ABSTRACT
Dynamic changes in transcription are widespread in the developing embryo, where cell cycles are rapid and cell fate decisions sometimes need to be made quickly, before the next cell division. In the early Caenorhabditis elegans embryo, specification of the intestine relies on high absolute levels of transcription factors that are a part of the gut gene regulatory network. These absolute levels are likely achieved by controlled transcript accumulation rates. However, accumulation rates have not been measured globally in the worm embryo. We used single cell RNA-seq data from the early C. elegans embryo to estimate the accumulation rates of zygotic genes up to the 24-cell stage. We find that rapid transcript accumulation is a characteristic feature of transcription factors across different cell types and lineages. We identified genomic features associated with high transcription rates and core promoter motifs that might drive these rates. For one Very High-rate gene ceh-51, which is required for mesoderm development, we measured the contributions of core promoter elements to rate. We find that each of these motifs contribute modestly to the accumulation rate of ceh-51, suggesting a complex relationship between promoter motifs and gene structure in controlling transcript accumulation rates. These results are a step towards understanding the regulation of transcript accumulation rates during embryonic cell fate specification.
Competing Interest Statement
The authors have declared no competing interest.