Mutations in Pdd1 reveal distinct requirements for its chromodomain and chromoshadow domain in directing histone methylation and heterochromatin elimination

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Abstract

Pdd1, a specialized HP1-like protein, is required for genome-wide DNA rearrangements that restructure a previously silent germ line genome into an active somatic genome during macronuclear differentiation of Tetrahymena thermophila. We deleted or otherwise mutated conserved regions of the protein to investigate how its different domains promote the excision of thousands of internal eliminated sequences (IESs). Previous studies revealed that Pdd1 contributes to recognition of IES loci after they are targeted by small-RNA-guided methylation of histone H3 on lysine 27 (H3K27), subsequently aids the establishment of H3K9 methylation, and recruits proteins that lead to excision. The phenotypes we observed for different Pdd1 alleles showed that each of the two chromodomains and the chromoshadow domain (CSD) have distinct contributions during somatic genome differentiation. Chromodomain 1 (CD1) is essential for conjugation as either its deletion or the substitution of two key aromatic amino acid residues (the W97A W100A mutant) is lethal. These mutations caused mislocalization of a cyan fluorescent protein (CFP)- tagged protein, prevented the establishment of histone H3 dimethylated on K9 (H3K9me2), and abolished IES excision. Nevertheless, the requirement for CD1 could be bypassed by recruiting Pdd1 directly to an IES by addition of a specific DNA binding domain. Chromodomain 2 (CD2) was necessary for producing viable progeny, but low levels of H3K9me2 and IES excision still occurred. A mutation in the chromoshadow domain (CSD) prevented Pdd1 focus formation but still permitted~17% of conjugants to produce viable progeny. However, this mutant was unable to stimulate excision when recruited to an ectopic IES, indicating that this domain is important for recruitment of excision factors. © 2014, American Society for Microbiology. All Rights Reserved.

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Schwope, R. M., & Chalker, D. L. (2014). Mutations in Pdd1 reveal distinct requirements for its chromodomain and chromoshadow domain in directing histone methylation and heterochromatin elimination. Eukaryotic Cell, 13(2), 190–201. https://doi.org/10.1128/EC.00219-13

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