An RNA ligase from wheat germ which participates in transfer RNA splicing in vitro.

AbstractHeterogeneous ribonucleoproteins (hnRNPs) are RNA binding molecules that are involved in key processes such as RNA splicing and transcription. One such hnRNP protein, hnRNP L, regulates alternative splicing (AS) by binding to pre-mRNA transcripts. However, it is unclear what factors contribute to hnRNP L-regulated AS events. Using proteomic approaches, we identified several key factors that co-purify with hnRNP L. We demonstrate that one such factor, the histone methyltransferase SETD2, specifically interacts with hnRNP L in vitro and in vivo. This interaction occurs through a previously uncharacterized domain in SETD2, the SETD2-hnRNP Interaction (SHI) domain, the deletion of which, leads to a reduced H3K36me3 deposition. Functionally, SETD2 regulates a subset of hnRNP L-targeted AS events. Our findings demonstrate that SETD2, by interacting with Pol II as well as hnRNP L, can mediate the crosstalk between the transcription and the splicing machinery.

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Enzymatic mechanism of an RNA ligase from wheat germ.

Journal of Biological Chemistry ◽

10.1016/s0021-9258(20)82075-4 ◽

1983 ◽

Vol 258 (13) ◽

pp. 8374-8383

Author(s):

R C Schwartz ◽

C L Greer ◽

P Gegenheimer ◽

J Abelson

Keyword(s):

Wheat Germ ◽

Rna Ligase ◽

Enzymatic Mechanism

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Purification of wheat germ RNA ligase. II. Mechanism of action of wheat germ RNA ligase.

Journal of Biological Chemistry ◽

10.1016/s0021-9258(19)62672-4 ◽

1986 ◽

Vol 261 (15) ◽

pp. 6694-6704

Author(s):

L Pick ◽

H Furneaux ◽

J Hurwitz

Keyword(s):

Mechanism Of Action ◽

Wheat Germ ◽

Rna Ligase

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A biallelic variant in CLRN2 causes non-syndromic hearing loss in humans

Human Genetics ◽

10.1007/s00439-020-02254-z ◽

2021 ◽

Author(s):

Barbara Vona ◽

Neda Mazaheri ◽

Sheng-Jia Lin ◽

Lucy A. Dunbar ◽

Reza Maroofian ◽

...

Keyword(s):

Hearing Loss ◽

Amino Acid ◽

Rna Splicing ◽

Stop Codon ◽

Missense Variant ◽

Homozygosity Mapping ◽

Deafness Gene ◽

Expression Studies ◽

Hearing Function

AbstractDeafness, the most frequent sensory deficit in humans, is extremely heterogeneous with hundreds of genes involved. Clinical and genetic analyses of an extended consanguineous family with pre-lingual, moderate-to-profound autosomal recessive sensorineural hearing loss, allowed us to identify CLRN2, encoding a tetraspan protein, as a new deafness gene. Homozygosity mapping followed by exome sequencing identified a 14.96 Mb locus on chromosome 4p15.32p15.1 containing a likely pathogenic missense variant in CLRN2 (c.494C > A, NM_001079827.2) segregating with the disease. Using in vitro RNA splicing analysis, we show that the CLRN2 c.494C > A variant leads to two events: (1) the substitution of a highly conserved threonine (uncharged amino acid) to lysine (charged amino acid) at position 165, p.(Thr165Lys), and (2) aberrant splicing, with the retention of intron 2 resulting in a stop codon after 26 additional amino acids, p.(Gly146Lysfs*26). Expression studies and phenotyping of newly produced zebrafish and mouse models deficient for clarin 2 further confirm that clarin 2, expressed in the inner ear hair cells, is essential for normal organization and maintenance of the auditory hair bundles, and for hearing function. Together, our findings identify CLRN2 as a new deafness gene, which will impact future diagnosis and treatment for deaf patients.

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Isolation and expression of cDNA clones for a rat liver asialoglycoprotein receptor

Bioscience Reports ◽

10.1007/bf01114949 ◽

1986 ◽

Vol 6 (6) ◽

pp. 527-534

Author(s):

Colin Watts

Keyword(s):

Rat Liver ◽

Protein Sequence ◽

Wheat Germ ◽

Asialoglycoprotein Receptor ◽

Cdna Clones ◽

Oligonucleotide Probes ◽

Synthetic Oligonucleotide ◽

Microsomal Membranes ◽

Synthetic Oligonucleotides

cDNA clones for the major rat liver asialoglycoprotein (ASGP) receptor were isolated from a phage λgtl 1 library using synthetic oligonucleotide probes corresponding to two regions of the protein sequence. The longest clone obtained encoded all but the first 11 codons of the receptor. The cDNA was completed with synthetic oligonucleotides and was used to direct the synthesis of mRNA for the receptor in vitro. Subsequent translation in a wheat germ lysate produced authentic ASGP receptor which assembled correctly into microsomal membranes.

