Resolution of ntla-dependent transcriptome at 9 hpf using caged molecules
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ABSTRACT: Transcription factors play diverse roles during embryonic development, combinatorially controlling multiple cellular states in a spatially and temporally defined manner. Resolving the dynamic transcriptional profiles that underlie these patterning processes is essential for understanding embryogenesis at the molecular level. Here we show how temporal, tissue-specific changes in embryonic transcription factor function can be discerned by integrating caged morpholinos (cMOs) with photoactivatable fluorophores, fluorescence-activated cell sorting (FACS), and microarray technologies. As a proof of principle, we have dynamically profiled No tail-a (Ntla)-dependent genes at different stages of axial mesoderm development in zebrafish, discovering and characterizing discrete sets of transcripts that are coincident with either notochord cell fate commitment or differentiation. Our studies demonstrate how optically controlled chemical tools can be use to probe developmental processes with spatiotemporal precision and reveal the sequential activation of distinct transcriptomes within a cell lineage by a single transcriptional factor. Zebrafish zygotes were injected with a mixture of ntla caged morpholino (cMO) and caged fluorescein dextran (cFD), and a 100 µm-diameter region of the shield was UV-irradiated at 6 hours post fertilization (hpf). The UV irradiation generated an active morpholino targeting the ntla 5'UTR and simultaneously labeled the cells with green fluorescence. By 36 hpf, the irradiated, green-fluorescent cells contributed to the medial floor plate rather than the notochord, consistent with earlier proposals that Ntla acts as a transcriptional switch between these two cell fates. Combining these caged reagents with microarray analysis identified transcriptional changes coincident with loss of ntla at 9 hpf and subsequent notochord fate respecification.
ORGANISM(S): Danio rerio
PROVIDER: GSE31880 | GEO | 2012/03/01
SECONDARY ACCESSION(S): PRJNA155249
REPOSITORIES: GEO
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