The Genetic Basis for PRC1 Complex Diversity Emerged Early in Animal Evolution

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2020 Sep 2

PMID 32868440

Citations 10

Authors

James M Gahan

Fabian Rentzsch

Christine E Schnitzler

Affiliations

Soon will be listed here.

Abstract

Polycomb group proteins are essential regulators of developmental processes across animals. Despite their importance, studies on Polycomb are often restricted to classical model systems and, as such, little is known about the evolution of these important chromatin regulators. Here we focus on Polycomb Repressive Complex 1 (PRC1) and trace the evolution of core components of canonical and non-canonical PRC1 complexes in animals. Previous work suggested that a major expansion in the number of PRC1 complexes occurred in the vertebrate lineage. We show that the expansion of the Polycomb Group RING Finger (PCGF) protein family, an essential step for the establishment of the large diversity of PRC1 complexes found in vertebrates, predates the bilaterian-cnidarian ancestor. This means that the genetic repertoire necessary to form all major vertebrate PRC1 complexes emerged early in animal evolution, over 550 million years ago. We further show that , a gene conserved in cnidarians and vertebrates but lost in all other studied groups, is expressed in the nervous system in the sea anemone , similar to its mammalian counterpart. Together this work provides a framework for understanding the evolution of PRC1 complex diversity and it establishes as a promising model system in which the functional ramifications of this diversification can be further explored.

Citing Articles

Chromatin profiling identifies putative dual roles for H3K27me3 in regulating transposons and cell type-specific genes in choanoflagellates.

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Uncoupled evolution of the Polycomb system and deep origin of non-canonical PRC1.

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DNA elements tether canonical Polycomb Repressive Complex 1 to human genes.

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