Your search keyword '"Petras J. Kundrotas"' showing total 3 results

1. Protein Docking by the Interface Structure Similarity: How Much Structure Is Needed?

Author

Petras J. Kundrotas, Ilya A. Vakser, and Rohita Sinha

Subjects

Proteomics, Models, Molecular, Structural alignment, Biophysics, lcsh:Medicine, Sequence alignment, Biology, Bioinformatics, Biochemistry, 03 medical and health sciences, Protein structure, Macromolecular Structure Analysis, Cutoff, Macromolecular docking, Computer Simulation, Protein Interaction Domains and Motifs, Protein Interaction Maps, lcsh:Science, Databases, Protein, 030304 developmental biology, 0303 health sciences, Multidisciplinary, lcsh:R, 030302 biochemistry & molecular biology, Proteins, Computational Biology, Genomics, Protein structure prediction, Enzyme structure, Docking (molecular), lcsh:Q, Algorithm, Sequence Alignment, Algorithms, Research Article, Protein Binding

Abstract

The increasing availability of co-crystallized protein-protein complexes provides an opportunity to use template-based modeling for protein-protein docking. Structure alignment techniques are useful in detection of remote target-template similarities. The size of the structure involved in the alignment is important for the success in modeling. This paper describes a systematic large-scale study to find the optimal definition/size of the interfaces for the structure alignment-based docking applications. The results showed that structural areas corresponding to the cutoff values

Published

2012

2. DOCKGROUND membrane protein-protein set.

Author

Ian Kotthoff, Petras J Kundrotas, and Ilya A Vakser

Subjects

Medicine, Science

Abstract

Membrane proteins are significantly underrepresented in Protein Data Bank despite their essential role in cellular mechanisms and the major progress in experimental protein structure determination. Thus, computational approaches are especially valuable in the case of membrane proteins and their assemblies. The main focus in developing structure prediction techniques has been on soluble proteins, in part due to much greater availability of the structural data. Currently, structure prediction of protein complexes (protein docking) is a well-developed field of study. However, the generic protein docking approaches are not optimal for the membrane proteins because of the differences in physicochemical environment and the spatial constraints imposed by the membranes. Thus, docking of the membrane proteins requires specialized computational methods. Development and benchmarking of the membrane protein docking approaches has to be based on high-quality sets of membrane protein complexes. In this study we present a new dataset of 456 non-redundant alpha helical binary interfaces. The set is significantly larger and more representative than the previously developed sets. In the future, it will become the basis for the development of docking and scoring benchmarks, similar to the ones for soluble proteins in the Dockground resource http://dockground.compbio.ku.edu.

Published

2022

3. Protein docking by the interface structure similarity: how much structure is needed?

Author

Rohita Sinha, Petras J Kundrotas, and Ilya A Vakser

Subjects

Medicine, Science

Abstract

The increasing availability of co-crystallized protein-protein complexes provides an opportunity to use template-based modeling for protein-protein docking. Structure alignment techniques are useful in detection of remote target-template similarities. The size of the structure involved in the alignment is important for the success in modeling. This paper describes a systematic large-scale study to find the optimal definition/size of the interfaces for the structure alignment-based docking applications. The results showed that structural areas corresponding to the cutoff values

Published

2012