Shaping up genomes: Prokaryotic roots and eukaryotic diversification of SMC complexes

van Hooff, Jolien J.E.; Raas, Maximilian W.D.; Tromer, Eelco C.; Eme, Laura

doi:10.1101/2024.01.07.573240

Cited by 1 publication

(1 citation statement)

References 82 publications

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“…SMC genes are known to produce new genes by duplication. In fact, the entire SMC family of genes arose from a common SMC ancestor through duplication and divergence [98][99][100][101] . Interestingly, an SMC protein for dosage compensation has evolved in not one, but two clades with independent X chromosome ancestry.…”

Section: Parallel Evolution Of Condensin-mediated Dosage Compensation...mentioning

confidence: 99%

SMC-mediated dosage compensation inC. elegansevolved in the presence of an ancestral nematode mechanism

Aharonoff,

Kim,

Washington

et al. 2024

Preprint

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Mechanisms of X chromosome dosage compensation have been studied extensively in a few model species representing clades of shared sex chromosome ancestry. However, the diversity within each clade as a function of sex chromosome evolution is largely unknown. Here, we anchor ourselves to the nematode Caenorhabditis elegans, for which a well-studied mechanism of dosage compensation occurs through a specialized structural maintenance of chromosomes (SMC) complex, and explore the diversity of dosage compensation in the surrounding phylogeny of nematodes. Through phylogenetic analysis of the C. elegans dosage compensation complex and a survey of its epigenetic signatures, including X-specific topologically associating domains (TADs) and X-enrichment of H4K20me1, we found that the condensin-mediated mechanism evolved recently in the lineage leading to Caenorhabditis through an SMC-4 duplication. Intriguingly, an independent duplication of SMC-4 and the presence of X-specific TADs in Pristionchus pacificus suggest that condensin-mediated dosage compensation arose more than once. mRNA-seq analyses of gene expression in several nematode species indicate that dosage compensation itself is ancestral, as expected from the ancient XO sex determination system. Indicative of the ancestral mechanism, H4K20me1 is enriched on the X chromosomes in Oscheius tipulae, which does not contain X-specific TADs or SMC-4 paralogs. Together, our results indicate that the dosage compensation system in C. elegans is surprisingly new, and condensin may have been co-opted repeatedly in nematodes, suggesting that the process of evolving a chromosome-wide gene regulatory mechanism for dosage compensation is constrained.

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Section: Parallel Evolution Of Condensin-mediated Dosage Compensation...mentioning

confidence: 99%

SMC-mediated dosage compensation inC. elegansevolved in the presence of an ancestral nematode mechanism

Aharonoff,

Kim,

Washington

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

Shaping up genomes: Prokaryotic roots and eukaryotic diversification of SMC complexes

Cited by 1 publication

References 82 publications

SMC-mediated dosage compensation inC. elegansevolved in the presence of an ancestral nematode mechanism

SMC-mediated dosage compensation inC. elegansevolved in the presence of an ancestral nematode mechanism

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