Project description:The seed germination in response to light shows natural variation in two accessions of Aethionema arabicum (Brassicaceae). One accession from Turkey (TUR) germinates well in darkness and light, while another closely related accession from Cyprus (CYP) germinates only in the dark. To understand the transcriptional differences between the two accession, we performed RNA-seq analysis from imbibed seeds, which were kept either in darkness or under light for 23 hours. Results provide the first transcriptional comparison from light-neutral (TUR) and light-sensivite (CYP) seeds kept in darkness or exposed to light.

Project description:Karrikins promote seed germination in Arabidopsis thaliana. Completion of germination (protrusion of the radicle) is not observed until ~72 h in dormant wildtype seed under these conditions. We used microarrays to examine karrikin-induced transcriptional changes after 24 h of imbibition. Transcriptional changes may indicate events leading to karrikin-induced germination or karrikin-specific markers. Primary dormant seed of wildtype (which can germinate and is promoted by KAR1) and ga1-3 (which cannot germinate, and is not promoted by KAR1) were imbibed on water-agar or 1 uM KAR1 in the light at 20 C and assayed for gene expression after 24 h. Three or four biological replicates per genotype/treatment.

Project description:Natural variation in activation of KAI2/HTL pathway promotes germination in the dark in Arabidopsis

Project description:au14-10_wd40 - effet of light on translatome of arabidopsis seeds during germination - Does light regulates germination via polysome association ? - At harvest seeds are dormant.They stay dormant if stored at -20°C.A.Th dormant seeds dont germinate at 25°C in darkness.Total RNA and polysomal RNA (polysomal fractions purified on sucrose gradients)were extracted from imbibed seeds for 20h at 22°C in darkness and light(3 biological replicates). Transcriptome and translatome are compared for light vs dark for 20h of imbibition. In silico comparison will allow to compare transcriptome and translatome for each type of sample.

Project description:Light inhibits the seed germination in the Cypriot accession (CYP) of Aethionema arabicum. Extended light illumination also induces a secondary seed dormancy that inhibits the germination even if the seeds were transferred back to darkness. A forward genetic screen identified rgl2 mutant, that show light inhibited germination, but fails to re-enter the secondary dormancy. This analysis aims to compare the seed transcriptome before or after the dormancy was established by light illumination (100 µmol/m2s; white light). One day light treatment (1dL) inhibits the germination but the seeds are not yet dormant. Seven day (7dL) long light treatment induces dormancy in the WT but not in the rgl2 mutant.

Project description:Transcriptome changes were investigated for Euphorbia esula (leafy spurge) seeds with a focus on the effect of constant and diurnal fluctuating temperature on dormancy and germination. Leafy spurge seeds do not germinate when incubated for 21 days at 20°C constant temperatures, but nearly 30% germinate after 21 days under fluctuating temperatures 20:30°C (16:8 h). Incubation at 20°C for 21 followed by 20:30°C resulted in approximately 63% germination in about 10 days. A cDNA microarray representing approximately 22,000 unique sequences was used to profile transcriptome changes.

Project description:Light inhibits the seed germination in the Cypriot accession (CYP) of Aethionema arabicum. Extended light illumination also induces a secondary seed dormancy that inhibits the germination even if the seeds were transferred back to darkness. This analysis aims to compare the seed transcriptome before or after the dormancy was established by light illumination (100 µmol/m2s; white light). One day light treatment (1dL) inhibits the germination but the seeds are not yet dormant. Seven day (7dL) or 14-day (14dL) long light treatment induces dormancy, and the seeds stay dormant after 7 dal-light plus 7 day-dark (7dL7dD) treatment. To understand the dormancy establishment, transcriptome was compared between non-dormant (1dL) and dormant (7dL, 14dL, 7dL7dD) seed samples.

