RESUMEN
Three isoforms of starch synthase (SS) were shown to be present in soluble potato tuber extracts by activity staining after native gel electrophoresis. A cDNA encoding SSI from rice was used as a probe to clone a corresponding cDNA from potato. The deduced amino acid sequence identified the protein as an SS from potato with an M(r) of 70.6 kDa for the immature enzyme including its transit peptide. This novel isoform was designated SSI. An analysis of the expression pattern of the gene indicated that SSI is predominantly expressed in sink and source leaves, and, to a lower extent in tubers. In several independent transgenic potato lines, where the expression of SSI was repressed using the antisense approach, the activity of a specific SS isoform was reduced to non-detectable levels as determined through activity staining after native gel electrophoresis. The reduction in the amount of this isoform of SS did not lead to any detectable changes in starch structure, probably due to the fact that this isoform only represents a minor activity in potato tubers.
Asunto(s)
Solanum tuberosum/genética , Almidón Sintasa/genética , Secuencia de Aminoácidos , Clonación Molecular , ADN Complementario , Datos de Secuencia Molecular , Hojas de la Planta/enzimología , Homología de Secuencia de Aminoácido , Solanum tuberosum/enzimologíaRESUMEN
Three isoforms of starch synthase were shown to be present in soluble potato tuber extracts by activity staining after native gel electrophoresis. An antibody directed against a domain conserved in starch synthases was used to clone a cDNA for one of these isoforms by screening a tuber-specific expression library. A partial cDNA of 2.6 kbp was obtained and used to isolate a full-length cDNA of 4167 bp. The deduced amino acid sequence identifies the protein as a novel type of starch synthase from potato with a molecular mass of 139.2 kDa for the immature enzyme including its transit peptide. This novel isoform was designated SS III. An analysis of the expression pattern of the gene indicates that SS III is equally expressed in tubers of different developmental stages as well as in sink and source leaves. In several independent transgenic potato lines, where the expression of SS III was repressed using the antisense approach, the activity of a specific starch synthase isoform was reduced to non-detectable levels as determined through activity staining after native gel electrophoresis. The reduction of this isoform of starch synthase leads to the synthesis of a structurally modified starch in the transgenic plants: there is a drastic change in granule morphology and an increased level of covalently linked phosphate.