenhao Jin, Kristopher W Brannan, Katannya Kapeli, Samuel S Park, Hui Qing Tan, Maya L Gosztyla, Mayuresh Mujumdar, Joshua Ahdout, Bryce Henroid, Katherine Rothamel, Joy S Xiang, Limsoon Wong, Gene W Yeo
RESUMO

RNA-binding proteins (RBPs) control RNA metabolism to orchestrate gene expression and, when dysfunctional, underlie human diseases. Proteome-wide discovery efforts predict thousands of RBP candidates, many of which lack canonical RNA-binding domains (RBDs). Here, we present a hybrid ensemble RBP classifier (HydRA), which leverages information from both intermolecular protein interactions and internal protein sequence patterns to predict RNA-binding capacity with unparalleled specificity and sensitivity using support vector machines (SVMs), convolutional neural networks (CNNs), and Transformer-based protein language models. Occlusion mapping by HydRA robustly detects known RBDs and predicts hundreds of uncharacterized RNA-binding associated domains. Enhanced CLIP (eCLIP) for HydRA-predicted RBP candidates reveals transcriptome-wide RNA targets and confirms RNA-binding activity for HydRA-predicted RNA-binding associated domains. HydRA accelerates construction of a comprehensive RBP catalog and expands the diversity of RNA-binding associated domains.

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Anti-HSP90B antibody produced in rabbit, affinity isolated antibody