Project description:This SuperSeries is composed of the following subset Series: GSE35057: Phytochrome Interacting Factor 4 and 5 regulate different set of genes in high and low red/far-red light GSE35059: ChIP-Seq analysis of Phytochrome Interacting Factor 5 DNA binding in low R/FR condition Refer to individual Series

Project description:Affinity purification of dCoREST-interacting proteins from Drosophila melanogaster S2 cell nuclear extracts. An antibody recognizing both dCoREST isoforms was used to affinity purify proteins interacting with endogenous dCoREST from S2 nuclear extract. In addition, nuclear extracts from S2 cell lines ectopically expressing the FLAG-tagged dCoREST-L isoform and the FLAG-tagged dCoREST-M isoform, respectively, were subjected to anti-FLAG affinity purification to purify isoform specific dCoREST-interacting proteins.

Project description:To further examined the potential interacting proteins of QQS in pollen development, we performed IP-MS analysis using Arabidopsis anthers of the wild type, 35S:QQS-Flag and 35S:QQS-GFP lines at flower stage 12-15.

Project description:Gene expression analysis of 14d-old Arabidopsis seedlings exposed to 1h darkness and 10 min reillumination after 1 h darkness to evaluate the regulation of gene expression at the level of translation. 12 samples, 3 conditions (1h light control, 1 h darkness treatment, 1 h darkness plus 10 min reillumination), 2 RNA pools (Total mRNA and polysomal mRNA), 2 bioreplicates

Project description:Low oxygen stress dynamically regulates the translation of cellular mRNAs as a means of energy conservation in seedlings of Arabidopsis thaliana. Most of the highly hypoxia-induced mRNAs are recruited to polysomes and actively translated, whereas other cellular mRNAs become translationally inactive and are either targeted for stabilization or degradation. Here we identify the involvement of OLIGOURIDYLATE BINDING PROTEIN 1 (UBP1), a triple RNA Recognition Motif protein, in dynamic and reversible aggregation of translationally repressed mRNAs during hypoxia. Mutation or downregulation of UBP1C interferes with seedling establishment and reduces survival of low oxygen stress. By use of messenger ribonucleoprotein immunopurification, we show that UBP1C constitutively binds a subpopulation of mRNAs characterized by U-rich 3M-bM-^@M-^Y-untranslated regions under normoxic conditions. During hypoxia, UBP1C association with non-U-rich mRNAs is enhanced concomitant with its aggregation into microscopically visible cytoplasmic foci, referred to as UBP1 stress granules (SGs). This UBP1C-mRNA association occurs as global levels of protein synthesis decline. Upon reoxygenation, rapid UBP1 SG disaggregation coincides with the return of the stabilized mRNAs to polysomes. The mRNAs that are highly induced and translated during hypoxia largely circumvent UBP1C sequestration. Thus, UBP1 is established as a component of dynamically assembled cytoplasmic mRNPs that sequester mRNAs that are poorly translated during a transient low energy stress. Immunoprecipated RNA associated with Arabidopsis UBP1C (IP) was compared with total cellular RNA from light (L), mock dark (D), 2 h hypoxia, and 2 h hypoxia + 20 min reoxygenation treated samples with duplicate hybridizations to the Affymetrix ATH1 Genechip array.

Project description:Phytochrome Interacting Factor 5 plays an important role in adaptive responses of plants to shaded environment collectively called shade avoidance syndrome. PIF 5 belongs to the bHLH transcription factor family and regulated gene expression in a low R/FR dependent fashion. In this experiment we investigate PIF5-DNA-binding genome wide to generate a candidate list of genes, which are directly regulated by PIF5. ChIP-Seq sample of whole seedlings treated with low R/FR light

Project description:N6-methyladenosine (m6A) represents the most prevalent internal modification on messenger RNA, and requires a multicomponent m6A methyltransferase complex in mammals. How their plant counterparts determine the global m6A modification landscape and its molecular link to plant development remain elusive. Here we show that FKBP12 INTERACTING PROTEIN 37 KD (FIP37) is a core component of the m6A methyltransferase complex, which underlies control of shoot stem cell fate in Arabidopsis. The mutants lacking FIP37 exhibit massive overproliferation of shoot meristems and a transcriptome-wide loss of m6A RNA modifications. We further demonstrate that FIP37 mediates m6A RNA modification on key shoot meristem genes inversely correlated with their mRNA stability, thus confining their transcript levels to prevent shoot meristem overproliferation. Our results suggest an indispensable role of FIP37 in mediating m6A mRNA modification, which is required for maintaining the shoot meristem as a renewable source for continuously producing all aerial organs in plants. m6A-seq in Arabidopsis thaliana (Col-0) wild-type and fip37-4 LEC1:FIP37, two replicates for each sample

Project description:Small RNAs exert an effect through diverse RNA interference pathways to transcriptionally or post-transcriptionally silence their targets. The Piwi-interacting RNAs (piRNAs) represent a germline-specific small RNA pathway where Piwi proteins themselves are thought to mediate piRNA biosynthesis. Here, we provide strong evidence for a piRNA amplification loop in zebrafish, in which Ziwi and Zili bind piRNAs of opposite polarity. Furthermore, we describe a function for Zili in transposon defense and germ cell differentiation, as well as a crucial function in meiosis, significantly extending the function of Piwi proteins beyond the control of transposable elements in vertebrates. small RNA from total gonads or Argonaute IPs were cloned and sequenced using 454 GS FLX system.

Project description:SOX6 CUT&RUN on HUDEP1 over expressing SOX6-Flag. The experiment is done using and anti Flag Ab to assist the genome wide binding profile of SOX6 in HUDEP1 (Human Umbilical cord blood-Derived Erythroid Progenitor-1).

Project description:HupA is a nucleoid associated protein, homologic to E. coli HU protein. Its binding is affected by DNA supercoiling. ChIP-seq experiment goal was to analyze changing of HupA binding in the strain with depleted levels of TopA (high supercoling) vs strain with normal level of TopA.