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Project description:Early vertebrate embryogenesis is characterized by extensive post-transcriptional regulation during the maternal-to-zygotic transition. The N6-methyladenosine (m6A) modifications on mRNA has been shown to affect both translation and stability of transcripts. Here we investigate the m6A topology during early vertebrate embryogenesis and its association with RNA stability, translation efficiency and effect on miR-430 degradation kinetics. Notably, we find a strong association of m6A with cytoplasmic polyadenylation and translational efficiency prior to zygotic genome activation. Genes required for zygotic genome activation such as nanog and pou5f3 display dynamic m6A levels. After zygotic genome activation m6A is associated with improved stability and dampens the effect of miR-430 mediated degradation. Through sequence analyses we identified enrichment of motifs for RNA binding proteins involved in translational regulation and RNA degradation. We propose a role for m6A in multiple mRNA regulatory mechanisms, for the first time in an in vivo system and improve our understanding of the combinatorial code behind the complex post transcriptional regulation of reprogramming during early vertebrate development.

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Project description:This study presents statistical analyses of gene expression during all 40 developmental stages in the teleost Fundulus heteroclitus using four biological replicates per stage. Patterns of gene expression for 7,000 genes appear to be important as they recapitulate developmental timing. Among the 45% of genes with significant expression differences between pairs of temporally adjacent stages, significant differences in gene expression vary from as few as five to more than 660. Five adjacent stages have disproportionately more significant changes in gene expression (>200 genes) relative to other stages: four to eight and eight to sixteen cell stages, onset of circulation, pre- and post-hatch, and during complete yolk absorption. The fewest differences among adjacent stages occur during gastrulation. Yet, at stage 16 (pre-mid-gastrulation), the largest number of genes has peak expression. This stage has an over-representation of genes in oxidative respiration and protein expression (ribosomes, translational genes and proteases). Unexpectedly, among all ribosomal genes, both strong positive and negative correlations occur. Similar correlated patterns of expression occur among all significant genes. These data provide statistical support for the temporal dynamics of developmental gene expression during all stages of vertebrate development. A double-loop design was used for the microarray hybridizations, where each sample is hybridized to 2 arrays using both Cy3- and Cy5-labelled fluorophores (Kerr and Churchill 2001a; Kerr and Churchill 2001b). The loop consisted of Cy3- and Cy5-labelled embryo aRNAs from 4 biological pools for each of 40 stages (S). In total, 160 biological pools were hybridized to 80 microarrays. Each array had different combinations of biological pools (Altman and Hua 2006). The double loop formed was S1M-bM-^FM-^R S2 M-bM-^FM-^R S3M-bM-^FM-^R M-bM-^@M-& S40M-bM-^FM-^R S1 and S40M-bM-^FM-^R S39M-bM-^FM-^R S38M-bM-^FM-^R M-bM-^@M-& S2M-bM-^FM-^R S1 M-bM-^FM-^R S40, where each arrow represents a separate hybridization (array) with the biological pool at the base of the arrow labeled with Cy3 and the biological pool at the head of the arrow labelled with Cy5.

Project description: Not available