Ancient Origin and Recent Innovations of RNA Polymerase IV and V

Small RNA-mediated chromatin modification is a conserved feature of eukaryotes. In flowering plants, the short interfering (si)RNAs that direct transcriptional silencing are abundant and subfunctionalization has led to specialized machinery responsible for synthesis and action of these small RNAs. I...

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Published in:	Molecular biology and evolution Vol. 32; no. 7; pp. 1788 - 1799
Main Authors:	Huang, Yi, Kendall, Timmy, Forsythe, Evan S, Dorantes-Acosta, Ana, Li, Shaofang, Caballero-Pérez, Juan, Chen, Xuemei, Arteaga-Vázquez, Mario, Beilstein, Mark A, Mosher, Rebecca A
Format:	Journal Article
Language:	English
Published:	United States Oxford University Press 01-07-2015
Subjects:	Amino Acid Sequence BASIC BIOLOGICAL SCIENCES Chromatin Deoxyribonucleic acid Discoveries DNA DNA-Directed RNA Polymerases - chemistry DNA-Directed RNA Polymerases - genetics Enzymes escape from adaptive conflict Evolution Evolution, Molecular Flowering plants Flowers - genetics Gene Duplication Gene Silencing Genes Genes, Plant Innovations Magnoliopsida - enzymology Molecular Sequence Data Phylogenetics Phylogeny Plant Proteins - chemistry Plant Proteins - genetics Plants - enzymology Plants - genetics Protein Structure, Tertiary Protein Subunits - genetics Ribonucleic acid RNA RNA polymerase IV RNA polymerase V RNA silencing small RNA-directed DNA methylation Species Specificity RNA Polymerase IV RNA Silencing Gene duplication Escape from Adaptive Conflict small RNA-directed DNA methylation RNA Polymerase V
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Abstract	Small RNA-mediated chromatin modification is a conserved feature of eukaryotes. In flowering plants, the short interfering (si)RNAs that direct transcriptional silencing are abundant and subfunctionalization has led to specialized machinery responsible for synthesis and action of these small RNAs. In particular, plants possess polymerase (Pol) IV and Pol V, multi-subunit homologs of the canonical DNA-dependent RNA Pol II, as well as specialized members of the RNA-dependent RNA Polymerase (RDR), Dicer-like (DCL), and Argonaute (AGO) families. Together these enzymes are required for production and activity of Pol IV-dependent (p4-)siRNAs, which trigger RNA-directed DNA methylation (RdDM) at homologous sequences. p4-siRNAs accumulate highly in developing endosperm, a specialized tissue found only in flowering plants, and are rare in nonflowering plants, suggesting that the evolution of flowers might coincide with the emergence of specialized RdDM machinery. Through comprehensive identification of RdDM genes from species representing the breadth of the land plant phylogeny, we describe the ancient origin of Pol IV and Pol V, suggesting that a nearly complete and functional RdDM pathway could have existed in the earliest land plants. We also uncover innovations in these enzymes that are coincident with the emergence of seed plants and flowering plants, and recent duplications that might indicate additional subfunctionalization. Phylogenetic analysis reveals rapid evolution of Pol IV and Pol V subunits relative to their Pol II counterparts and suggests that duplicates were retained and subfunctionalized through Escape from Adaptive Conflict. Evolution within the carboxy-terminal domain of the Pol V largest subunit is particularly striking, where illegitimate recombination facilitated extreme sequence divergence.
