Characterisation and subunit structures of the vicilin storage proteins of pea (Pisum sativum L.).

Investigations of the vicilin fraction of the storage proteins of pea (Pisum sativum L.) have shown that its major components are a number of protein species of Mr 170 000. Convicilin (Mr 280 000, composed of 71 000-Mr subunits) is a separable component of this fraction. The vicilin proteins are composed principally of approximately equal to 50 000-Mr polypeptides, but also contain a number of smaller polypeptides. The sub-unit polypeptide composition of vicilin changes during seed development quantitatively and qualitatively. Vicilin sub-units have been shown to be synthesised as polypeptides of Mr approximately equal to 50 000 by means of pulse-labelling experiments in vivo, and synthesis of vicilin in vitro directed by mRNA, polysomes and microsomes extracted from pea cotyledons in cell-free translation systems. Polypeptides then undergo two distinct types of proteolytic modification: (a) co-translational removal of a small polypeptide (Mr less than 1000); (b) 'nicking' of polypeptide chains in assembled vicilin molecules, which occurs more than 4 h after their initial synthesis. The basic structure of the vicilin molecule is thus a multimer, possibly a trimer, of approximately equal to 50 000-Mr subunits. The heterogeneity of the initially synthesised 50 000-Mr subunits accounts not only for the several different 50 000-Mr polypeptides found in vicilin, but also for the range of minor polypeptides, since the 'nicking' points will differ among subunits. It also accounts for the observed partial separation of vicilin into different molecular species, since different subunit combinations will give rise to molecules with different properties. Vicilin is also glycosylated and this is a source of further variation.