Refine
Year of publication
Is part of the Bibliography
- yes (44)
Keywords
Institute
- Institut für Biochemie und Biologie (44) (remove)
Novel aspects of symbiotic nitrogen fixation uncovered by transcript profiling with cDNA arrays
(2002)
Methodik der funktionellen Genomanalyse : wie mit Mikroarrays die Aktivität vieler Gene erfasst wird
(2002)
Application of metabolomics to plant genotype discrimination using statistics and machine learning
(2003)
Stomatal cell biology
(2003)
The nuclear SHL protein is composed of a N-terminal BAH domain and a C-terminal PHD finger. Both domains are found in transcriptional regulators and chromatin-modifying proteins. Arabidopsis plants over-expressing SHL showed earlier flowering and senescence phenotype. To identify SHL regulated genes, expression profiles of 35S::SHL plants were established with Affymetrix ATH1 microarrays. About 130 genes showed reduced transcript levels, and about 45 genes showed increased transcript levels in 35S:: SHL plants. The up-regulated genes included AGL20 and AGL9, which most likely cause the early flowering phenotype of 35S:: SHL plants. Late-flowering SHL-antisense lines showed reduced AGL20 mRNA levels, suggesting that AGL20 gene expression depends on the SHL protein. The stronger expression of senescence- and defence-related genes (such as DIN2, DIN11 and PR-1) is in line with the early senescence phenotype of SHL-over- expressing plants. SHL-down-regulated genes included stress response genes and the PSR3.2 gene (encoding a beta- glucosidase). SHL over-expression did not alter the tissue specificity of PSR3.2 gene expression, but resulted in reduced transcript levels in both shoots and roots. Plants with glucocorticoid-inducible SHL over-expression were established and used for expression profiling as well. A subset of genes was identified, which showed consistent changes in the inducible system and in plants with constitutive SHL over-expression