Browsing Biochemical Engg. and Biotechnology by Author "Mishra, Saroj"
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Adhesives and plastics based on soy protein products
Rakesh Kumar; Choudhary, Veena; Mishra, Saroj; Varma, I K; Mattiason, Bo (2002)Significance of eco-friendly materials based on easily renewable natural resources, and the finite nature of petrochemical resources, has necessitated the development of polymers from agricultural processing by products ... -
Adsorption characteristics of cellulases from a constitutive mutant of trichoderma reesei
Sethi, Benu; Mishra, Saroj; Bisaria, Virendra S (1997)The adsorption parameter, A,, (maximum protein adsorbed/g substrate) and KA (adsorption equilibrium constant) of Trichoderma reesei C-5 cellulases were 58.8 mg protein/g cellulose and 11.6 x 104 Z/m01 respec-tively. The ... -
Adsorption properties of the fibril forming protein from trichoderma reesei
Banka, Rakesh R; Mishra, Saroj (2002)The amino acid composition and adsorption properties of the fibril forming protein (FFP), identified previously as a non-hydrolytic component of Trichoderma reseei cellulase enzymes, are described. The amino acid composition ... -
Cloning and Expression of P-Glucosidase Gene from the Yeast Pichia etchellsii
Pandey, Manjula; Mishra, Saroj (1995)umerical Modelling of Coastal Upwelling In The Bay of Bengal Pergamon,21,(5),667-670 A 4%kilobase pairs DNA fragment from thermophilic yeast Pichia etchellsii was cloned into the vector plasmid pUC19 to form plasmid pBG55 ... -
Expression and characterization of Pichia etchellsii B-glucosidase in Escherichia coli
Pandey, Manjula; Mishra, Saroj (1997)The B-glucosidase enzyme is important as the terminal enzyme involved in hydrolysis of cellobiose and short-chain cellodextrins generated during enzymatic cellulose degradation. Under controlled reaction conditions the ... -
Purification and characterization of two B-glucosidases from a thermo-tolerant yeast pichia etchellsii
Wallecha, Anu; Mishra, Saroj (2003)The thermo-tolerant yeast Pichia etchellsii produced two cell-wall-bound inducible B-glucosidases, BGLI (molecular mass 186 kDa) and BGLII (molecular mass 340 kDa), which were purified by a simple, three-step method, ...