Jeannette Wolf scite author profile

Eukaryotic cells contain several unconventional poly(A) polymerases in addition to the canonical enzymes responsible for the synthesis of poly(A) tails of nuclear messenger RNA precursors. The yeast protein Trf4p has been implicated in a quality control pathway that leads to the polyadenylation and subsequent exosome-mediated degradation of hypomethylated initiator tRNAMet (tRNAi Met). Here we show that Trf4p is the catalytic subunit of a new poly(A) polymerase complex that contains Air1p or Air2p as potential RNA-binding subunits, as well as the putative RNA helicase Mtr4p. Comparison of native tRNAi Met with its in vitro transcribed unmodified counterpart revealed that the unmodified RNA was preferentially polyadenylated by affinity-purified Trf4 complex from yeast, as well as by complexes reconstituted from recombinant components. These results and additional experiments with other tRNA substrates suggested that the Trf4 complex can discriminate between native tRNAs and molecules that are incorrectly folded. Moreover, the polyadenylation activity of the Trf4 complex stimulated the degradation of unmodified tRNAi Met by nuclear exosome fractions in vitro. Degradation was most efficient when coupled to the polyadenylation activity of the Trf4 complex, indicating that the poly(A) tails serve as signals for the recruitment of the exosome. This polyadenylation-mediated RNA surveillance resembles the role of polyadenylation in bacterial RNA turnover.

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tadA, an essential tRNA-specific adenosine deaminase from Escherichia coli

Wolf¹

2002

254

256

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We report the characterization of tadA, the ®rst prokaryotic RNA editing enzyme to be identi®ed. Escherichia coli tadA displays sequence similarity to the yeast tRNA deaminase subunit Tad2p. Recombinant tadA protein forms homodimers and is suf®-cient for site-speci®c inosine formation at the wobble position (position 34) of tRNA Arg2 , the only tRNA having this modi®cation in prokaryotes. With the exception of yeast tRNA Arg , no other eukaryotic tRNA substrates were found to be modi®ed by tadA. However, an arti®cial yeast tRNA Asp , which carries the anticodon loop of yeast tRNA Arg , is bound and modi®ed by tadA. Moreover, a tRNA Arg2 minisubstrate containing the anticodon stem and loop is suf®cient for speci®c deamination by tadA. We show that nucleotides at positions 33±36 are suf®cient for inosine formation in mutant Arg2 minisubstrates. The anticodon is thus a major determinant for tadA substrate speci®city. Finally, we show that tadA is an essential gene in E.coli, underscoring the critical function of inosine at the wobble position in prokaryotes.

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Isolation and genetic characterizations of Bacillus megaterium cobalamin biosynthesis-deficient mutants

Wolf¹,

Brey²

1986

J Bacteriol

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Ethanolamine is deaminated by the action of ethanolamine ammonia-lyase (EC 4.3.1.7), an adenosylcobalamin-dependent enzyme. Consequently, to grow on ethanolamine as a sole nitrogen source, Bacillus megaterium requires vitamin B12. Identification of B. megaterium mutants deficient for growth on ethanolamine as the sole nitrogen source yielded a total of 34 vitamin B12 auxotrophs. The vitamin B12 auxotrophs were divided into two major phenotypic groups: Cob mutants, which could use cobinamide or vitamin B12 to grow on ethanolamine, and Cbl mutants, which could be supplemented only by vitamin B12. The Cob mutants were resolved into six classes and the Cbl mutants were resolved into three, based on the spectrum of cobalt-labeled corrinoid compounds which they accumulated. Although some radiolabeled cobalamin was detected in the wild type, little or none was evident in the auxotrophs. The results indicate that Cob mutants contain lesions in biosynthetic steps before the synthesis of combinamide, while Cbl mutants are defective in the conversion of cobinamide to cobalamin. Analysis of phage-mediated transduction experiments revealed tight genetic linkage within the Cob class and within the Cbl class. Similar transduction analysis indicated the Cob and Cbl classes are weakly linked. In addition, cross-feeding experiments in which extracts prepared from mutants were examined for their effect on growth of various other mutants allowed a partial ordering of mutations within the cobalamin biosynthetic pathway.

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Editing of messenger RNA precursors and of tRNAs by adenosine to inosine conversion

1999

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The double-stranded RNA-specific adenosine deaminases ADAR1 and ADAR2 convert adenosine (A) residues to inosine (I) in messenger RNA precursors (pre-mRNA). Their main physiological substrates are pre-mRNAs encoding subunits of ionotropic glutamate receptors or serotonin receptors in the brain. ADAR1 and ADAR2 have similar sequence features, including double-stranded RNA binding domains (dsRBDs) and a deaminase domain. The tRNA-specific adenosine deaminases Tad1p and Tad2p/Tad3p modify A 37 in tRNA-Ala 1 of eukaryotes and the first nucleotide of the anticodon (A 34) of several bacterial and eukaryotic tRNAs, respectively. Tad1p is related to ADAR1 and ADAR2 throughout its sequence but lacks dsRBDs. Tad1p could be the ancestor of ADAR1 and ADAR2. The deaminase domains of ADAR1, ADAR2 and Tad1p are very similar and resemble the active site domains of cytosine/cytidine deaminases.z 1999 Federation of European Biochemical Societies.

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Cloning of multiple genes involved with cobalamin (Vitamin B12) biosynthesis in Bacillus megaterium

Brey¹,

Banner²,

Wolf³

1986

J Bacteriol

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Jeannette Wolf

A New Yeast Poly(A) Polymerase Complex Involved in RNA Quality Control

tadA, an essential tRNA-specific adenosine deaminase from Escherichia coli

Isolation and genetic characterizations of Bacillus megaterium cobalamin biosynthesis-deficient mutants

Editing of messenger RNA precursors and of tRNAs by adenosine to inosine conversion

Cloning of multiple genes involved with cobalamin (Vitamin B12) biosynthesis in Bacillus megaterium

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