02445nas a2200277 4500008004100000022001400041245012200055210006900177260009900246300001200345490000700357520142700364653001801791653002701809653002201836653001301858653002301871100002101894700002501915700001801940700002101958700001701979700001701996700002402013856013002037 2015 eng d a1359-511300aCloning, expression and in silico studies of a serine protease from a marine actinomycete (Nocardiopsis sp NCIM 5124)0 aCloning expression and in silico studies of a serine protease fr aTHE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLANDbELSEVIER SCI LTDcMAR a378-3870 v503 a
A serine protease (N. protease), from Nocardiopsis sp., was cloned and expressed in Escherichia coli and investigated for its potential kinetic stability. Protein expression using two vectors, pET-22b (+) and pET-39b (+) was compared based on proper folding and soluble expression of the protein. pET-39b (+) was found to be a better vector for soluble expression of this protease containing disulfide bonds. In silico studies were also carried out for N. protease. Homology modeling suggested N. protease to be a member of PA clan of proteases. The phylogenetic analysis showed relatedness of N. protease to kinetically stable proteases. Molecular docking studies performed exhibited interaction of a peptide substrate with catalytic pocket of the enzyme. High temperature MD simulations were performed on N. protease to study its unfolding behavior and comparisons were made with alpha LP. A novel approach to study `cooperativity' of protein unfolding was undertaken, wherein `P' value analysis based on phi and psi values of the protein was performed. Data showed sharper P value transition for alpha LP when compared to N. protease thus indicating relatively less kinetic stability of N. protease. Present study holds significance as the non-streptomycete actinomycetes group is least explored and ensures industrially important enzymes with exceptional stabilities. (C) 2015 Elsevier Ltd. All rights reserved.
10aActinomycetes10aCloning and expression10aKinetic stability10aProtease10aThermal simulation1 aRohamare, Sonali1 aGaikwad, Sushama, M.1 aJones, Dafydd1 aBhavnani, Varsha1 aPal, Jayanta1 aSharma, Ranu1 aChatterjee, Prathit uhttp://library.ncl.res.in/content/cloning-expression-and-silico-studies-serine-protease-marine-actinomycete-nocardiopsis-sp-0