Project description:Small RNAs constitute a new and unanticipated layer of gene regulation present in the three domains of life. In plants, all organs are ultimately derived from a few pluripotent stem cells localized in specialized structures called apical meristems. The development of meristems involves a coordinated balance between undifferentiated growth and differentiation, a phenomenon requiring a tight regulation of gene expression. We used in vitro cultured embryogenic calli as a model to investigate the roles of meristem-associated small RNAs. Using high-throughput sequencing, we sequenced 20 million short reads with size of 18-30nt from rice undifferentiated and differentiated calli. We confirmed 50 known microRNA families, representing one third of annotated rice microRNAs. Using a specific computational pipeline for plant microRNA identification, we identified 24 novel microRNA families. Among them, 53 microRNA or microRNA* sequences appear to vary in expression between differentiated and undifferentiated calli, suggesting a role in meristem development. Our analysis also revealed a new class of plant small RNAs derived from 5' or 3' ends of mature tRNA analogous to the tRFs in human cancer cell. We independently verified the expression of these small RNAs from 5' end of mature tRNA using qRT-PCR. Examination of 2 different small RNA expression profilings in 2 developmental stages of meristems.

Project description:Carotenoids have been demonstrated to be indispensable plant secondary metabolites that are involved in photosynthesis, antioxidation, and phytohormone biosynthesis. Carotenoids are likely involved in other biological functions that have yet to be discovered. In this study, we utilized genomic expression investigation to gain a deep insight into the carotenoid-related biological processes in the citrus calli overexpressing CrtB. Abortive ovule embryogenic calli from four citrus genotypes were used in this study. They were derived from Star Ruby grapefruit (C. paradise Macf.), Marsh grapefruit (C. paradise Macf.), and Sunburst mandarin [Citrus reticulata Blanco M-CM-^W (C. paradisi Macf. M-CM-^W C. reticulata)], designated as RB, M, and SBT, respectively. Engineered cell models (ECMs) were established by over-expressing 35S::CrtB (tpM-bM-^@M-^SrbcSM-bM-^@M-^SCrtB) [CrtB protein, phytoene synthase from Erwinia herbicola (now known as Pantoea agglomerans), containing a Pea rbcS transit peptide] in citrus embryogenic calli. Twenty-day-old calli were harvested and used for RNA extraction and hybridization on Affymetrix microarrays.

Project description:Agrobacterium tumefaciens-mediated genetic transformation has been routinely used in rice for more than a decade. However, the transformation efficiency of the indica rice variety is still unsatisfactory and much lower than that of japonica cultivars. Further improvement on the transformation efficiency lies in the genetic manipulation of the plant itself, which requires a better understanding of the underlying process accounting for the susceptibility of plant cells to Agrobacterium infection as well as the identification of plant genes involved in the transformation process. In order to investigate the related genes affecting the transformation efficiency of embryogenic calli of different rice cultivars, we used Affymetrix GeneChip® Rice Genome Array to measure the global gene expression profiling just before transformation and at four different time points after transformation (1 h, 6 h, 12 h, 24 h) in both japonica rice cultivar Nipponbare and indica rice cultivar Zhenshan 97.

Project description:The profiling was conducted with the Rice 3'-Tiling Microarray designed from 27,448 genes deposited at IRGSP, RAP1 database (http://rapdb.lab.nig.ac.jp). In this research, an array of 27,448 rice genes was used to elucidate the transcriptome of 7 tissues or organs of Oryza sativa L. cv. Dongjin including calli, regenerating calli, germinating seeds, leaves, roots, and flowers (before and after pollination) using a rice 3′ ORF tilling microarray. The ratio of standard deviation to the mean of microarray intensities was used to distinguish between organ-specific and constitutively expressed genes. Accordingly, the genes are classified into highly variable, variable, and constitutive groups. To isolate the organ-specific promoters, several genes were selected and validated in planta using reporter gene analysis. We found that the Os01g0702500, Os11g0211800, and Os01g0257300 promoters were active in the calli, germinating seeds, and roots, respectively. The Os08g0135500 promoter was shown to drive transgene expression in various organs of the mature flowers, such as the anther, lemma, and palea, whereas the Os03g0369100 promoter was only active in the anther. Lastly, the Os09g0553100 promoter induced high levels of reporter gene expression in all organs. The gene expression data from representative organs could put a frame work for large dataset collections and then subsequent profiling by subdivision of organ/tissues might be more efficient to find appropriate promoters. A total of 14 chips were used for microarray. Total RNAs were extracted from rice 7 tissues or organs of Oryza sativa L. cv. Dongjin including calli, regenerating calli, germinating seeds, leaves, roots, and flowers (before and after pollination. Experiments were duplicated.