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Competitive mRNA translation in an in vitro system from wheat germ.

Journal of Biological Chemistry ◽

10.1016/s0021-9258(19)86882-5 ◽

1979 ◽

Vol 254 (17) ◽

pp. 8245-8249

Author(s):

D. Herson ◽

A. Schmidt ◽

S. Seal ◽

A. Marcus ◽

L. van Vloten-Doting

Keyword(s):

Wheat Germ ◽

Mrna Translation ◽

In Vitro System

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The 2′-O-methylation status of a single guanosine controls transfer RNA–mediated Toll-like receptor 7 activation or inhibition

Journal of Experimental Medicine ◽

10.1084/jem.20111075 ◽

2012 ◽

Vol 209 (2) ◽

pp. 235-241 ◽

Cited By ~ 61

Author(s):

Stefanie Jöckel ◽

Gernot Nees ◽

Romy Sommer ◽

Yang Zhao ◽

Dmitry Cherkasov ◽

...

Keyword(s):

Influenza A ◽

Mononuclear Cells ◽

Human Peripheral Blood ◽

Thermus Thermophilus ◽

Methylation Status ◽

Transfer Rna ◽

Type I ◽

Peripheral Blood Mononuclear ◽

Molecular Pattern

Foreign RNA serves as pathogen-associated molecular pattern (PAMP) and is a potent immune stimulator for innate immune receptors. However, the role of single bacterial RNA species in immune activation has not been characterized in detail. We analyzed the immunostimulatory potential of transfer RNA (tRNA) from different bacteria. Interestingly, bacterial tRNA induced type I interferon (IFN) and inflammatory cytokines in mouse dendritic cells (DCs) and human peripheral blood mononuclear cells (PBMCs). Cytokine production was TLR7 dependent because TLR7-deficient mouse DCs did not respond and TLR7 inhibitory oligonucleotides inhibited tRNA-mediated activation. However, not all bacterial tRNA induced IFN-α because tRNA from Escherichia coli Nissle 1917 and Thermus thermophilus were non-immunostimulatory. Of note, tRNA from an E. coli knockout strain for tRNA (Gm18)-2′-O-methyltransferase (trmH) regained immunostimulatory potential. Additionally, in vitro methylation of this immunostimulatory Gm18-negative tRNA with recombinant trmH from T. thermophilus abolished its IFN-α inducing potential. More importantly, Gm18-modified tRNA acted as TLR7 antagonist and blocked IFN-α induction of influenza A virus–infected PBMCs.

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The RNA origin of transfer RNA aminoacylation and beyond

Philosophical Transactions of the Royal Society B Biological Sciences ◽

10.1098/rstb.2011.0137 ◽

2011 ◽

Vol 366 (1580) ◽

pp. 2959-2964 ◽

Cited By ~ 16

Author(s):

Hiroaki Suga ◽

Gosuke Hayashi ◽

Naohiro Terasaka

Keyword(s):

Amino Acids ◽

Evolutionary History ◽

Transfer Rna ◽

Translation System ◽

Rna Sequences ◽

Rna Molecules ◽

Rna Catalysts ◽

Modern System ◽

History Of

Aminoacylation of tRNA is an essential event in the translation system. Although in the modern system protein enzymes play the sole role in tRNA aminoacylation, in the primitive translation system RNA molecules could have catalysed aminoacylation onto tRNA or tRNA-like molecules. Even though such RNA enzymes so far are not identified from known organisms, in vitro selection has generated such RNA catalysts from a pool of random RNA sequences. Among them, a set of RNA sequences, referred to as flexizymes (Fxs), discovered in our laboratory are able to charge amino acids onto tRNAs. Significantly, Fxs allow us to charge a wide variety of amino acids, including those that are non-proteinogenic, onto tRNAs bearing any desired anticodons, and thus enable us to reprogramme the genetic code at our will. This article summarizes the evolutionary history of Fxs and also the most recent advances in manipulating a translation system by integration with Fxs.

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