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Filip Jagodzinski

Showing results (1-10 of 15) with videos related to

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Methods in Molecular Biology (Clifton, N.J.)|October 7, 2016
Methods for Detecting Critical Residues in ProteinsNurit Haspel, Filip Jagodzinski
Journal of Computational Biology : a Journal of Computational Molecular Cell Biology|October 17, 2017
Mutation Sensitivity Maps: Identifying Residue Substitutions That Impact Protein Structure Via a Rigidity Analysis In Silico Mutation ApproachMichael Siderius, Filip Jagodzinski
Bioinformatics Advances|December 16, 2024
How pairs of insertion mutations impact protein structure: an exhaustive computational studyChangrui Li, Yang Zheng, Filip Jagodzinski
Journal of Bioinformatics and Computational Biology|July 20, 2012
Using rigidity analysis to probe mutation-induced structural changes in proteinsFilip Jagodzinski, Jeanne Hardy, Ileana Streinu
Molecules (Basel, Switzerland)|February 8, 2018
Exploring Protein Cavities through Rigidity AnalysisStephanie Mason, Brian Y Chen, Filip Jagodzinski
BMC Structural Biology|February 26, 2014
A conservation and rigidity based method for detecting critical protein residuesBahar Akbal-Delibas, Filip Jagodzinski, Nurit Haspel
Biomolecules|October 27, 2022
Elucidating the Structural Impacts of Protein InDelsMuneeba Jilani, Alistair Turcan, Nurit Haspel, et al.
Nucleic Acids Research|June 23, 2011
KINARI-Web: a server for protein rigidity analysisNaomi Fox, Filip Jagodzinski, Yang Li, et al.
Journal of Bioinformatics and Computational Biology|November 14, 2018
A systematic exploration of [Formula: see text] cutoff ranges in machine learning models for protein mutation stability predictionRichard Olney, Aaron Tuor, Filip Jagodzinski, et al.
Bioinformatics Advances|June 4, 2025
Energy metric prediction for double insertion mutants via the RoseNet deep learning frameworkSarah Coffland, Katie Christensen, Brian Hutchinson, et al.
Pageof 2

Showing results (1-10 of 15) with videos related to

Sort By:
Pageof 2
Methods in Molecular Biology (Clifton, N.J.)|October 7, 2016
Methods for Detecting Critical Residues in ProteinsNurit Haspel, Filip Jagodzinski
Journal of Computational Biology : a Journal of Computational Molecular Cell Biology|October 17, 2017
Mutation Sensitivity Maps: Identifying Residue Substitutions That Impact Protein Structure Via a Rigidity Analysis In Silico Mutation ApproachMichael Siderius, Filip Jagodzinski
Bioinformatics Advances|December 16, 2024
How pairs of insertion mutations impact protein structure: an exhaustive computational studyChangrui Li, Yang Zheng, Filip Jagodzinski
Journal of Bioinformatics and Computational Biology|July 20, 2012
Using rigidity analysis to probe mutation-induced structural changes in proteinsFilip Jagodzinski, Jeanne Hardy, Ileana Streinu
Molecules (Basel, Switzerland)|February 8, 2018
Exploring Protein Cavities through Rigidity AnalysisStephanie Mason, Brian Y Chen, Filip Jagodzinski
BMC Structural Biology|February 26, 2014
A conservation and rigidity based method for detecting critical protein residuesBahar Akbal-Delibas, Filip Jagodzinski, Nurit Haspel
Biomolecules|October 27, 2022
Elucidating the Structural Impacts of Protein InDelsMuneeba Jilani, Alistair Turcan, Nurit Haspel, et al.
Nucleic Acids Research|June 23, 2011
KINARI-Web: a server for protein rigidity analysisNaomi Fox, Filip Jagodzinski, Yang Li, et al.
Journal of Bioinformatics and Computational Biology|November 14, 2018
A systematic exploration of [Formula: see text] cutoff ranges in machine learning models for protein mutation stability predictionRichard Olney, Aaron Tuor, Filip Jagodzinski, et al.
Bioinformatics Advances|June 4, 2025
Energy metric prediction for double insertion mutants via the RoseNet deep learning frameworkSarah Coffland, Katie Christensen, Brian Hutchinson, et al.
Pageof 2