Characterization of the dystrophin gene in Macrobrachium rosenbergii / Noor Anees Fathima

The dystrophin gene encodes one of the most crucial components of muscle fibers, the dystrophin protein. As the largest gene in humans, it plays an important role in maintaining cytoskeleton structure and normal muscle function. Its absence results in a mortal muscular disease characterized by muscl...

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Main Author: Noor Anees , Fathima
Format: Thesis
Published: 2016
Subjects:
Online Access:http://studentsrepo.um.edu.my/9518/
http://studentsrepo.um.edu.my/9518/1/Noor_Anees_Fathima.pdf
http://studentsrepo.um.edu.my/9518/5/anees.pdf
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author Noor Anees , Fathima
author_facet Noor Anees , Fathima
author_sort Noor Anees , Fathima
building UM Research Repository
collection Online Access
description The dystrophin gene encodes one of the most crucial components of muscle fibers, the dystrophin protein. As the largest gene in humans, it plays an important role in maintaining cytoskeleton structure and normal muscle function. Its absence results in a mortal muscular disease characterized by muscle degeneration and dysfunction. Due to the complexity of dystrophin in humans, the majority of studies into the function of this gene have been conducted in simpler organisms. In this study, the Macrobrachium rosenbergii dystrophin was identified and computationally characterized through bioinformatics methods. Its protein domains were identified and compared to domains in homologous dystrophin sequences from other organisms. Differential expression of the dystrophin gene in response to White Spot Syndrome Virus (WSSV) was also studied. An immediate down regulation of dystrophin expression was observed upon WSSV infection, followed by a significant up regulation in the later stages of the infection. Due to the significance of intracellular calcium concentration in dystrophin deficiency studies, it was quantified in healthy M. rosenbergii muscle tissues as well as at different time points post WSSV infection. A two-fold increase in intracellular calcium concentration was seen followed by its stabilization 24 hours post infection, supporting existing theories of calcium-dystrophin relations in dystrophin deficient muscles. Similarly, Transmission Electron Microscope (TEM) comparison of healthy and infected M. rosenbergii muscle tissues morphology showed distinct deterioration of the muscle fibers and mitochondria. Several possible explanations for these observed changes were postulated and discussed in detail, including possible cleavage of dystrophin due to WSSV induced protease expression.
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format Thesis
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institution University Malaya
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last_indexed 2025-11-14T13:50:24Z
publishDate 2016
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spelling um-95182020-01-18T02:19:09Z Characterization of the dystrophin gene in Macrobrachium rosenbergii / Noor Anees Fathima Noor Anees , Fathima Q Science (General) The dystrophin gene encodes one of the most crucial components of muscle fibers, the dystrophin protein. As the largest gene in humans, it plays an important role in maintaining cytoskeleton structure and normal muscle function. Its absence results in a mortal muscular disease characterized by muscle degeneration and dysfunction. Due to the complexity of dystrophin in humans, the majority of studies into the function of this gene have been conducted in simpler organisms. In this study, the Macrobrachium rosenbergii dystrophin was identified and computationally characterized through bioinformatics methods. Its protein domains were identified and compared to domains in homologous dystrophin sequences from other organisms. Differential expression of the dystrophin gene in response to White Spot Syndrome Virus (WSSV) was also studied. An immediate down regulation of dystrophin expression was observed upon WSSV infection, followed by a significant up regulation in the later stages of the infection. Due to the significance of intracellular calcium concentration in dystrophin deficiency studies, it was quantified in healthy M. rosenbergii muscle tissues as well as at different time points post WSSV infection. A two-fold increase in intracellular calcium concentration was seen followed by its stabilization 24 hours post infection, supporting existing theories of calcium-dystrophin relations in dystrophin deficient muscles. Similarly, Transmission Electron Microscope (TEM) comparison of healthy and infected M. rosenbergii muscle tissues morphology showed distinct deterioration of the muscle fibers and mitochondria. Several possible explanations for these observed changes were postulated and discussed in detail, including possible cleavage of dystrophin due to WSSV induced protease expression. 2016-10 Thesis NonPeerReviewed application/pdf http://studentsrepo.um.edu.my/9518/1/Noor_Anees_Fathima.pdf application/pdf http://studentsrepo.um.edu.my/9518/5/anees.pdf Noor Anees , Fathima (2016) Characterization of the dystrophin gene in Macrobrachium rosenbergii / Noor Anees Fathima. Masters thesis, University of Malaya. http://studentsrepo.um.edu.my/9518/
spellingShingle Q Science (General)
Noor Anees , Fathima
Characterization of the dystrophin gene in Macrobrachium rosenbergii / Noor Anees Fathima
title Characterization of the dystrophin gene in Macrobrachium rosenbergii / Noor Anees Fathima
title_full Characterization of the dystrophin gene in Macrobrachium rosenbergii / Noor Anees Fathima
title_fullStr Characterization of the dystrophin gene in Macrobrachium rosenbergii / Noor Anees Fathima
title_full_unstemmed Characterization of the dystrophin gene in Macrobrachium rosenbergii / Noor Anees Fathima
title_short Characterization of the dystrophin gene in Macrobrachium rosenbergii / Noor Anees Fathima
title_sort characterization of the dystrophin gene in macrobrachium rosenbergii / noor anees fathima
topic Q Science (General)
url http://studentsrepo.um.edu.my/9518/
http://studentsrepo.um.edu.my/9518/1/Noor_Anees_Fathima.pdf
http://studentsrepo.um.edu.my/9518/5/anees.pdf