Tuber-specific Cytosolic Expression of a Bacterial Phosphoglucomutase in Potato (Solanum tuberosum L.) Dramatically Alters Carbon Partitioning

doi:10.1093/pcp/pci058

Plant and Cell Physiology Advance Access originally published online on February 2, 2005
Plant and Cell Physiology 2005 46(4):588-597; doi:10.1093/pcp/pci058

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Tuber-specific Cytosolic Expression of a Bacterial Phosphoglucomutase in Potato (Solanum tuberosum L.) Dramatically Alters Carbon Partitioning

Anna Lytovchenko, Nicolas Schauer, Lothar Willmitzer and Alisdair R. Fernie¹

Max-Planck-Institut für Molekulare Pflanzenphysiologie, Am Mühlenberg 1, D-14476 Golm, Germany

¹ Corresponding author: E-mail, fernie{at}mpimp-golm.mpg.de; Fax, +49-331-5678250.

Constitutive antisense inhibition of the cytosolic isoform ofphosphoglucomutase in the potato (Solanum tuberosum L.) resultsin restriction of photosynthesis, growth inhibition and modifiedtuber morphology, and a severe restriction of tuber starch synthesis.Here we describe the consequences of the tuber-specific expressionof an Escherichia coli phosphoglucomutase in the cytosol. Analysisof [¹⁴C]glucose metabolism by tuber discs isolated from wildtype and transformants revealed that the rates of sucrose andstarch synthesis were unaltered but that the rate of glycolysiswas depressed in the transgenics. The transformant tubers alsocontained dramatically reduced amino acid content and significantlyhigher levels of ADP, but were characterized by elevated levelsof Krebs cycle intermediates and an unaltered rate of respiration.In addition to these metabolic consequences of the overexpressionof the E. coli enzyme, we observed morphological changes intubers, with the transformants having a smaller number of largertubers which exhibited delayed rates of sprouting with respectto the wild type. These results are discussed with respect tocurrent models of the regulation of central plant metabolismand tuber dormancy.

Received August 24, 2004; Accepted January 15, 2005
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