Conformational Flexibility of DNA sequences studied by Advanced Molecular Mechanics and Dynamics Tools

FADRNÁ, Eva, Naděžda ŠPAČKOVÁ, Jiří ŠPONER and Jaroslav KOČA. Conformational Flexibility of DNA sequences studied by Advanced Molecular Mechanics and Dynamics Tools. In Book of Abstracts. 2003rd ed. Praha: Workshop on Modeling Interactions in Biomolecules, 2003, p. 20.

Basic information

• Original name: Conformational Flexibility of DNA sequences studied by Advanced Molecular Mechanics and Dynamics Tools
• Authors: FADRNÁ, Eva (203 Czech Republic, guarantor), Naděžda ŠPAČKOVÁ (203 Czech Republic), Jiří ŠPONER (203 Czech Republic) and Jaroslav KOČA (203 Czech Republic).
• Edition: 2003. vyd. Praha, Book of Abstracts, p. 20-20, 2003.
• Publisher: Workshop on Modeling Interactions in Biomolecules

Other information

• Original language: English
• Type of outcome: Proceedings paper
• Field of Study: 10403 Physical chemistry
• Country of publisher: Czech Republic
• Confidentiality degree: is not subject to a state or trade secret
• RIV identification code: RIV/00216224:14310/03:00009170
• Organization unit: Faculty of Science
• Keywords in English: structure; dynamics; nucleic acids
• Tags: dynamics, nucleic acids, structure

Abstract

Molecular mechanics and dynamics is widely applied to various nucleic acids sequences in order to study their conformational behavior and flexibility. With increasing power of computational methods, it is possible to study structure-functional relationship in more detail. Wide range of methods has been applied to various G-DNA sequences that are able to form four-stranded arrangement. Taking part in controlling function of cells telomeras, these structures are in focus of biomolecular studies for more than 10 years. Computational methods contribute to the experimental ones and help them in prediction and explanation of structural features which can influence quadruplex formation, for example. Starting with conformational search of flexible parts of the molecule interesting conformational possibilities were found. Plain molecular dynamics as well as its modifications such as Locally Enhanced Sampling were used to study stability of geometries found by previous methods or described by experimental studies. Novel methods allow us to analyze the results in order to obtain free energy estimates. Some potential methodological pitfalls can be described by comparing free energy results and conformational preferences suggested for various structural sub-states. In contrast to experimentally observed results free energy analysis found different arrangement as the lowest energy one. Although the methods worked well until now, our results pointed out that still a lot of attention should be payed to methodological (force field) adjustments. Molecular dynamics is a powerful tool, but its routine use without careful attention to force field may be misleading. Anyway, our observations have shown big power of molecular dynamics and relative methods and pointed to potential course of the future methodological development.

Links

• LN00A016, research and development project: Name: BIOMOLEKULÁRNÍ CENTRUM

Investor: Ministry of Education, Youth and Sports of the CR, Biomolecular Center