Open AccessFunctional Diversification of Maize RNA Polymerase IV and V Subtypes via Alternative Catalytic Subunits
Author(s) -
Jeremy R. Haag,
Brent D. BrowerToland,
Elysia K. Krieger,
Lyudmila Sidorenko,
Carrie Nicora,
Angela Norbeck,
Andre Irsigler,
Huachun LaRue,
Jan Brzeski,
Karen McGinnis,
Sergey Ivashuta,
Ljiljana PašaTolić,
Vicki L. Chandler,
Craig S. Pikaard
Publication year - 2014
Publication title -
cell reports
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 6.264
H-Index - 154
eISSN - 2639-1856
pISSN - 2211-1247
DOI - 10.1016/j.celrep.2014.08.067
Subject(s) - rna polymerase iii , biology , arabidopsis , rna polymerase , rna polymerase ii , protein subunit , polymerase , genetics , rna , processivity , rna polymerase i , microbiology and biotechnology , dna , gene , gene expression , promoter , mutant
Unlike nuclear multisubunit RNA polymerases I, II, and III, whose subunit compositions are conserved throughout eukaryotes, plant RNA polymerases IV and V are nonessential, Pol II-related enzymes whose subunit compositions are still evolving. Whereas Arabidopsis Pols IV and V differ from Pol II in four or five of their 12 subunits, respectively, and differ from one another in three subunits, proteomic analyses show that maize Pols IV and V differ from Pol II in six subunits but differ from each other only in their largest subunits. Use of alternative catalytic second subunits, which are nonredundant for development and paramutation, yields at least two subtypes of Pol IV and three subtypes of Pol V in maize. Pol IV/Pol V associations with MOP1, RMR1, AGO121, Zm_DRD1/CHR127, SHH2a, and SHH2b extend parallels between paramutation in maize and the RNA-directed DNA methylation pathway in Arabidopsis.
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