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Journal Article (77)
61.
Journal Article
19 (2), pp. 119 - 129 (1999)
Decreased expression of sucrose phosphate synthase strongly inhibits the water stress-induced synthesis of sucrose in growing potato tubers. Plant Journal 62.
Journal Article
209 (3), pp. 314 - 323 (1999)
Orotate leads to a specific increase in uridine nucleotide levels and a stimulation of sucrose degradation and starch synthesis in discs from growing potato tubers. Planta 63.
Journal Article
22 (1), pp. 71 - 79 (1999)
Induction of the activity of glycolytic enzymes correlates with enhanced hydrolysis of sucrose in the cytosol of transgenic potato tubers. Plant Cell and Environment 64.
Journal Article
208 (2), pp. 227 - 238 (1999)
Tuber-specific expression of a yeast invertase and a bacterial glucokinase in potato leads to an activation of sucrose phosphate synthase and the creation of a sucrose futile cycle. Planta 65.
Journal Article
117 (4), pp. 1307 - 1316 (1998)
High-temperature perturbation of starch synthesis is attributable to inhibition of ADP-glucose pyrophosphorylase by decreased levels of glycerate-3-phosphate in growing potato tubers. Plant Physiology 66.
Journal Article
205 (3), pp. 428 - 437 (1998)
Overexpression of pyrophosphatase leads to increased sucrose degradation and starch synthesis, increased activities of enzymes for sucrose-starch interconversions, and increased levels of nucleotides in growing potato tubers. Planta 67.
Journal Article
206 (2), pp. 234 - 244 (1998)
Metabolism in slices from growing potato tubers responds differently to addition of sucrose and glucose. Planta 68.
Journal Article
12 (19), pp. 3059 - 3073 (1998)
Pleiotropic control of glucose and hormone responses by PRL1, a nuclear WD protein, in Arabidopsis. Genes & Development 69.
Journal Article
15 (1), pp. 109 - 118 (1998)
Combined expression of glucokinase and invertase in potato tubers leads to a dramatic reduction in starch accumulation and a stimulation of glycolysis. Plant Journal 70.
Journal Article
201 (4), pp. 502 - 518 (1997)
Regulation of sucrose and starch metabolism in potato tubers in response to short-term water deficit. Planta 71.
Journal Article
19 (1), pp. 43 - 55 (1996)
Phloem-specific expression of pyrophosphatase inhibits long-distance transport of carbohydrates and amino acids in tobacco plants. Plant Cell and Environment 72.
Journal Article
7 (3), pp. 259 - 270 (1995)
Impaired Photoassimilate Partitioning Caused by Phloem-Specific Removal of Pyrophosphate Can Be Complemented by a Phloem-Specific Cytosolic Yeast-Derived Invertase in Transgenic Plants. Plant Cell 73.
Journal Article
193 (4), pp. 486 - 493 (1994)
When Growing Potato Tubers Are Detached from Their Mother Plant There Is a Rapid Inhibition of Starch Synthesis, Involving Inhibition of Adp-Glucose Pyrophosphorylase. Planta 74.
Journal Article
192 (4), pp. 480 - 488 (1994)
Sucrose-Phosphate Synthase Is Regulated Via Metabolites and Protein Phosphorylation in Potato Tubers, in a Manner Analogous to the Enzyme in Leaves. Planta 75.
Journal Article
190 (4), pp. 446 - 453 (1993)
Sucrose Is Metabolised by Sucrose Synthase and Glycolysis within the Phloem Complex of Ricinus-Communis L Seedlings. Planta 76.
Journal Article
185 (1), pp. 81 - 90 (1991)
A Futile Cycle of Sucrose Synthesis and Degradation Is Involved in Regulating Partitioning between Sucrose, Starch and Respiration in Cotyledons of Germinating Ricinus-Communis L Seedlings When Phloem Transport Is Inhibited. Planta 77.
Journal Article
185 (4), pp. 563 - 568 (1991)
Regulation of Carbon Partitioning between Sucrose and Nitrogen Assimilation in Cotyledons of Germinating Ricinus-Communis L Seedlings. Planta Book Chapter (6)
78.
Book Chapter
Conducting molecular biomarker discovery studies in plants. In: High Throughput Phenotyping in Plants, 10 (Ed. Normanly, J.). Humana Press Inc., Totowa, NJ, USA (2012)
79.
Book Chapter
Starch biosynthesis in the potato tuber. In: Food Biochemistry and Food Processing, pp. 253 - 270 (Eds. Hui, Y. H.; Corke, H.; DeLeyn, I.; Nip, W.-K.; Cross, N.). Blackwell Publ., Ames, IA, USA (2006)
80.
Book Chapter
Starch content in plant tissues. In: Plant Genetic Engineering: Improving the Nutritional & Therapeutic Qualities of Plants, pp. 1 - 29 (Ed. Jaiwal, P. K.). Studium Press LLC, Houston, TX, USA (2006)