Author Info
Name
Affiliation
Papers
FILIP JAGODZINSKI
Department of Computer Science, University of Massachusetts, Amherst, 01003, USA
32
Collaborators
Citations 
PageRank 
67
71
14.83
Referers 
Referees 
References 
143
217
115
Search Limit
100217
Title
Citations
PageRank
Year
FILCIO: Application Agnostic I/O Aggregation to Scale Scientific Workflows00.342021
Towards Modeling Student Engagement with Interactive Computing Textbooks: An Empirical Study00.342021
Towards Aggregation Based I/O Optimization For Scaling Bioinformatics Applications00.342020
Quantifying The Effects Of Prior Knowledge In Entry-Level Programming Courses00.342019
PETRA - Protein-ligand Complex Engineering Through Rigidity Analysis.00.342019
CONSEQUENCES - CONstrained SEQUENCE alignmentS With Multiple User Weights.00.342019
ACM-BCB 2018 Computational Structural Bioinformatics Workshop (CSBW) Chairs' Welcome.00.342018
Mutation Sensitivity Maps: Identifying Residue Substitutions That Impact Protein Structure Via a Rigidity Analysis In Silico Mutation Approach.20.382018
Elucidating Which Pairwise Mutations Affect Protein Stability: An Exhaustive Big Data Approach10.362018
A systematic exploration of ΔΔG cutoff ranges in machine learning models for protein mutation stability prediction.00.342018
Low Rank Smoothed Sampling Methods for Identifying Impactful Pairwise Mutations.00.342018
Ensemble Voting Schemes that Improve Machine Learning Models for Predicting the Effects of Protein Mutations.00.342018
Big Holes in Big Data: A Monte Carlo Algorithm for Detecting Large Hyper-Rectangles in High Dimensional Data30.432017
Investigating Rigidity Properties of Protein Cavities00.342017
Predicting the Effect of Point Mutations on Protein Structural Stability20.432017
ProMuteHT: A High Throughput Compute Pipeline for Generating Protein Mutants in silico40.472017
Assessing how multiple mutations affect protein stability using rigid cluster size distributions10.372016
Identifying Amino Acids Sensitive To Mutations Using High-Throughput Rigidity Analysis00.342016
An extensible software infrastructure for testing the evolutionary consequences of developmental interactions00.342015
Rigidity analysis of protein biological assemblies and periodic crystal structures.80.432013
A Combined Molecular Dynamics, Rigidity Analysis Approach for Studying Protein Complexes10.362013
Rigidity and flexibility of protein-nucleic acid complexes.10.412013
An Evolutionary Conservation & Rigidity Analysis Machine Learning Approach for Detecting Critical Protein Residues50.572013
Periodic rigidity of protein crystal structures20.492012
Towards biophysical validation of constraint modeling for rigidity analysis of proteins00.342012
Towards sequence-based DNA flexibility analysis00.342012
Combining conservation and rigidity methods to detect critical residues in proteins00.342012
Towards a hybrid method for detecting critical protein residues00.342012
Using rigidity analysis to probe mutation-induced structural changes in proteins.30.482011
Kinari-Web: A Server For Protein Rigidity Analysis251.772011
Towards a mechanistic view of protein motion00.342007
The XML log standard for digital libraries: analysis, evolution, and deployment131.782003