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18 results on '"Blaszczyk, Maciej"'

1. Flexible protein-peptide docking using CABS-dock with knowledge about the binding site

Author

Kurcinski, Mateusz, Ciemny, Maciej Pawel, Blaszczyk, Maciej, Kolinski, Andrzej, and Kmiecik, Sebastian

Subjects
Quantitative Biology - Biomolecules
Abstract

Despite considerable efforts, structural prediction of protein-peptide complexes is still a very challenging task, mainly due to two reasons: high flexibility of the peptides and transient character of their interactions with proteins. Recently we have developed an automated web server CABS-dock (http://biocomp.chem.uw.edu.pl/CABSdock), which conducts flexible protein-peptide docking without any knowledge about the binding site. Our method allows for full flexibility of the peptide, whereas the flexibility of the receptor is restricted to near native conformations considering the main chain, and full flexibility of the side chains. Performance of the CABS-dock server was thoroughly tested on a benchmark of 171 test cases, both bound and unbound. Evaluation of the obtained results showed overall good performance of the method, especially that no information of the binding site was used. From unsuccessful experiments we learned that the accuracy of docking might be significantly improved, if only little information of the binding site was considered. In fact, in real-life applications user typically has access to some data indicating the location and/or structure of the binding site. In the current work, we test and demonstrate the performance of the CABS-dock server with two new features. The first one allows to utilize the knowledge about receptor residue(s) constituting the binding site, and the second one allows to enforce the desired secondary structure on the peptide structure. Based on the given example, we observe significant improvement of the docking accuracy in comparison to the default CABS-dock mode., Comment: IWBBIO 2016 International work-conference on Bioinformatics and biomedical engineering. Proceedings Extended abstracts 20-22 April, 2016, Granada (SPAIN)

Published
2016

2. Modeling of protein-peptide interactions using the CABS-dock web server for binding site search and flexible docking

Author

Blaszczyk, Maciej, Kurcinski, Mateusz, Kouza, Maksim, Wieteska, Lukasz, Debinski, Aleksander, Kolinski, Andrzej, and Kmiecik, Sebastian

Subjects
Quantitative Biology - Biomolecules
Abstract

Protein-peptide interactions play essential functional roles in living organisms and their structural characterization is a hot subject of current experimental and theoretical research. Computational modeling of the structure of protein-peptide interactions is usually divided into two stages: prediction of the binding site at a protein receptor surface, and then docking (and modeling) the peptide structure into the known binding site. This paper presents a comprehensive CABS-dock method for the simultaneous search of binding sites and flexible protein-peptide docking, available as a users friendly web server. We present example CABS-dock results obtained in the default CABS-dock mode and using its advanced options that enable the user to increase the range of flexibility for chosen receptor fragments or to exclude user-selected binding modes from docking search. Furthermore, we demonstrate a strategy to improve CABS-dock performance by assessing the quality of models with classical molecular dynamics. Finally, we discuss the promising extensions and applications of the CABS-dock method and provide a tutorial appendix for the convenient analysis and visualization of CABS-dock results. The CABS-dock web server is freely available at http://biocomp.chem.uw.edu.pl/CABSdock/, Comment: Published in Methods journal, available online 10 July 2015

Published
2015
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3. CABS-dock web server for the flexible docking of peptides to proteins without prior knowledge of the binding site

Author

Kurcinski, Mateusz, Jamroz, Michal, Blaszczyk, Maciej, Kolinski, Andrzej, and Kmiecik, Sebastian

Subjects
Quantitative Biology - Biomolecules
Abstract

Protein-peptide interactions play a key role in cell functions. Their structural characterization, though challenging, is important for the discovery of new drugs. The CABS-dock web server provides an interface for modeling protein-peptide interactions using a highly efficient protocol for the flexible docking of peptides to proteins. While other docking algorithms require pre-defined localization of the binding site, CABS-dock doesn't require such knowledge. Given a protein receptor structure and a peptide sequence (and starting from random conformations and positions of the peptide), CABS-dock performs simulation search for the binding site allowing for full flexibility of the peptide and small fluctuations of the receptor backbone. This protocol was extensively tested over the largest dataset of non-redundant protein-peptide interactions available to date (including bound and unbound docking cases). For over 80% of bound and unbound data set cases, we obtained models with high or medium accuracy (sufficient for practical applications). Additionally, as optional features, CABS-dock can exclude user-selected binding modes from docking search or to increase the level of flexibility for chosen receptor fragments. CABS-dock is freely available as a web server at http://biocomp.chem.uw.edu.pl/CABSdock

