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Purification of Alkaline Protease from Chicken Intestine by Aqueous Two Phase System of Polyethylene Glycol and Sodium Citrate

Overview
Journal J Food Sci Technol
Specialty Nutritional Sciences
Date 2013 Apr 11
PMID 23572714
Citations 2
Authors
B K Sarangi
D P Pattanaik
K Rathinaraj
N M Sachindra
M C Madhusudan
N S Mahendrakar
Affiliations
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Abstract

An aqueous two phase system of polyethylene glycol (PEG) and salts was evaluated for separation and purification of alkaline proteases from chicken intestine. Among the different salts evaluated potassium phosphate and sodium citrate gave higher enzyme yield (73.5% and 69.7% respectively) and enzyme purification (5.3 and 7.4 fold) in PEG rich upper phase. Increase in concentration of sodium citrate in the system resulted in reduction in enzyme yield and enzyme purification factor, with 15% salt showing highest enzyme yield (59.8%) and purification (6.7 fold). Initial protein concentration in the system did not show any specific trend on the partition behavior of the enzyme. The temperature at which the system is incubated did not show any significant (p ≥ 0.05) effect on enzyme partition and purification. Increasing the PEG concentration in the system from 15 to 25% resulted in reduction in enzyme yield from 53.7 to 21.9% and enzyme purification from 5 fold to 1.4 fold in PEG rich upper phase. pH also had a significant (p < 0.05) effect on the partition of the enzyme to the upper phase with highest purification (3.4 fold) at pH 9.0 and higher enzyme yield (46.2%) at pH 10.

Citing Articles

A novel strain of Stenotrophomonas acidaminiphila produces thermostable alkaline peptidase on agro-industrial wastes: process optimization, kinetic modeling and scale-up.

Asitok A, Ekpenyong M, Takon I, Antai S, Ogarekpe N, Antigha R Arch Microbiol. 2022; 204(7):400.

PMID: 35713813 DOI: 10.1007/s00203-022-03010-9.

Overproduction of a thermo-stable halo-alkaline protease on agro-waste-based optimized medium through alternate combinatorial random mutagenesis of .

Asitok A, Ekpenyong M, Takon I, Antai S, Ogarekpe N, Antigha R Biotechnol Rep (Amst). 2022; 35:e00746.

PMID: 35707314 PMC: 9189783. DOI: 10.1016/j.btre.2022.e00746.

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