Isolation, characterization, and expression analysis of starch synthase IIa cDNA from wheat (<i>Triticum aestivum</i> L.)

Abstract

We characterized three near-full-length putative homoeologous cDNA (Ss2a-1, Ss2a-2, and Ss2a-3) in wheat endosperm most similar to the maize zSSIIa. Polypeptide sequences deduced from three Ss2a cDNA clones share a 95% overall sequence similarity, and may thus have similar biochemical properties and may make identical contributions to starch biosynthesis in wheat endosperm. The accumulation of RNA transcripts corresponding to three Ss2a genes in developing endosperm varies among three cultivars studied, but usually peaks in young endosperm at about 10 days post anthesis (DPA). The polyclonal antibody for the SSIIa-1 recombinant protein strongly reacted to three previously identified granule-bound starch synthases of 100 to 115 kDa. The polyclonal antibody for the granule-bound starch synthases strongly reacted to the SSIIa-1 recombinant protein. Sequences of the N-terminal and an internal peptide of these three granule-bound starch synthases match well with those of three predicted mature SSIIa polypeptides. These granule-bound starch synthases may therefore be SSIIa polypeptides. The antibodies also recognized a group of three polypeptides with the same gel mobility as the three granule-bound starch synthases, a polypeptide of 90 kDa, and a group of three polypeptides of about 80 to 82 kDa. Thus, the wheat SSIIa may exist in several functional forms in the stroma of amyloplasts.