Publikationen von A. Schlereth

Siahpoosh, M. R., Sanchez, D. H., Schlereth, A., Scofield, G. N., Furbank, R. T., van Dongen, J. T. & Kopka, J. Modification of OsSUT1 gene expression modulates the salt response of rice Oryza sativa cv. Taipei 309. Plant Science 182, 101–111 (2012).

Graf, A., Schlereth, A., Stitt, M. & Smith, A. M. Circadian control of carbohydrate availability for growth in Arabidopsis plants at night. Proceedings of the National Academy of Sciences of the United States of America 107, 9458–9463 (2010).

Madrid, E., Gil, J., Rubiales, D., Krajinski, F., Schlereth, A. & Millan, T. Transcription factor profiling leading to the identification of putative transcription factors involved in the Medicago truncatula-Uromyces striatus interaction. Theoretical and Applied Genetics 121, 1311–1321 (2010).

Lippold, F., Sanchez, D. H., Musialak-Lange, M., Schlereth, A., Scheible, W.-R., Hincha, D. K. & Udvardi, M. K. AtMyb41 Regulates Transcriptional and Metabolic Responses to Osmotic Stress in Arabidopsis. Plant Physiology 149, 1761–1772 (2009).

Bieniawska, Z., Espinoza, C., Schlereth, A., Sulpice, R., Hincha, D. K. & Hannah, M. A. Disruption of the Arabidopsis circadian clock is responsible for extensive variation in the cold-responsive transcriptome. Plant Physiology 147, 263–279 (2008).

Verdier, J., Kakar, K., Gallardo, K., Le Signor, C., Aubert, G., Schlereth, A., Town, C. D., Udvardi, M. K. & Thompson, R. D. Gene expression profiling of M-truncatula transcription factors identifies putative regulators of grain legume seed filling. Plant Molecular Biology 67, 567–580 (2008).

Hernandez, G., Ramirez, M., Valdes-Lopez, O., Tesfaye, M., Graham, M. A., Czechowski, T., Schlereth, A., Wandrey, M., Erban, A., Cheung, F., Wu, H. C., Lara, M., Town, C. D., Kopka, J., Udvardi, M. K. & Vance, C. P. Phosphorus stress in common bean: Root transcript and metabolic responses. Plant Physiology 144, 752–767 (2007).

Sulpice, R., Ishihara, H., Schlereth, A., Cawthray, G. R., Encke, B., Giavalisco, P., Ivakov, A., Arrivault, S., Jost, R., Krohn, N., Kuo, J., Laliberte, E., Pearse, S. J., Raven, J. A., Scheible, W.-R., Teste, F., Veneklaas, E. J., Stitt, M. & Lambers, H. Low levels of ribosomal RNA partly account for the very high photosynthetic phosphorus-use efficiency of Proteaceae species. Plant, Cell and Environment 36, 1276–1298 (2013).