Sharon Sunny scite author profile

Sharon Sunny

5Publications

15Citation Statements Received

245Citation Statements Given

How they've been cited

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286

245

Affiliations

National Institute of Technology Calicut

Publications

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Protein–Protein Docking: Past, Present, and Future

Sunny

Jayaraj

2021

Protein J

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The biological significance of proteins attracted the scientific community in exploring their characteristics. The studies shed light on the interaction patterns and functions of proteins in a living body. Due to their practical difficulties, reliable experimental techniques pave the way for introducing computational methods in the interaction prediction. Automated methods reduced the difficulties but could not yet replace experimental studies as the field is still evolving. Interaction prediction problem being critical needs highly accurate results, but none of the existing methods could offer reliable performance that can parallel with experimental results yet. This article aims to assess the existing computational docking algorithms, their challenges, and future scope. Blind docking techniques are quite helpful when no information other than the individual structures are available. As more and more complex structures are being added to different databases, information-driven approaches can be a good alternative. Artificial intelligence, ruling over the major fields, is expected to take over this domain very shortly.

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FPDock: Protein–protein docking using flower pollination algorithm

Sunny

Jayaraj

2021

Computational Biology and Chemistry

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DeepBindPPI: Epitope-Paratope Prediction Using Attention Based Graph Convolutional Network

Sunny

Prakash

Gopakumar

et al. 2022

Preprint

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Due to the importance of antigen-antibody interactions in defence mechanism of living body, reasoned attempts were made to investigate its attributes, including, but not limited to, binding affinity, and binding region. Contemporary strategies for binding site prediction largely resort to deep learning techniques but turned out to be low precision models. As laboratory experiments for drug discovery tasks utilize this informaiton, increased false positives devalue the computational methods. This emphasize the need to develop enhanced strategies. DeepBindPPI employs deep learning technique to predict the binding regions of proteins, particularly antigen-antibody interaction sites. The results obtained are applied in a docking environment to confirm their correctness. An integration of graph convolutional network with attention mechanism predicts interacting amino acids with improved precision. The model learns the determining factors in interaction from a general pool of proteins and is then fine-tuned using antigen-antibody data. Comparison of the proposed method with existing techniques shows that the developed model has comparable performance. DeepBindPPI improved the precision for epitope prediction from 0.216 to 0.315 and paratope prediction from 0.48 to 0.60. An attempt to utilize the interface information for docking using the HDOCK server gives promising results, with high-quality structures appearing in the top10 ranks. The application of self-supervision may contribute to the improvement of the deep learning model's performance.

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ResDock: Protein-Protein Docking Using Shape Complementarity of Surface Residues

Sunny¹,

PB²

2021

Preprint

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ResDock is a new method to improve the performance of protein-protein complex structure prediction. It utilizes shape complementarity of the protein surfaces to generate the conformation space. The use of an appropriate scoring function helps to select the feasible structures. An interplay between pose generation phase and scoring phase enhance the performance of the proposed ab initio technique. <br>

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An Improved Protein-Protein Docking Technique Using Multilevel Scoring Function

Sunny

Kataria

Jayaraj

2019

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Sharon Sunny

Protein–Protein Docking: Past, Present, and Future

FPDock: Protein–protein docking using flower pollination algorithm

DeepBindPPI: Epitope-Paratope Prediction Using Attention Based Graph Convolutional Network

ResDock: Protein-Protein Docking Using Shape Complementarity of Surface Residues

An Improved Protein-Protein Docking Technique Using Multilevel Scoring Function

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