Zeitschriftenartikel (6)

Haedrich, N., Hendriks, J. H., Koetting, O., Arrivault, S., Feil, R., Zeeman, S. C., Gibon, Y., Schulze, W. X., Stitt, M. & Lunn, J. E. Mutagenesis of cysteine 81 prevents dimerization of the APS1 subunit of ADP-glucose pyrophosphorylase and alters diurnal starch turnover in Arabidopsis thaliana leaves. Plant Journal 70, 231–242 (2012).
Lunn, J. E., Feil, R., Hendriks, J. H. M., Gibon, Y., Morcuende, R., Osuna, D., Scheible, W.-R., Carillo, P., Hajirezaei, M.-R. & Stitt, M. Sugar-induced increases in trehalose 6-phosphate are correlated with redox activation of ADPglucose pyrophosphorylase and higher rates of starch synthesis in Arabidopsis thaliana. Biochemical Journal 397, 139–148 (2006).
Gibon, Y., Blaesing, O. E., Hannemann, J., Carillo, P., Hoehne, M., Hendriks, J. H. M., Palacios, N., Cross, J., Selbig, J. & Stitt, M. A robot-based platform to measure multiple enzyme activities in Arabidopsis using a set of cycling assays: Comparison of changes of enzyme activities and transcript levels during diurnal cycles and in prolonged darkness. Plant Cell 16, 3304–3325 (2004).
Gibon, Y., Blaesing, O. E., Palacios-Rojas, N., Pankovic, D., Hendriks, J. H. M., Fisahn, J., Hoehne, M., Guenther, M. & Stitt, M. Adjustment of diurnal starch turnover to short days: depletion of sugar during the night leads to a temporary inhibition of carbohydrate utilization, accumulation of sugars and post-translational activation of ADP-glucose pyrophosphorylase in the following light period. Plant Journal 39, 847–862 (2004).
Hendriks, J. H. M., Kolbe, A., Gibon, Y., Stitt, M. & Geigenberger, P. ADP-glucose pyrophosphorylase is activated by posttranslational redox-modification in response to light and to sugars in leaves of Arabidopsis and other plant species. Plant Physiology 133, 838–849 (2003).
Tiessen, A., Hendriks, J. H. M., Stitt, M., Branscheid, A., Gibon, Y., Farre, E. M. & Geigenberger, P. Starch synthesis in potato tubers is regulated by post-translational redox modification of ADP-glucose pyrophosphorylase: A novel regulatory mechanism linking starch synthesis to the sucrose supply. Plant Cell 14, 2191–2213 (2002).
Zur Redakteursansicht