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Functional analysis and structure determination of alkaline protease from Aspergillus flavus

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Author(s): Rabbani Syed | Roja Rani | Sabeena | Tariq Ahmad Masoodi | Gowher Shafi | Khalid Alharbi

Journal: Bioinformation
ISSN 0973-2063

Volume: 8;
Issue: 4;
Start page: 175;
Date: 2012;
Original page

Keywords: Alkaline Proteases | Homology Model | Ramachandran plot

ABSTRACT
Proteases are one of the highest value commercial enzymes as they have broad applications in food, pharmaceutical, detergent, and dairy industries and serve as vital tools in determination of structure of proteins and polypeptides. Multiple application of these enzymes stimulated interest to discover them with novel properties and considerable advancement of basic research into these enzymes. A broad understanding of the active site of the enzyme and of the mechanism of its inactivation is essential for delineating its structure-function relationship. Primary structure analysis of alkaline protease showed 42% of its content to be alpha helix making it stable for three dimensional structure modeling. Homology model of alkaline protease has been constructed using the X-ray structure (3F7O) as a template and swiss model as the workspace. The model was validated by ProSA, SAVES, PROCHECK, PROSAII and RMSD. The results showed the final refined model is reliable. It has 53% amino acid sequence identity with the template, 0.24 Å as RMSD and has -7.53 as Z-score, the Ramachandran plot analysis showed that conformations for 83.4 % of amino acid residues are within the most favored regions and only 0.4% in the disallowed regions

Tango Jona
Tangokurs Rapperswil-Jona

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