Purification and characterization of a thermostable beta-galactosidase from kidney beans (Phaseolus vulgaris L.) cv. PDR14.
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Abstraktní
Using five different steps, beta-Galactosidase has been purified from kidney beans to apparent electrophoretic homogeneity with approximately 90-fold purification with a specific activity of 281 units mg-1 protein. A single band was observed in native PAGE. Activity staining of the native gel with 5-bromo 4-chloro 3-indoxyl beta-D-galactopyranoside (X-Gal) at pH 4.0 also produced a single band. Analytical gel filtration in Superdex G-75 revealed the molecular mass of the native protein to be approximately 75 kD. 10% SDS-PAGE under reducing conditions showed two subunits of molecular masses, 45 and 30 kD, respectively. Hence, beta-galactosidase from kidney beans is a heterodimer. A typical protein profile with lambda max at 280 nm was observed and A280/A260 ratio was 1.52. The N-terminal sequence of the 45 kD band showed 86% sequence homology with an Arabidopsis thaliana and 85% with Lycopersicon esculentum putative beta-galactosidase sequences. The Electrospray Mass Spectrometric analysis of this band also revealed a peptide fragment that had 90% sequence homology with an Arabidopsis thaliana putative beta-galactosidase sequence. The N-terminal sequencing of the 30 kD band as well as mass spectrometric analysis both by MALDI-TOF and ES MS revealed certain sequences that matched with phytohemagglutinin of kidney beans. The optimum pH of the enzyme was 4.0 and it hydrolysed o- and p-nitrophenyl beta-D galactopyranoside with a Km value of 0.63 mmol/L and 0.74 mmol/L, respectively. The energy of activation calculated from the Arrhenius equation was 14.8 kcal/mol enzyme site. The enzyme was found to be comparatively thermostable showing maximum activity at 67 degrees C. Thermal denaturation of the enzyme at 65 degrees C obeys single exponential decay with first order-rate constant 0.105 min-1. Galactose, a hydrolytic product of this enzyme was a competitive inhibitor with a Ki of 2.7 mmol/L.