RNA Polymerase Backtracking in Gene Regulation and Genome Instability

AbstractIn Caenorhabditis elegans, the piRNA (21U RNA) pathway is required to establish proper gene regulation and an immortal germline. To achieve this, PRG-1-bound 21U RNAs trigger silencing mechanisms mediated by RNA-dependent RNA polymerase (RdRP)-synthetized 22G RNAs. This silencing can become PRG-1-independent, and heritable over many generations. This state is named RNAe. It is unknown how and when RNAe is established, and how it is maintained. We show that maternally provided 21U RNAs can be sufficient to trigger RNAe in embryos. Additionally, we identify the IDR-containing protein PID-2, as a factor required to establish and maintain RNAe. PID-2 interacts with two novel, partially redundant, eTudor domain proteins, PID-4 and PID-5. Additionally, PID-5 has a domain related to the X-prolyl aminopeptidase protein APP-1, and binds APP-1, implicating N-terminal proteolysis in RNAe. All three proteins are required for germline immortality, localize to perinuclear foci, affect Z granules, and are required for balancing of 22G RNA populations. Overall, our study identifies three new proteins with crucial functions in the C. elegans small RNA silencing network.

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Pausing of RNA Polymerase II Disrupts DNA-Specified Nucleosome Organization to Enable Precise Gene Regulation

Cell ◽

10.1016/j.cell.2010.10.004 ◽

2010 ◽

Vol 143 (4) ◽

pp. 540-551 ◽

Cited By ~ 262

Author(s):

Daniel A. Gilchrist ◽

Gilberto Dos Santos ◽

David C. Fargo ◽

Bin Xie ◽

Yuan Gao ◽

...

Keyword(s):

Gene Regulation ◽

Rna Polymerase ◽

Rna Polymerase Ii ◽

Nucleosome Organization

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The RNA polymerase II holoenzyme and its implications for gene regulation

Trends in Biochemical Sciences ◽

10.1016/s0968-0004(00)88977-x ◽

1995 ◽

Vol 20 (3) ◽

pp. 113-116 ◽

Cited By ~ 184

Author(s):

Anthony J. Koleske ◽

Richard A. Young

Keyword(s):

Gene Regulation ◽

Rna Polymerase ◽

Rna Polymerase Ii ◽

Rna Polymerase Ii Holoenzyme

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Coupling the distribution of RNA polymerase to global gene regulation and the dynamic structure of the bacterial nucleoid in Escherichia coli

Journal of Structural Biology ◽

10.1016/j.jsb.2006.07.005 ◽

2006 ◽

Vol 156 (2) ◽

pp. 284-291 ◽

Cited By ~ 64

Author(s):

Ding Jun Jin ◽

Julio E. Cabrera

Keyword(s):

Escherichia Coli ◽

Gene Regulation ◽

Rna Polymerase ◽

Dynamic Structure ◽

Global Gene Regulation ◽

Bacterial Nucleoid

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Faculty Opinions recommendation of Pausing of RNA polymerase II disrupts DNA-specified nucleosome organization to enable precise gene regulation.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.6304957.6393055 ◽

2010 ◽

Author(s):

Yamini Dalal

Keyword(s):

Gene Regulation ◽

Rna Polymerase ◽

Rna Polymerase Ii ◽

Nucleosome Organization

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Locus-specific paramutation in Zea mays is maintained by a PICKLE-like chromodomain helicase DNA-binding 3 protein controlling development and male gametophyte function

PLoS Genetics ◽

10.1371/journal.pgen.1009243 ◽

2020 ◽

Vol 16 (12) ◽

pp. e1009243

Author(s):

Natalie C. Deans ◽

Brian J. Giacopelli ◽

Jay B. Hollick

Keyword(s):

Zea Mays ◽

Gene Regulation ◽

Dna Binding ◽

Rna Polymerase ◽

Male Gametophyte ◽

Mendelian Inheritance ◽

Developmental Defects ◽

Rna Biogenesis ◽

Rna Polymerase Iv ◽

Mutant Phenotypes

Paramutations represent directed and meiotically-heritable changes in gene regulation leading to apparent violations of Mendelian inheritance. Although the mechanism and evolutionary importance of paramutation behaviors remain largely unknown, genetic screens in maize (Zea mays) identify five components affecting 24 nucleotide RNA biogenesis as required to maintain repression of a paramutant purple plant1 (pl1) allele. Currently, the RNA polymerase IV largest subunit represents the only component also specifying proper development. Here we identify a chromodomain helicase DNA-binding 3 (CHD3) protein orthologous to Arabidopsis (Arabidopsis thaliana) PICKLE as another component maintaining both pl1 paramutation and normal somatic development but without affecting overall small RNA biogenesis. In addition, genetic tests show this protein contributes to proper male gametophyte function. The similar mutant phenotypes documented in Arabidopsis and maize implicate some evolutionarily-conserved gene regulation while developmental defects associated with the two paramutation mutants are largely distinct. Our results show that a CHD3 protein responsible for normal plant ontogeny and sperm transmission also helps maintain meiotically-heritable epigenetic regulatory variation for specific alleles. This finding implicates an intersection of RNA polymerase IV function and nucleosome positioning in the paramutation process.

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Single-molecule fluorescence studies on cotranscriptional G-quadruplex formation coupled with R-loop formation

Nucleic Acids Research ◽

10.1093/nar/gkaa695 ◽

2020 ◽

Vol 48 (16) ◽

pp. 9195-9203

Author(s):

Gunhyoung Lim ◽

Sungchul Hohng

Keyword(s):

Gene Regulation ◽

Single Molecule ◽

Genome Instability ◽

Feedback Mechanism ◽

Rnase H ◽

Formation Mechanisms ◽

Loop Formation ◽

Single Molecule Fluorescence ◽

Fluorescence Studies ◽

G Quadruplex

Abstract G-quadruplex (GQ) is formed at various regions of DNA, including telomeres of chromosomes and regulatory regions of oncogenes. Since GQ is important in both gene regulation and genome instability, the biological and medical implications of this abnormal DNA structure have been intensively studied. Its formation mechanisms, however, are not clearly understood yet. We report single-molecule fluorescence experiments to monitor the cotranscriptional GQ formation coupled with R-loop formation using T7 RNA polymerase. The GQ is formed very rarely per single-round transcription. R-loop formation precedes and facilitates GQ formation. Once formed, some GQs are extremely stable, resistant even to RNase H treatment, and accumulate in multiple-round transcription conditions. On the other hand, GQ existing in the non-template strand promotes the R-loop formation in the next rounds of transcription. Our study clearly shows the existence of a positive feedback mechanism of GQ and R-loop formations, which may possibly contribute to gene regulation and genome instability.

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