AbstractList	Small RNA-mediated chromatin modification is a conserved feature of eukaryotes. In flowering plants, the short interfering (si)RNAs that direct transcriptional silencing are abundant and subfunctionalization has led to specialized machinery responsible for synthesis and action of these small RNAs. In particular, plants possess polymerase (Pol) IV and Pol V, multi-subunit homologs of the canonical DNA-dependent RNA Pol II, as well as specialized members of the RNA-dependent RNA Polymerase (RDR), Dicer-like (DCL), and Argonaute (AGO) families. Together these enzymes are required for production and activity of Pol IV-dependent (p4-)siRNAs, which trigger RNA-directed DNA methylation (RdDM) at homologous sequences. p4-siRNAs accumulate highly in developing endosperm, a specialized tissue found only in flowering plants, and are rare in nonflowering plants, suggesting that the evolution of flowers might coincide with the emergence of specialized RdDM machinery. Through comprehensive identification of RdDM genes from species representing the breadth of the land plant phylogeny, we describe the ancient origin of Pol IV and Pol V, suggesting that a nearly complete and functional RdDM pathway could have existed in the earliest land plants. We also uncover innovations in these enzymes that are coincident with the emergence of seed plants and flowering plants, and recent duplications that might indicate additional subfunctionalization. Phylogenetic analysis reveals rapid evolution of Pol IV and Pol V subunits relative to their Pol II counterparts and suggests that duplicates were retained and subfunctionalized through Escape from Adaptive Conflict. Evolution within the carboxy-terminal domain of the Pol V largest subunit is particularly striking, where illegitimate recombination facilitated extreme sequence divergence. Small RNA-mediated chromatin modification is a conserved feature of eukaryotes. In flowering plants, the short interfering (si)RNAs that direct transcriptional silencing are abundant and subfunctionalization has led to specialized machinery responsible for synthesis and action of these small RNAs. In particular, plants possess polymerase (Pol) IV and Pol V, multi-subunit homologs of the canonical DNA-dependent RNA Pol II, as well as specialized members of the RNA-dependent RNA Polymerase (RDR), Dicer-like (DCL), and Argonaute (AGO) families. Together these enzymes are required for production and activity of Pol IV-dependent (p4-)siRNAs, which trigger RNA-directed DNA methylation (RdDM) at homologous sequences. p4-siRNAs accumulate highly in developing endosperm, a specialized tissue found only in flowering plants, and are rare in nonflowering plants, suggesting that the evolution of flowers might coincide with the emergence of specialized RdDM machinery. Through comprehensive identification of RdDM genes from species representing the breadth of the land plant phylogeny, we describe the ancient origin of Pol IV and Pol V, suggesting that a nearly complete and functional RdDM pathway could have existed in the earliest land plants. We also uncover innovations in these enzymes that are coincident with the emergence of seed plants and flowering plants, and recent duplications that might indicate additional subfunctionalization. Phylogenetic analysis reveals rapid evolution of Pol IV and Pol V subunits relative to their Pol II counterparts and suggests that duplicates were retained and subfunctionalized through Escape from Adaptive Conflict. Finally, evolution within the carboxy-terminal domain of the Pol V largest subunit is particularly striking, where illegitimate recombination facilitated extreme sequence divergence.
Author	Caballero-Pérez, Juan Chen, Xuemei Beilstein, Mark A Kendall, Timmy Huang, Yi Li, Shaofang Forsythe, Evan S Dorantes-Acosta, Ana Arteaga-Vázquez, Mario Mosher, Rebecca A
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Keywords	RNA Polymerase IV RNA Silencing Gene duplication Escape from Adaptive Conflict small RNA-directed DNA methylation RNA Polymerase V
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Snippet	Small RNA-mediated chromatin modification is a conserved feature of eukaryotes. In flowering plants, the short interfering (si)RNAs that direct transcriptional...
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SubjectTerms	Amino Acid Sequence BASIC BIOLOGICAL SCIENCES Chromatin Deoxyribonucleic acid Discoveries DNA DNA-Directed RNA Polymerases - chemistry DNA-Directed RNA Polymerases - genetics Enzymes escape from adaptive conflict Evolution Evolution, Molecular Flowering plants Flowers - genetics Gene Duplication Gene Silencing Genes Genes, Plant Innovations Magnoliopsida - enzymology Molecular Sequence Data Phylogenetics Phylogeny Plant Proteins - chemistry Plant Proteins - genetics Plants - enzymology Plants - genetics Protein Structure, Tertiary Protein Subunits - genetics Ribonucleic acid RNA RNA polymerase IV RNA polymerase V RNA silencing small RNA-directed DNA methylation Species Specificity
Title	Ancient Origin and Recent Innovations of RNA Polymerase IV and V
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