Project description:Mycorrhizal fungi colonize orchid seed and induce the germination. This so-called symbiotic germination is a critical developmental process in the lifecycle of all orchids. However, the molecular changes taking place during the orchid seed symbiotic germination still remains largely unknown. To better understand the molecular mechanism of orchid seed germination, we performed comparative transcriptomic and proteomic analysis on Chinese traditional medicinal orchid plants, Dendrobium officinale to explore protein expression change at the different developmental stages between asymbiotic and symbiotic germination and identify the key proteins regulated symbiotic germination of orchid seeds. iTRAQ analysis from 8 samples identified 2256 plant proteins, of which, 308 proteins were differentially expressed across three developmental stages within asymbiotic or symbiotic accession and 229 proteins are differentially expressed in the symbiotic germination compared to asymbiotic germination. 32 proteins are co-upregulated in both proteomic and transcriptomic level for symbiotic germination compared to asymbiotic germination. Our results revealed that symbiotic germination of D. officinale seeds probably shares the common signal pathway with asymbiotic germination during the early germination stage.

Project description:The F-box protein MORE AXILLARY GROWTH 2 (MAX2) is a central component in the signaling cascade of strigolactones (SLs) as well as of the smoke derived karrikins (KARs) and the so far unknown endogenous KAI2 ligand (KL). The two groups of molecules are involved in overlapping and unique developmental processes, and signal-specific outcomes are attributed to perception by the paralogous α/β-hydrolases DWARF14 (D14) for SL and KARRIKIN INSENSITIVE 2/ HYPOSENSITIVE TO LIGHT (KAI2/HTL) for KAR/KL. Additionally, depending on which receptor is activated, specific members of the SUPPRESSOR OF MAX2 1 (SMAX1) – LIKE (SMXL) 6, 7, 8 clade control KAR/KL and SL responses respectively. As proteins that function in the same signal transduction pathway often occur in large protein complexes, we aimed at discovering new players of the MAX2, D14 and KAI2 protein network by tandem affinity purification using Arabidopsis cell cultures. When using MAX2 as a bait, various proteins were co-purified among which general components of the Skp1-Cullin-F-box complex and members of the CONSTITUTIVE PHOTOMORPHOGENIC 9 signalosome. Here, we report the identification of a novel interactor of MAX2, a type 5 serine/threonine protein phosphatase, designated PHYTOCHROME-ASSOCIATED PROTEIN PHOSPHATASE 5 (PAPP5). Quantitative affinity purification pointed at PAPP5 as being more present in KAI2 rather than D14 protein complexes. In agreement, mutant analysis suggests that PAPP5 modulates KAR/KL-dependent seed germination in suboptimal conditions and seedling development. Additionally, PAPP5 was found to dephosphorylate MAX2 in vivo independent of the synthetic strigolactone analog, rac-GR24. Together, by analyzing the protein complexes to which MAX2, D14 and KAI2 belong, we revealed a new MAX2 interactor that might act through dephosphorylating MAX2 to control mainly KAR/KL signaling.

Project description:To investigate global changes in gene expression during B. emersonii germination process, we constructed cDNA microarrays containing 3,563 putative unique genes. Analyses were carried out during germination induced under various environmental conditions. Microarray data revealed that 26% of them are differentially expressed during germination in nutrient medium, in at least one of the time points investigated. Over 500 genes are up regulated during the time course of germination under these conditions, most of them being related to cell growth, including genes involved in protein biosynthesis, DNA transcription, energetic metabolism, carbohydrate and oligopeptide transport, and cell cycle control. On the other hand, several transcripts stored in the zoospores are down regulated during germination in nutrient medium, such as genes involved in signal transduction, amino acid transport and chromosome organization. We also compared germination induced in the presence of nutrients with that triggered either by adenine or potassium ions in inorganic salt solution. Several genes involved in cell growth that are induced during germination in nutrient medium do not show increased expression when B. emersonii zoospores germinate in inorganic solution, indicating that nutrients exert a positive regulatory effect on the transcription of these genes.