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Title: | Role of multifunctional protein, topoisomerase2 in the human pathogenic yeast, candida albicans |
Authors: | Sanyal, Kaustuv Sreekumar, Lakshmi |
Keywords: | Proteins |
Issue Date: | 2-Dec-2013 2013 |
Publisher: | Jawaharlal Nehru Centre for Advanced Scientific Research |
Citation: | Sreekumar, Lakshmi. 2013, Role of multifunctional protein, topoisomerase2 in the human pathogenic yeast, candida albicans, MS thesis, Jawaharlal Nehru Centre for Advanced Scientific Research, Bengaluru |
Abstract: | A typical B-DNA molecule, which is a right handed helix, consists of two complementary polynucleotide chains that intertwine periodically to form a double helical structure. This provides topological features of the DNA structure. Moreover, nucleic acids undergo transactions in major cellular processes during replication, repair and transcription for which accessibility of various factors to DNA is required. Thus, for commencement of several cellular processes, melting of the duplex DNA structure is necessary. For all natural DNA molecules, free end rotations can either be restricted or forbidden that can lead to DNA being overwound or underwound (Mirkin 2001). When a DNA segment is constrained such that the free rotation of its ends is prohibited, it forms a region known as a topological domain. The classical example of a topological domain is a bacterial chromosome which is a covalently closed circular DNA molecule, the nucleiod. Eukaryotic chromosomes consisting of linear DNAs also contain topological domains in the form of DNA molecules in between two protein bodies. There are certain features of topologically constrained DNA molecules that make them advantageous in the course of natural selection. If a local change in the DNA structure can be sensed globally, integrity of a DNA molecule can be ensured. In eukaryotes, supercoils are accumulated in chromatin, where DNA is packaged into histones to be chromatinised. Supercoiling ensures that DNA is not broken or damaged. Hence, altered topological states of DNA in a cell ensure proper functioning of most physiological processes. To circumvent topology complications, each cell employs a class of nucleic acid remodeling enzymes called topoisomerases(Mirkin 2001, Witz and Stasiak 2010). |
Description: | Open Access |
URI: | https://libjncir.jncasr.ac.in/xmlui/10572/1454 |
Appears in Collections: | Student Theses (MBGU) |
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