Raghavendran Kulasegaran‐Shylini scite author profile

Transcription of eukaryotic genomes is more widespread than was previously anticipated and results in the production of many non-protein-coding RNAs (ncRNAs) whose functional relevance is poorly understood. Here we demonstrate that ncRNAs can counteract the encroachment of heterochromatin into neighboring euchromatin. We have identified a long ncRNA (termed BORDERLINE) that prevents spreading of the HP1 protein Swi6 and histone H3 Lys9 methylation beyond the pericentromeric repeat region of Schizosaccharomyces pombe chromosome 1. BORDERLINE RNAs act in a sequence-independent but locus-dependent manner and are processed by Dicer into short RNAs referred to as brdrRNAs. In contrast to canonical centromeric short interfering RNAs, brdrRNAs are rarely loaded onto Argonaute. Our analyses reveal an unexpected regulatory activity of ncRNAs in demarcating an epigenetically distinct chromosomal domain that could also be operational in other eukaryotes.

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Centromere localization and function of Mis18 requires Yippee‐like domain‐mediated oligomerization

Subramanian

Medina‐Pritchard

Barton

et al. 2016

EMBO Reports

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Mis18 is a key regulator responsible for the centromere localization of the CENP‐A chaperone Scm3 in Schizosaccharomyces pombe and HJURP in humans, which establishes CENP‐A chromatin that defines centromeres. The molecular and structural determinants of Mis18 centromere targeting remain elusive. Here, by combining structural, biochemical, and yeast genetic studies, we show that the oligomerization of S. pombe Mis18, mediated via its conserved N‐terminal Yippee‐like domain, is crucial for its centromere localization and function. The crystal structure of the N‐terminal Yippee‐like domain reveals a fold containing a cradle‐shaped pocket that is implicated in protein/nucleic acid binding, which we show is required for Mis18 function. While the N‐terminal Yippee‐like domain forms a homodimer in vitro and in vivo, full‐length Mis18, including the C‐terminal α‐helical domain, forms a homotetramer in vitro. We also show that the Yippee‐like domains of human Mis18α/Mis18β interact to form a heterodimer, implying a conserved structural theme for Mis18 regulation.

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The 5′UTR-specific mutation in VEEV TC-83 genome has a strong effect on RNA replication and subgenomic RNA synthesis, but not on translation of the encoded proteins

et al. 2009

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Venezuelan equine encephalitis virus (VEEV) is one of the most pathogenic members of the Alphavirus genus in the Togaviridae family. Viruses in the VEEV serocomplex continuously circulate in the Central and South Americas. The only currently available attenuated strain VEEV TC-83 is being used only for vaccination of at-risk laboratory workers and military personnel. Its attenuated phenotype was shown to rely only on two point mutations, one of which, G3A, was found in the 5′ untranslated region (5′UTR) of the viral genome. Our data demonstrate that the G3A mutation strongly affects the secondary structure of VEEV 5′UTR, but has only a minor effect on translation. The indicated mutation increases replication of the viral genome, downregulates transcription of the subgenomic RNA, and, thus, affects the ratio of genomic and subgenomic RNA synthesis. These findings and the previously reported G3A-induced, higher sensitivity of VEEV TC-83 to IFN-α/β suggest a plausible explanation for its attenuated phenotype.

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