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Highly accurate carbohydrate-binding site prediction with DeepGlycanSite.

Xin-Heng HeLifen ZhaoYinping TianRui LiQinyu ChuZhiyong GuMingyue ZhengYusong WangShaoning LiHualiang JiangYi JiangLiuqing WenDingyan WangXi Cheng
Published in: Nature communications (2024)
As the most abundant organic substances in nature, carbohydrates are essential for life. Understanding how carbohydrates regulate proteins in the physiological and pathological processes presents opportunities to address crucial biological problems and develop new therapeutics. However, the diversity and complexity of carbohydrates pose a challenge in experimentally identifying the sites where carbohydrates bind to and act on proteins. Here, we introduce a deep learning model, DeepGlycanSite, capable of accurately predicting carbohydrate-binding sites on a given protein structure. Incorporating geometric and evolutionary features of proteins into a deep equivariant graph neural network with the transformer architecture, DeepGlycanSite remarkably outperforms previous state-of-the-art methods and effectively predicts binding sites for diverse carbohydrates. Integrating with a mutagenesis study, DeepGlycanSite reveals the guanosine-5'-diphosphate-sugar-recognition site of an important G-protein coupled receptor. These findings demonstrate DeepGlycanSite is invaluable for carbohydrate-binding site prediction and could provide insights into molecular mechanisms underlying carbohydrate-regulation of therapeutically important proteins.
Keyphrases
  • neural network
  • deep learning
  • mental health
  • crispr cas
  • dna methylation
  • mass spectrometry
  • single molecule
  • artificial intelligence