Rice sucrose-phosphate synthase: Identification of an isoform specific for heterotrophic tissues with distinct metabolite regulation from the mature leaf enzyme

Abstract

Immunohistological analyses for rice (Oryza sativa) sucrose-phosphate synthase (SPS, UDP-glucose d-fructose-6-phosphate-2-glucosyltransferase, EC 2.4.1.14) show that the protein is differently localized in photosynthetic and etiolated leaves. Very little is known about SPS regulation in heterotrophic tissues; therefore, we studied the biochemical properties of the enzyme from etiolated seedlings and embryo. Two SPS forms (SPS-1 and SPS-2) were partially purified from etiolated seedlings. The effects of Glc-6-P (activator) and Pi (inhibitor) on SPS activities allowed us to differentiate the two forms. SPS-1 showed high sensitivity to Pi which also strongly decreased enzyme activation by Glc-6-P. SPS-2 was highly activated by Glc-6-P and showed low sensitivity to Pi. In vitro alkaline phosphatase treatment suggested that SPS-1 could be regulated as leaf SPS in darkness and that SPS-2 is present in a dephosphorylated state or is not regulated by protein phosphorylation. The relative MM value (116 kDa) estimated for both SPS forms in SDS-PAGE is identical to the rice leaf SPS polypeptide. Taken together, these data led us to conclude that SPS-2 is an enzyme form only present in non-photosynthetic tissues.