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.

Project description:transcription profiling of different development stage and different treatment

Project description:Regeneration of transgenic cells remains a major obstacle to research and commercial deployment of transgenic plants for most species. Our aims are to improve knowledge of gene regulatory circuits important to meristem organization, and to identify regulatory genes that might be useful for improving the efficiency of regeneration during transformation. We analyzed gene expression during poplar regeneration using an Affymetrix GeneChip® array representing over 56,000 poplar transcripts. Experiment Overall Design: We focused on callus induction and shoot formation, thus sample RNAs were collected from tissues: prior to callus induction, 3 days and 15 days after callus induction, and 3 days and 8 days after the start of shoot induction. Experiment Overall Design: Two biological replicates were used for each of the five time points.

Project description:The aim was to determine the changes in cell wall composition and transcriptome changes following treatment with the stress hormone precursor methyl jasmonate (MeJA) in the model grass Brachypodium distachyon. The correlation between transcript changes and cell wall composition changes allowed identification of candidate genes responsible for grass-specific features of the cell wall that are specifically changed in response to MeJA.

Project description:Analysis of calli derived from the wild type (Ler), the ckh1 and ckh2 mutants cultured on media in the absence of cytokinin (control), in the presence of low (25 ng/ml kinetin) or high (200 ng/ml kinetin) levels of cytokinin, or in the presence of Trichostatin A (TSA). In these conditions, a constant 2,4-dichlorophenoxyacetic acid (2,4-D) was included as an auxin. Hypocotyl segments of the wild type (Ler), ckh1-1 and ckh2-1 mutants were cultured for 3 days on media containing 100 ng/ml 2,4-D in the absence of kinetin or in the presence of low (25 ng/ml) or high (200 ng/ml) kinetin or 100ng/ml TSA, and then collected and rapidly frozen by liquid nitrogen. Total RNA was extracted by using an RNeasy plant kit (Qiagen; USA), and 10 µg of total RNA was used for target preparation by using

Project description:The rolB plant oncogene exerts its oncogenic properties by modulating the abundance of chaperones

Project description:Arabidopsis thaliana wild type cell cultures were exposed to a 5-day space flight onboard of Shenzhou 8 to identify microgravity and space effect related gene expression.

Project description:To analyze the gene regulatory network controlled by SP6A under warm temperatures, we hybridized an Agilent 60-mer microarray with probes corresponding to the RNA extracted out of leaves from WT and StSP6Aox potato plants grown at 22ºC and 28ºC.

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:To support our research of epigenomics in rice genome, we conducted massively parallel pyrosequencing of mRNAs (RNA-seq) using rice seedling and callus tissues. We obtained a total of 40.1 M reads from seedling and 29.6 M reads from callus.The RNA-seq data derived from the replicates showed high correlations (Spearman’s rank correlation coefficient, SC, 0.96 for seedling, 0.88 for callus). Our RNAseq data derived from the seedling also showed a high correlation with the recently published rice RNA-seq data that was also from two-week old seeding tissue (Lu et al., 2010, PMID: 20627892) (SC=0.87). Two biological replicates of each tissue was applied in RNA-seq. Each biological replicate was sequenced twice in separate lane.