A Novel Superoxide Dismutase from Cicer arietinum L. Seedlings: Isolation, Purification and Characterization

Sushant      Singh; Abhay Narayan      Singh; Anil      Verma; Vikash Kumar      Dubey

Abstract

Superoxide dismutase is an important enzyme with various therapeutic applications. Search of a new source of superoxide dismutase with novel properties has significant importance. The current work reports purification of a novel superoxide dismutase enzyme with unique characteristics. A copper zinc superoxide dismutase (Cu-Zn SOD) was purified and characterized from Cicer arietinum L. seedlings germinated under aluminium (Al+3) stress. The specific activity of purified protein was 158 units/mg with 28 fold purification. The superoxide dismutase is a homodimeric protein with approx subunit molecular weight of 33.27 kDa. The enzyme is identified as Cu-Zn category of superoxide dismutase, reflected by H2O2 induced inhibition of in-gel activity and presence of quantifiable copper and zinc ions. The optimum pH range for purified Cu-Zn SOD activity was observed within 6.5-8.5 (highest at pH 8.0) and the pH stability was in the range of 6.0-8.5. The enzyme was more stable at low temperature (below 30°C) and the Km of purified Cu-Zn SOD for riboflavin as substrate was 10.16 ± 2.5 µM. The N-terminal amino acid sequence showed homology at conserved residues with other plant Cu-Zn SODs

Keywords: Protein purification, enzyme kinetics, superoxide dismutase.

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