Circular dichroism and the conformational properties of soybean β-amylase

Abstract

The conformational properties of soybean β-amylase were investigated by the circular dichroism probe and measurement of enzyme activity. The enzyme exhibited a positive circular dichroism band at 192 nm, a negative band at 222 nm, and a shoulder near 210 nm. Analysis of the spectrum in the far ultraviolet zone indicated the presence of approximately 30% of α helix and 5–10% of β-pleated sheet, the rest of the polypeptide main chain possessing aperiodic structure. In the near ultraviolet reagion, the enzyme protein showed at least six positive peaks at 259, 265, 273, 281, 292, and 297 nm. The positive bands at 292 and 297 nm remained unaltered on acetylation of the enzyme by N-acetylimidazole and were assigned to tryptophanyl chromophores. These bands were affected in intensity in the presence of maltose or cycloheptaamylose, which indicates that some tryptophan residues are situated at the binding sites. The native conformation of soybean β-amylase was found to be sensitive to pH variation (below pH 5 and above pH 10), sodium dodecyl sulfate, guanidine hydrochloride, and heating to 50–55 °C. Complete disorganization of the secondary structure was attained by 6 m guanidine hydrochloride. Sodium dodecyl sulfate was effective in disturbing the tertiary structure of the enzyme but did not affect significantly the secondary structure. Enzymatic inactivation was paralleled by the decrease of circular dichroism bands in the near ultraviolet region as produced by the denaturants. It is concluded that the uniquely folded structure of the enzyme contains some less rigid domains and a rigid core stabilized by hydrophobic interactions, electrostatic interactions, and hydrogen bonds.