Purification of a Processing Enzyme (VmPE-1) that is Involved in Post-Translational Processing of a Plant Cysteine Endopeptidase (SH-EP)

Abstract

A cysteine endopeptidase, designated SH-EP, occurs in the cotyledons of germinated seeds of Vigna mungo and acts to degrade the seed storage protein in protein storage vacuoles. SH-EP is synthesized on membrane-bound ribosomes as an inactive 45-kDa precursor, which is cotranslationally processed to a 43-kDa intermediate through cleavage of the signal sequence; the 43-kDa intermediate of SH-EP is further processed to the 33-kDa mature enzyme via 39-kDa and 36-kDa intermediates [Mitsuhashi, W. & Minamikawa, T. (1989) Plant Physiol. 89, 274-279]. The present in vitro processing experiments indicated that at least two processing enzymes, designated VmPE-1 and VmPE-2 (V. mungo processing enzymes 1 and 2), were involved in post-translational processing of SH-EP in cotyledons of V. mungo seedlings. VmPE-1 was purified from the cotyledons as a protease that was involved in the processing of the 43-kDa intermediate to the 36-kDa intermediate. The enzyme has a molecular mass of 33 kDa as estimated by SDS/polyacrylamide gel electrophoresis, and showed high similarity to the jackbean asparaginyl endopeptidase in terms of the primary structure and substrate specificity. We discuss the function of VmPE-1 in the processing of SH-EP and related proteases in the cotyledons of germinated seeds.