Single-Cell Protein Atlas of Transcription Factors Reveals the Combinatorial Code for Spatiotemporal Patterning the<i>C. elegans</i>Embryo

Ma, Xuehua; Zhao, Zhiguang; Xiao, Long; Xu, Weina; Wang, Yangyang; Zhang, Yanping; Wu, Gang; Du, Zhuo

doi:10.1101/2020.06.30.178640

Cited by 2 publications

(4 citation statements)

References 106 publications

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“…Finally, while elt-1 has a well-defined known role in epidermal fate specification(57), our work shows that it is also required for nob-1 enhancer activity. This is consistent with other recent work identifying defects in cell division patterns and the expression of the neurogenic TF lin-32 in elt-1 mutants(58). The ability of developmental transcription factors to “moonlight’ is likely facilitated by complex regulation by multiple enhancers as seen for nob-1/php-3 , and ceh- 13 (30, 31) since enhancer evolution can enable genes to be expressed at different locations and times in development(59, 60).…”

Section: Discussionsupporting

confidence: 93%

The anterior Hox geneceh-13andelt-1/GATAactivate the posterior Hox genesnob-1andphp-3to specify posterior lineages in theC. elegansembryo

Preston

et al. 2021

Preprint

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Hox transcription factors play a conserved role in specifying positional identity during animal development, with posterior Hox genes typically repressing the expression of more anterior Hox genes. Here, we dissect the regulation of the posterior Hox genes nob-1 and php-3 in the nematode C. elegans. We show that nob-1 and php-3 are co-expressed in gastrulation-stage embryos in cells that previously expressed the anterior Hox gene ceh-13. This expression is controlled by several partially redundant transcriptional enhancers. Surprisingly, these enhancers require ceh-13 for expression, providing an example of an anterior Hox gene positively regulating a posterior Hox gene. Several other regulators including elt-1/GATA, ceh-20/ceh-40/Pbx, unc-62/Meis, pop-1/TCF, ceh-36/Otx and unc-30/Pitx also act positively through nob-1/php-3 enhancers. We identified defects in both cell position and cell division patterns in ceh-13 and nob-1;php-3 mutants, suggesting that these factors regulate lineage identity in addition to positional identity. Taken together, our results highlight the complexity and unexpected flexibility of Hox gene regulation and function.

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Section: Discussionsupporting

confidence: 93%

The anterior Hox geneceh-13andelt-1/GATAactivate the posterior Hox genesnob-1andphp-3to specify posterior lineages in theC. elegansembryo

Preston

et al. 2021

Preprint

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“…An intriguing question is when and how equivalent chromatin activity landscape is precisely specified in early progenitor cells that are not lineage-related. Since progenitor cells from different cell lineages generally exhibit divergent chromatin activity and gene expression programs (Packer et al, 2019;Ma et al, 2020), the specification of equivalent chromatin activity would be a regulated process. In rare cases, L-R symmetric cells exhibit functional asymmetry (Hobert, 2014).…”

Section: Discussionmentioning

confidence: 99%

“…Given that cells of a tissue derive from different lineages, we tested whether lineage origin accounts for this intra-tissue chromatin heterogeneity. Our recent finding using cellular protein expression of transcription factors has revealed that many tissue-specific TFs show lineagerestricted expression, contributing to a lineage-dependent intratissue heterogeneity in gene expression (Ma et al, 2020). Here, we further tested whether chromatin changes underlie this pattern.…”

Section: Tissue-based Convergence Of Cellular Chromatin Activity Landscape Upon Differentiationmentioning

confidence: 92%

“…A similar result was obtained (Fig EV5A ), confirming that the lineage effects on intra-tissue chromatin heterogeneity were also present in mature cells. This finding then led to the question of whether lineage-dependent chromatin heterogeneity results in heterogeneity in global gene expression in addition to transcription factors (Ma et al, 2020). Using scRNA-seq data, we found that the transcriptome divergences between intra-tissue cells increased with cell lineage distances not only at the 350-cell stage but also at the 600-cell stage, when most cells have almost completed embryonic differentiation (Fig EV5B and C).…”

Section: Tissue-based Convergence Of Cellular Chromatin Activity Landscape Upon Differentiationmentioning

confidence: 93%

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Single‐cell dynamics of chromatin activity during cell lineage differentiation in Caenorhabditis elegans embryos

Zhao

Fan

et al. 2021

Molecular Systems Biology

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Elucidating the chromatin dynamics that orchestrate embryogenesis is a fundamental question in developmental biology. Here, we exploit position effects on expression as an indicator of chromatin activity and infer the chromatin activity landscape in every lineaged cell during Caenorhabditis elegans early embryogenesis. Systems-level analyses reveal that chromatin activity distinguishes cellular states and correlates with fate patterning in the early embryos. As cell lineage unfolds, chromatin activity diversifies in a lineage-dependent manner, with switch-like changes accompanying anterior-posterior fate asymmetry and characteristic landscapes being established in different cell lineages. Upon tissue differentiation, cellular chromatin from distinct lineages converges according to tissue types but retains stable memories of lineage history, contributing to intra-tissue cell heterogeneity. However, the chromatin landscapes of cells organized in a left-right symmetric pattern are predetermined to be analogous in early progenitors so as to pre-set equivalent states. Finally, genome-wide analysis identifies many regions exhibiting concordant chromatin activity changes that mediate the co-regulation of functionally related genes during differentiation. Collectively, our study reveals the developmental and genomic dynamics of chromatin activity at the single-cell level.

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Single-Cell Protein Atlas of Transcription Factors Reveals the Combinatorial Code for Spatiotemporal Patterning theC. elegansEmbryo

Cited by 2 publications

References 106 publications

The anterior Hox geneceh-13andelt-1/GATAactivate the posterior Hox genesnob-1andphp-3to specify posterior lineages in theC. elegansembryo

The anterior Hox geneceh-13andelt-1/GATAactivate the posterior Hox genesnob-1andphp-3to specify posterior lineages in theC. elegansembryo

Single‐cell dynamics of chromatin activity during cell lineage differentiation in Caenorhabditis elegans embryos

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