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Automated Protein Secondary Structure Assignment from C α Positions Using Neural Networks.

Mohammad N SaqibJustyna Dorota KryśDominik Gront
Published in: Biomolecules (2022)
The assignment of secondary structure elements in protein conformations is necessary to interpret a protein model that has been established by computational methods. The process essentially involves labeling the amino acid residues with H (Helix), E (Strand), or C (Coil, also known as Loop). When particular atoms are absent from an input protein structure, the procedure becomes more complicated, especially when only the alpha carbon locations are known. Various techniques have been tested and applied to this problem during the last forty years. The application of machine learning techniques is the most recent trend. This contribution presents the HECA classifier, which uses neural networks to assign protein secondary structure types. The technique exclusively employs Cα coordinates. The Keras (TensorFlow) library was used to implement and train the neural network model. The BioShell toolkit was used to calculate the neural network input features from raw coordinates. The study's findings show that neural network-based methods may be successfully used to take on structure assignment challenges when only Cα trace is available. Thanks to the careful selection of input features, our approach's accuracy (above 97%) exceeded that of the existing methods.
Keyphrases
  • neural network
  • amino acid
  • machine learning
  • protein protein
  • binding protein
  • high throughput
  • artificial intelligence
  • risk assessment
  • transcription factor
  • high resolution
  • dna binding