ABSTRACT
Cassia grandis trypsin inhibitor (CgTI) is a novel plant serine proteinase inhibitor. This study sets out to purify a thermostable inhibitor from the seeds of Cassia grandis and to provide biochemical information about a novel peptide belonging to the Kunitz family. Moreover, toxicity assays against Artemia, Aedes aegypti larvae-L4 and Nasutitermes corniger are evaluated. The purification process was performed using acetone precipitation, Trypsin-Sepharose-CL4B and Superdex-G75. The inhibitor showed an apparent molecular mass of around 19.8â¯kDa on Superdex-G75 gel filtration, and a mass of around 19.0â¯kDa visualized by SDS-PAGE under reducing conditions, and it also showed the protein consists of two polypeptide chains. N-terminal sequencing by Edman's degradation of 16 residues revealed a sequence of amino acids SVVLDTSGEPIRNGGG. 2D-electrophoresis identified a pI value of 6.3 and a 1:1 stoichiometric ratio was noted during CgTI-trypsin complex formation. The inhibitor retained the inhibitory activity over a broad range of pH (5-10) and showed thermostable activity at temperatures 30-80⯰C. Furthermore, in vivo assays showed no lethality effect against Artemia and Aedes aegypti larvae, but mortality against Nasutitermes corniger with termiticidal activity LC50 of 0.685â¯mg/mL on workers and 0.765â¯mg/mL on soldiers. Preliminary investigations of CgTI revealed it to be a promising biotechnological and biomedical candidate.