Published
2015
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6. Protein Structure Prediction Using Coarse-Grained Models

Author

Blaszczyk, Maciej, primary, Gront, Dominik, additional, Kmiecik, Sebastian, additional, Kurcinski, Mateusz, additional, Kolinski, Michal, additional, Ciemny, Maciej Pawel, additional, Ziolkowska, Katarzyna, additional, Panek, Marta, additional, and Kolinski, Andrzej, additional

Published
2018
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12. Protein–peptide docking using CABS-dock and contact information.

Author

Blaszczyk, Maciej, Ciemny, Maciej Pawel, Kolinski, Andrzej, Kurcinski, Mateusz, and Kmiecik, Sebastian

Subjects
*SIGNAL recognition particle receptor, *MOLECULAR docking, *INTERNET servers, *BINDING sites
Abstract

CABS-dock is a computational method for protein–peptide molecular docking that does not require predefinition of the binding site. The peptide is treated as fully flexible, while the protein backbone undergoes small fluctuations and, optionally, large-scale rearrangements. Here, we present a specific CABS-dock protocol that enhances the docking procedure using fragmentary information about protein–peptide contacts. The contact information is used to narrow down the search for the binding peptide pose to the proximity of the binding site. We used information on a single-chosen and randomly chosen native protein–peptide contact to validate the protocol on the peptiDB benchmark. The contact information significantly improved CABS-dock performance. The protocol has been made available as a new feature of the CABS-dock web server (at http://biocomp.chem.uw.edu.pl/CABSdock/). Short abstract CABS-dock is a tool for flexible docking of peptides to proteins. In this article, we present a protocol for CABS-dock docking driven by information about protein–peptide contact(s). Using information on individual protein–peptide contacts allows to improve the accuracy of CABS-dock docking. [ABSTRACT FROM AUTHOR]

Published
2019
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16. Optimization of protein models

Author

Gront, Dominik, primary, Kmiecik, Sebastian, additional, Blaszczyk, Maciej, additional, Ekonomiuk, Dariusz, additional, and Koliński, Andrzej, additional

Published
2012
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18. Glomangioma in the hand: diagnosis, treatment, and challenges.

Author

Szmyd B, Malicki M, Blaszczyk M, Karuga FF, Braun M, Sołek J, Jabbar R, Jankowski J, Wysiadecki G, and Radek M

Subjects
Male, Female, Humans, Middle Aged, Hand surgery, Diagnosis, Differential, Glomus Tumor diagnosis, Glomus Tumor surgery, Glomus Tumor pathology, Skin Neoplasms diagnosis, Skin Neoplasms pathology, Skin Neoplasms surgery
Abstract

Introduction: In this paper, we have analysed all hand glomangioma cases referred to our clinic in the context of symptoms, time to diagnosis, and the role of surgical resection of the lesion., Material and Methods: We have collected the following data: the presence of risk factors, manifestation, time to diagnosis, the treatment applied, and follow-up of patients., Results: We have collected medical records from six patients, three males and three females. The median age was 45 (IQR: 29.5-65.75). The main symptom in all patients was severe pain and tenderness. The first-choice physician(s) were: general practitioners, general surgeons, and neurologists. The median time to diagnosis was 7 (IQR: 5-10) years. The main complaint of our patients was severe pain - 9 (IQR: 9-10) on the VAS scale, which was significantly alleviated after surgical treatment - 0 (IQR: 0-0; p = 0.043)., Conclusions: Extremely long times to final diagnosis, and excellent outcomes of surgical treatment, highlight the necessity of raising awareness of glomangiomas among clinicians.

Published
2023
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