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In Association with
Molecular imprint: An efficient marker towards sustainability assesment for some degrading mangroves of Indian Sundarbans
Joint Event on 22nd Global Congress on Biotechnology & 5th International Conference on Enzymology and Protein Chemistry
Sauren Das, Nirjhar Dasgpta and Anjan Hazra
Indian Statistical Institute, India
Posters & Accepted Abstracts: J Biotechnol Biomater
Abstract
Mangroves, the distinctive plant populations of tropical and sub-tropical coastlines, have attracted considerable scientific attention during the last few decades. High salinity, periodical tidal influence, strong winds, high temperatures, high precipitation and extremely anaerobic soils are the typical physiognomies of this vegetation. They possess unique morphological and physiological adaptive features to cope with these extreme conditions. Mangrove forest provides support significantly to the coastal inhabitants both productive and protective ways. Since industrial revolution, due to elevated salinity, caused by several environmental and anthropogenic liabilities, it suffers much throughout the world. As the mangroves are assemblage of heterogeneous group of taxa, they exhibit differential magnitude of adaptability in relation to sustainability. Apart from the different morphological and physiological adaptive traits, wide genetic plasticity complies as a vital role towards sustainability. Present work describes the molecular (enzymes and genetic polymorphism) validation of four mangroves (Bruguiera gymnorrhiza, Excoecaria agallocha, Heritiera fomes and Xylocarpus grnatum) from Indian Sundarbans, of which first two are well-growing and rest suffer much from enhanced substrate salinity since last three decades. Peroxidase and Superoxide Dismutase (in different isoforms) are antioxidant enzymes subsidizing the combating forces against ROS-damaged crisis of pant cell in traumatic substrate. In the present work, it was revealed that, both the enzymes show excess isoforms in Bruguiera and Excoecaria than the other two. It also presumed that genetic diversity is allied to morphological variance and survival of the plants. DNA polymorphic experiments with molecular markers (RAPD and ISSR) also revealed that percent DNA polymorphism are higher in the first two taxa over Heritiera and Xylocarpus. Enzyme and marker assisted molecular study might be pointed out towards the differential sustainability among the studied taxa in the presently elevated saline regime of Sundarbans mangrove swamps.Biography
E-mail: sauren@isical.ac.in
