Vol. 6, Issue 2 (2018)
In silico characterization and modelling of Drosophila melanogaster krotzkopf verkehrt protein
Author(s): Neha Gupta, Gagan Rani, Neeru Singh Redhu and Sudhir Kumar
Abstract: Chitin synthase is known to be an important enzyme that catalyzes last step of chitin biosynthetic pathway. It causes linear polymerization of chitin from activated UDP-N-acetylglucosamine monomers in manner joined together by β-(1, 4)-linked. Chitin synthases are thus critical enzymes for synthesis of chitin and as well as for growth and development of insects. In this study, physiochemical properties and modeling of isoforms of chitin synthase (krotzkopf verkehrt protein) which are encoded by kkv genes were analyzed using in silico approach. Physiochemical properties such as molecular weight, theoretical isoelectric point, extinction coefficient, aliphatic index, instability index, total number of negatively and positively charged residues and grand average of hydrophathicity were computed. Along with these physiochemical properties cellular localilization, no. of transmembrane helices, other proteins with which these isoforms interact were also depicted using various tools.
Pages: 3283-3291 | 653 Views 90 Downloads
download (11376KB)
How to cite this article:
Neha Gupta, Gagan Rani, Neeru Singh Redhu, Sudhir Kumar. In silico characterization and modelling of Drosophila melanogaster krotzkopf verkehrt protein. Int J Chem Stud 2018;6(2):3283-3291.