Project description:Four days old rice calli were selected to grow 324h under spaceflight controls, 1g-flight controls and 1g-ground controls. We used microarrays to detail the global programme of gene expression underlying cellularisation and identified distinct classes of up-regulated genes during this process. Rice calli were selected at different treatment for RNA extraction and hybridization on Affymetrix microarrays. We sought to obtain the diff-genes that caused by the microgravity.

Project description:rs06-06_mirna - agrobacterium treatment - Time course : What are the genes (incuding microRNA precursors) that are differentially regulated upon flg22 treatment? miRNA : What are the genes (including miRNA precursors) that are differentially regulated in a set of microRNA mutants? siRNA : What are the genes (including miRNA precursors) that are differentially regulated in a set of siRNA mutants? - Col-0 plants were infected with wt Agrobacterium tumefaciens (strain A208) by stabbing the emerging stems. 18 days later, growing tumors were harvested as were the non-infected part of the stabbed-stem.In parallel, Col-0 seeds were germinated on Callus Induction Media (CIM) and 18 days later, calli were harvested. Keywords: normal vs disease comparison,organ comparison 2 dye-swap - CATMA arrays

Project description:Experiment 1<br> Gene profiling upon biotic stress treatment<br> Biological question : What are the genes (incuding microRNA precursors) that are differentially regulated upon flg22 treatment?<br> Experiment description : 14-day old seedlings (Col-0 and fls2 KO) treated with 10uM of flg22 (flagellin- derived peptide) over a one hour timecourse.<br> <br> Experiment 2<br> Gene profiling in microRNA mutants<br> Biological question : What are the genes (including miRNA precursors) that are differentially regulated in a set of microRNA mutants?<br> Experiment description : Ler, dcl1-9, hen1-1 and hasty were grown for 12-day on MS solid medium ,seedlings were then transferred in MS liquid medium and harvested 2 days after.<br> <br> Experiment 3<br> Gene profiling in siRNA mutants<br> Biological question : What are the genes (including miRNA precursors) that are differentially regulated in a set of siRNA mutants?<br> Experiment description : Col-0, dcl2-1, dcl3-1 and rdr2-1 were grown for 12-day on MS solid medium ,seedlings were then transferred in MS liquid medium and harvested 2 days after.<br> <br> Experiment 4<br> Gene profiling in Agrobacterium-induced tumors and auxin-induced calli.<br> Biological question : What are the genes (including miRNA precursors) that are differentially regulated in an Agrobacterium-induced tumors compared to auxin-induced calli?<br> Experiment description : Col-0 plants were infected with wt Agrobacterium tumefaciens (strain A208) by stabbing the emerging stems. 18 days later, growing tumors were harvested as were the non-infected part of the stabbed-stem.In parallel, Col-0 seeds were germinated on Callus Induction Media (CIM) and 18 days later, calli were harvested.<br> <br> Experiment 5<br> Gene profiling in tasiRNA mutants<br> Biological question : What are the genes (including miRNA precursors) that are differentially regulated in a set of tasiRNA mutants?<br> Experiment description : Col-0, dcl4-1, rdr6-1 were grown for 12-day on MS solid medium ,seedlings were then transferred in MS liquid medium and harvested 2 days after.<br> <br> Experiment 6<br> Gene profiling upon biotic stress treatment<br> Biological question : What are the genes (incuding microRNA precursors) that are differentially regulated upon flg22 treatment?<br> Experiment description : 14-day old seedlings (Col-0 and fls2 KO) treated with 10uM of flg22 (flagellin- derived peptide) over a one hour timecourse.<br> <br> <br>

