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Chaudhary Charan Singh Haryana Agricultural University, Hisar

Chaudhary Charan Singh Haryana Agricultural University popularly known as HAU, is one of Asia's biggest agricultural universities, located at Hisar in the Indian state of Haryana. It is named after India's seventh Prime Minister, Chaudhary Charan Singh. It is a leader in agricultural research in India and contributed significantly to Green Revolution and White Revolution in India in the 1960s and 70s. It has a very large campus and has several research centres throughout the state. It won the Indian Council of Agricultural Research's Award for the Best Institute in 1997. HAU was initially a campus of Punjab Agricultural University, Ludhiana. After the formation of Haryana in 1966, it became an autonomous institution on February 2, 1970 through a Presidential Ordinance, later ratified as Haryana and Punjab Agricultural Universities Act, 1970, passed by the Lok Sabha on March 29, 1970. A. L. Fletcher, the first Vice-Chancellor of the university, was instrumental in its initial growth.

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Subject: Bioinformatics × Author: Mamatha Y S × End date: 2019 × Thesis Type: M.Sc ×
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    ThesisItemOpen Access
    Structural and Molecular Dynamics Studies of UDP Glucose Pyrophosphorylase Dimerization in Rice (Oryza sativa L.)
    (CCSHAU, 2019) Mamatha Y S; Sudhir Kumar
    UDP-Glucose pyrophosphorylase (UGPase) (EC 2.7.7.9) belongs to family Glycosyltransferace clan (PF01702) which is present in plants as well as animals. UGPase is involved in sucrose synthesis as a catalyzing agent in the reaction, Mg+2-UTP + Glu-1-P PPi + UDP-Glu. It catalyzes both forward and reverse reaction depending on the metabolic status of the tissue. Crystal structure of UGPase shows that it have three domains with N-terminal domain at one end, catalytic domain which have nucleotide binding loop present at the center and the C-terminal domain include insertion loop at another end. C-terminal group is involved in dimer formation and stabilization of protein. Monomer is the active form in most of the parasitic and a plant UGPase. Modelling and dynamic study can uncover the interaction forces involved in UGPase activity. A 469 amino acids long rice UGPase was retrieved from NCBI and further aligned using BLAST program to identify templates for comparative structure prediction. Modelling of UGPase peptide by Modeller9.20, Swiss-model server and I-TASSER server predicted Model1, Model2 and Model3 respectively. All models were subjected to energy minimization using GROMOS96 force field and structure assessment by QMEAN. All models were further verified, validated and evaluated using WHATIF and SAVES server. The RMSD of models on superimposition with template was found to be less than 1.0 Å. Models were further refined using GROMACS-2019, a molecular dynamic (MD) code designed for highperformance simulation of large biomolecular systems. Dimers were generated by using protein-protein docking tools with predicted models. These generated dimers were further evaluated and analyzed. Dimer analysis provides the information about the hydrogen bonding in between the peptides of protein. Solvent accessible area calculated for the residues, which are present in ligand binding site. Solvent accessible area in dimer found to be less compared to monomer. The study showed that protein losses its activity due to dimerization.