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Philip M Kim

Showing results (11-20 of 103) with videos related to

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Cell Communication and Signaling : CCS|March 4, 2016
Motif mediated protein-protein interactions as drug targetsCarles Corbi-Verge, Philip M Kim
Bioinformatics (Oxford, England)|October 23, 2024
EuDockScore: Euclidean graph neural networks for scoring protein-protein interfacesMatthew McFee, Jisun Kim, Philip M Kim
Genome Biology|December 30, 2011
Evolution of biological interaction networks: from models to real dataMark G F Sun, Philip M Kim
Plos One|November 7, 2017
A computational approach for designing D-proteins with non-canonical amino acid optimised binding affinityMichael Garton, Maryam Sayadi, Philip M Kim
Plos Computational Biology|August 25, 2017
Data driven flexible backbone protein designMark G F Sun, Philip M Kim
Bioinformatics (Oxford, England)|January 18, 2023
HelixGAN a deep-learning methodology for conditional de novo design of α-helix structuresXuezhi Xie, Pedro A Valiente, Philip M Kim
Journal of Molecular Biology|January 15, 2021
ELASPIC2 (EL2): Combining Contextualized Language Models and Graph Neural Networks to Predict Effects of MutationsAlexey Strokach, Tian Yu Lu, Philip M Kim
The Journal of Organic Chemistry|January 2, 2020
A Method to Calculate the Relative Binding Free Energy Differences of α-Helical Stapled PeptidesPedro A Valiente, David Becerra, Philip M Kim
Current Opinion in Structural Biology|March 7, 2025
Language models for protein designJin Sub Lee, Osama Abdin, Philip M Kim
Human Mutation|June 28, 2019
Predicting changes in protein stability caused by mutation using sequence-and structure-based methods in a CAGI5 blind challengeAlexey Strokach, Carles Corbi-Verge, Philip M Kim
Pageof 11

Showing results (11-20 of 103) with videos related to

Sort By:
Pageof 11
Cell Communication and Signaling : CCS|March 4, 2016
Motif mediated protein-protein interactions as drug targetsCarles Corbi-Verge, Philip M Kim
Bioinformatics (Oxford, England)|October 23, 2024
EuDockScore: Euclidean graph neural networks for scoring protein-protein interfacesMatthew McFee, Jisun Kim, Philip M Kim
Genome Biology|December 30, 2011
Evolution of biological interaction networks: from models to real dataMark G F Sun, Philip M Kim
Plos One|November 7, 2017
A computational approach for designing D-proteins with non-canonical amino acid optimised binding affinityMichael Garton, Maryam Sayadi, Philip M Kim
Plos Computational Biology|August 25, 2017
Data driven flexible backbone protein designMark G F Sun, Philip M Kim
Bioinformatics (Oxford, England)|January 18, 2023
HelixGAN a deep-learning methodology for conditional de novo design of α-helix structuresXuezhi Xie, Pedro A Valiente, Philip M Kim
Journal of Molecular Biology|January 15, 2021
ELASPIC2 (EL2): Combining Contextualized Language Models and Graph Neural Networks to Predict Effects of MutationsAlexey Strokach, Tian Yu Lu, Philip M Kim
The Journal of Organic Chemistry|January 2, 2020
A Method to Calculate the Relative Binding Free Energy Differences of α-Helical Stapled PeptidesPedro A Valiente, David Becerra, Philip M Kim
Current Opinion in Structural Biology|March 7, 2025
Language models for protein designJin Sub Lee, Osama Abdin, Philip M Kim
Human Mutation|June 28, 2019
Predicting changes in protein stability caused by mutation using sequence-and structure-based methods in a CAGI5 blind challengeAlexey Strokach, Carles Corbi-Verge, Philip M Kim
Pageof 11