Project description:Gene expression throughout the reproductive process in rice (Oryza sativa) beginning with primordia development through pollination/fertilization to zygote formation was analyzed. We analyzed 25 stages/organs of rice reproductive development including early microsporogenesis stages with 57,381 probe sets, and identified around 26,000 expressed probe sets in each stage. Fine dissection of 25 reproductive stages/organs combined with detailed microarray profiling revealed dramatic, coordinated and finely tuned changes in gene expression. Decrease of expressed genes in the pollen maturation process was observed in a similar way with Arabidopsis and maize. An almost equal number of ab initio predicted genes and cloned genes appeared or disappeared coordinated with developmental stage progression. A large number of organ-/stage-specific genes were identified; notably 2,593 probe sets for developing anther, including 932 probe sets corresponding to ab initio predicted genes. Analysis of cell cycle-related genes revealed that several CDKs, cyclins and components of SCF E3 ubiquitin ligase complexes were expressed specifically in reproductive organs. Cell wall biosynthesis or degradation protein genes and transcription factor genes expressed specifically in reproductive stages were also newly identified. Rice genes homologous to reproduction-related genes in other plants showed expression profiles both consistent and inconsistent with their predicted functions. The rice reproductive expression atlas is likely to be the deepest and most comprehensive dataset available, indispensable for unraveling functions of many specific genes in plant reproductive processes that have not yet been thoroughly analyzed. Keywords: developmental stage comparison, tissue comparison Regenerating calli on agar plate, young leaves and roots grown in a green house, shoots grown in growth chamber were collected as references of reproductive samples. Three or four biological replicates at each stage were analyzed with Affymetrix Rice Genome Array, and total number of samples in this series is 25.

Project description:MicroRNAs (miRNAs) are endogenous non-coding ~21 nucleotide (nt) RNAs that regulate gene expression at transcriptional and post-transcriptional levels in plants and animals. They play an important role in development, abiotic stress responses or pathogen responses. miRNAs with their related target genes have been widely studied in model plants?and increasing studies have been performed on some crops?however, the number of identified miRNAs in cotton was limited, and global identification of related targets through degradome sequencing has not been developed previously. In this study, we globally identified small RNAs and their related target genes during cotton somatic embryogenesis by the high throughput small RNA and degradome sequencing technology using fresh hypocotyls and EC (embryogenic calli) of Gossypium hirsutum YZ1. A total of 36 differentially expressed conserved miRNA families of which 19 miRNA families represented by 29 precursors and 25 novel miRNAs were identified, with star sequences of 20 known miRNAs and 2 novel miRNAs discovered. 234 genes in EC and 322 genes in CK were identified as targets of 23 and 30 known miRNA families, and 16 genes were found as targets of 8 novel miRNAs. The expression profiles of several miRNAs and their targets were verified by qRT-PCR and 5’RACE were further used to validate the sliced sites of the targets. Interestingly, four TAS3 D6 and D7 were also found in both degradome libaries which can perfectly match their precursors. The profiling of the miRNAs and their target genes provides more information about the regulatory network of miRNAs during somatic embryogenesis in cotton. small RNA and degradome sequencing of CK(fresh hypocotyls) and EC (embryogenic calli) of Gossypium hirsutum YZ1

Project description:The aim was to characterize epigenetic changes in histone proteins during callus formation from roots and shoots of Arabidopsis thaliana seedlings using mass spectrometry-based approach. Increased level of histone H3.3 variant was found to be the most prominent feature of 20-day-old calli, associated with chromatin relaxation. Methylation status in root- and shoot-derived calli reached the same level during long-term propagation, whereas differences in acetylation levels provided a long-lasting imprint of root and shoot origin. On the other hand, epigenetic signs of origin completely disappeared during 20 days of calli propagation in the presence of histone deacetylase inhibitors (HDACi), sodium butyrate and trichostatin A, although each HDACi affected the state of post-translational histone modifications in a specific manner.