The mechanism and regulation of seed dormancy and germination

Seed dormancy is an important adaptive trait that, together with flowering time, is a primary component of the different life history strategies of plants. Dormancy can be considered as a mechanism by which growth and development are arrested, despite the presence of favorable environmental conditions. Specific environmental and developmental triggers can overcome this arrest. These environmental cues can act during seed development on the mother plant, during seed storage (after-ripening) and in imbibed mature seeds (which may lead to germination of non-dormant seeds). We are interested to identify genes and pathways that control seed dormancy in natural conditions.

Our approach:

We study seed dormancy and germination using variation that occurs in nature by means of different accessions of Arabidopsis thaliana. Genetics and physiology have shown the important role of the plant hormones abscisic acid and gibberellin in the regulation of dormancy and germination. The use of quantitative genetics and mutant approaches allows the further genetic dissection of these traits and the identification of thus far unknown components. Molecular biology and especially expression studies, transcriptome and proteome analysis, are powerful tools for the analysis of seed dormancy and germination. In addition, we employ a ‘physiological genetical genomics’ and (signaling) networks approach to further integrate information from different levels of complexity of the seeds. We preferentially use Arabidopsis thaliana because of the molecular genetic resources available for this species.