Project description:Polyploidization is one of the effective ways to improve plant height and yield of rice (Oryza sativa L.). However, the molecular mechanism of regulation is not yet fully understood. Here, we investigated the agronomic traits of diploid (Balilla-2x) and tetraploid (Balilla-4x) of japonica rice variety Balilla. Compared with Balilla-2x, Balilla-4x exhibited significantly increased plant height, spike length and yield per plant. RNA-seq analysis of the leaves of Balilla-2x and Balilla-4x was performed and the results showed that the expression levels of yield related genes (e.g., STH1, OsYUC9, and OsDEP1) were significantly upregulated in Balilla-4x rice plants, these genes are related to plant height and panicle development. These results indicated that polyploidization changed the expression of genes related to agronomic traits such as plant height and spike length, thereby increasing rice yield. This study provides a further basis for understanding the yield of rice after polyploidization, and can serve as a new theoretical reference for breeding high-yielding rice varieties achieved.

Project description:Polyploidization as the consequence of 2n gamete formation is a prominent mechanism in plant evolution. Studying its effects on the genome and its expression has both basic and applied interest. We crossed two diploid (2n=2x=16) M. sativa plants, a subsp. falcata seed parent and a coerulea x falcata pollen parent that produce a mixture of n and 2n eggs and pollen, respectively. Such cross produced full-sib diploid and tetraploid (2n=4x=32) progenies, the latter being the result of bilateral sexual polyploidization (BSP). These unique materials allowed us to investigate the effects of BSP, and separating the effect of intraspecific hybridization from those of polyploidization by comparing 2x with 4x full sib progeny plants. SSR marker segregation demonstrated tetrasomic inheritance for all chromosomes but one, demonstrating that these neotetraploids are true autotetraploids. BSP brought about increased biomass, earlier flowering, higher seed set and weight, larger leaves with larger cells. Microarray analyses with M. truncatula gene chips showed that several hundred genes, related to diverse metabolic functions, changed their expression level as a consequence of polyploidization. In addition, cytosine methylation increased in 2x but not in 4x hybrids. Our results indicate that sexual polyploidization induce significant transcriptional novelty, possibly mediated in part by DNA methylation, and phenotypic novelty that can be at the base of improved adaptation and reproductive success of tetraploid M. sativa with respect to its diploid progenitor. These polyploidy-induced changes may have promoted the adoption of tetraploid alfalfa in agriculture.

Project description:Polyploidization as the consequence of 2n gamete formation is a prominent mechanism in plant evolution. Studying its effects on the genome and its expression has both basic and applied interest. We crossed two diploid (2n=2x=16) M. sativa plants, a subsp. falcata seed parent and a coerulea x falcata pollen parent that produce a mixture of n and 2n eggs and pollen, respectively. Such cross produced full-sib diploid and tetraploid (2n=4x=32) progenies, the latter being the result of bilateral sexual polyploidization (BSP). These unique materials allowed us to investigate the effects of BSP, and separating the effect of intraspecific hybridization from those of polyploidization by comparing 2x with 4x full sib progeny plants. SSR marker segregation demonstrated tetrasomic inheritance for all chromosomes but one, demonstrating that these neotetraploids are true autotetraploids. BSP brought about increased biomass, earlier flowering, higher seed set and weight, larger leaves with larger cells. Microarray analyses with M. truncatula gene chips showed that several hundred genes, related to diverse metabolic functions, changed their expression level as a consequence of polyploidization. In addition, cytosine methylation increased in 2x but not in 4x hybrids. Our results indicate that sexual polyploidization induce significant transcriptional novelty, possibly mediated in part by DNA methylation, and phenotypic novelty that can be at the base of improved adaptation and reproductive success of tetraploid M. sativa with respect to its diploid progenitor. These polyploidy-induced changes may have promoted the adoption of tetraploid alfalfa in agriculture. Gene expression analysis of leaves at the vegetative stage of two Medicago sativa genotypes (PG-F9 and 12P) compared with three F1 diploid lines and three F1 tetraploid lines originating from crossing PG-F9 x 12P. Three biological replicates were taken for each sample, resulting in a total of twenty-four samples.

Project description:Polyploidization, the increase in genome copies, is considered a major driving force for speciation. We have recently provided the first direct in planta evidence for polyspermy induced polyploidization. Capitalizing on a novel sco1-based polyspermy assay, we here show that polyspermy can selectively polyploidize the egg cell, while rendering the genome size of the ploidy-sensitive central cell unaffected. This unprecedented result indicates that polyspermy can bypass the triploid block, which is an established postzygotic polyploidization barrier. In fact, we here show that most polyspermy-derived seeds are insensitive to the triploid block suppressor admetos. The robustness of polyspermy-derived plants is evidenced by the first transcript profiling of triparental plants and our observation that these idiosyncratic organisms segregate tetraploid offspring within a single generation. Polyspermy-derived triparental plants are thus comparable to triploids recovered from interploidy crosses. Our results expand current polyploidization concepts and have important implications for plant breeding.

