Project description:Overexpression of miR164b and 172a (vegetative apex)

Project description:HB21 is a homeodomain leucine zipper transcription factor involved in the establishment of bud axillary dormancy. In this work we have characterized the role of HB21 in the control of the inflorescence arrest at the end of flowering. HB21, together with HB40 and HB53, are upregulated in the inflorescence apex at the end of the flowering phase promoting the floral bud arrest associated with the process. We also show that ABA accumulation occurs in the inflorescence apex at the end of flowering in physiological conditions, and that this accumulation depends on HB genes. Our work has allowed us to propose a physiological role of ABA in the control of floral bud arrest at the end of flowering

Project description:Plants grow continuously and undergo numerous changes in their vegetative morphology and physiology during their life span. The molecular basis of these changes is largely unknown. To provide a more comprehensive picture of shoot development in Arabidopsis, microarray analysis was used to profile the mRNA content of shoot apices of different ages, as well as leaf primordia and fully-expanded leaves from 6 different positions on the shoot, in early-flowering and late-flowering genotypes. This extensive dataset provides a new and unexpectedly complex picture of shoot development in Arabidopsis. At any given time, the pattern of gene expression is different in every leaf on the shoot, and reflects the activity at least 6 developmental programs. Three of these are specific to individual leaves (leaf maturation, leaf aging, leaf senescence), two occur at the level of the shoot apex (vegetative phase change, floral induction), and one involves the entire shoot (shoot aging). Our results demonstrate that vegetative development is a much more dynamic process that previously imagined, and provide new insights into the underlying mechanism of this process.

Project description:SOL2 mutation affect gene expresstion at root apex

Project description:Inducible overexpression of STM by AlcR / AlcA system. Plants harboring 35S::AlcR/AlcA::GOI (GUS control, STM and STM-VP16)constructs were grown in continous light for 12 days and induced with 1% Ethanol. After 12h of EtOH treatment, seedlings were dissected and RNA was processed from the shoot apex and young leaves. Affymetrix Ath1 arrays were hybridized in duplicates from each experiment.

Project description:Orchestration of Floral Initiation by APETALA1

Project description:Transcriptome analysis of somatic embryogenesis initiated from the Arabidopsis shoot apex

Project description:Developmental dynamics of floral gene regulation [ChIP-Seq]

Project description:Many flowering plants attract pollinators by offering a reward of floral nectar. Remarkably, the molecular events involved in the development of nectaries, the organs that produce nectar, as well as the synthesis and secretion of nectar itself, are poorly understood. Indeed, to date, no genes have been shown to directly affect the de novo production or quality of floral nectar. To address this gap in knowledge, the ATH1 Affymetrix GeneChip array was used to systematically investigate the Arabidopsis nectary transcriptome to identify genes and pathways potentially involved in nectar production. In this study, we identified a large number of genes differentially expressed between secretory lateral nectaries and non-secretory median nectary tissues, as well as between mature lateral nectaries (post-anthessis) and immature lateral nectary tissue (pre-anthesis).

Project description:Transcript profiling of auxin/cytokinin crosstalk in the Arabidopsis primary root apex