Project description:This study was aimed to determine roles of individual myosins in organelle trafficking in plant cell. Expression of Myosin XI-K was suppressed in transgenic A.thaliana by using RNAi approach. To ensure that the RNAi-induced gene silencing was specific and did not affect expression of other myosins, a microarray analysis was performed. Experiment Overall Design: Total RNA was purified from A.thaliana plants transformed with an inverted repeat construct harbouring a sequence derived from Myosin XI-K ORF. 3 independent groups of plants were used for comparison of the expression profiles of 17 myosin RNAs to a control group comprised of plants constitutively expressing GUS ORF as a transgene.

Project description:pc_arcole - arcole / pgpr - What are the genes implicated in the efficiency of nitrogenous nutrition when A.thaliana is inoculated with a PGPR (Plant Growth Promoting Rhizobacteria)? - A.thaliana seeds germinated and grew during ten days until they were transfered in 6 different media: 0,5 mM nitrate with PGPR (Plant Growth Promoting Rhizobacteria), 0,5mM nitrate without PGPR, 2mM nitrate with PGPR, 2mM nitrate without PGPR, 20 mM nitrate with PGPR, 20 mM nitrate without PGPR. Young plantlets grew 7 days in these new mediums. Shoots are collected in eppendorf.

Project description:rs10-05_tcv - gene profiling of turnip crinkle virus (tcv) sirna - 1. What are the genes (including miRNA precursors) that are differentially regulated in a set of viral siRNA in A.thaliana? 2. There are also differentially regulated during an evolution and a fitness process? - This is a plant evolution project on TCV in which, the biological questions are: 1. What are the genes (including miRNA precursors) that are differentially regulated in Col0 and dcl234 mutant in wt conditions? 2. What are the genes (including miRNA precursors) that are differentially regulated in a set of viral siRNA in Col0 and dcl234 mutant? 3. There are also differentially regulated between the plant generations 1 (G1) and 11 (G11)? 4. What are the genes (including miRNA precursors) that are differentially regulated in a set of viral siRNA after fitness experiment? 24 dye-swap - gene knock out,treated vs untreated comparison

Project description:Regeneration is common in plants and transcription factors greatly contribute to this versatility of flowering plants; however, the evolution of this capability has hardly been explored. The callus can be induced from an intact plant rather than an explant in the water fern Ceratopteris richardii and the employed media are very different. The callus was verified having resulted in indirect de novo shoot organogenesis (IDNSO). Hundreds of genes were differentially expressed between the proliferating and the differentiating callus, hinting at significant changes in photosynthesis and hormone response. Many transcription factors were also differentially expressed, providing cues on how the callus proliferated and differentiated. STM-, ANT-, and ESE3-like transcription factor were simultaneously expressed in the vascular-initial-like cells in the callus, thus identifying a key tissue in callus differentiation; furthermore, they might have undergone subfunctionalization or neofunctionalization during evolution. Therefore, IDNSO was considered both conserved and diversified throughout vascular plants.

Project description:rs10-05_tcv - gene profiling of turnip crinkle virus (tcv) sirna - 1. What are the genes (including miRNA precursors) that are differentially regulated in a set of viral siRNA in A.thaliana? 2. There are also differentially regulated during an evolution and a fitness process? - This is a plant evolution project on TCV in which, the biological questions are: 1. What are the genes (including miRNA precursors) that are differentially regulated in Col0 and dcl234 mutant in wt conditions? 2. What are the genes (including miRNA precursors) that are differentially regulated in a set of viral siRNA in Col0 and dcl234 mutant? 3. There are also differentially regulated between the plant generations 1 (G1) and 11 (G11)? 4. What are the genes (including miRNA precursors) that are differentially regulated in a set of viral siRNA after fitness experiment?

Project description:Plants balance their conflicting requirements for growth and stress tolerance via sophisticated pathways and unique genes that control responses to the external environment. We have identified a novel plant-specific gene, COST1(Constitutively Stressed 1), that affects plant growth and negatively regulates drought resistance by manipulating the autophagy pathway. An Arabidopsis cost1 mutant has decreased growth and increased drought tolerance, together with constitutive autophagy and increased expression of drought-response genes. The COST1 protein is degraded upon plant dehydration, and this degradation is blocked by treatment with inhibitors of the 26S proteasome or autophagy pathways. The cost1 mutant drought resistance is dependent on an active autophagy pathway, indicating that COST1 acts through manipulation of autophagy. COST1 co-localizes to autophagosomes with the autophagosome marker ATG8e and the autophagy adaptor NBR1, and physically interacts with ATG8e, indicating a pivotal role in direct regulation of autophagy. We propose a model in which COST1 represses autophagy under optimal conditions, thus allowing plant growth. During drought, COST1 is degraded, enabling activation of autophagy and suppressing growth to enhance drought tolerance.