Structural features of tRNALys favored by anticodon nuclease as inferred from reactivities of anticodon stem and loop substrate analogs. |
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Authors: | Yue Jiang Shani Blanga Michal Amitsur Roberto Meidler Eli Krivosheyev Mallikarjun Sundaram Ashok C Bajji Darrell R Davis Gabriel Kaufmann |
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Affiliation: | Department of Biochemistry, Tel Aviv University, Ramat, Aviv 69978, Israel. |
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Abstract: | The bacterial tRNA(Lys)-specific PrrC-anticodon nuclease efficiently cleaved an anticodon stem-loop (ASL) oligoribonucleotide containing the natural modified bases, suggesting this region harbors the specificity determinants. Assays of ASL analogs indicated that the 6-threonylcarbamoyl adenosine modification (t(6)A37) enhances the reactivity. The side chain of the modified wobble base 5-methylaminomethyl-2-thiouridine (mnm(5)s(2)U34) has a weaker positive effect depending on the context of other modifications. The s(2)U34 modification apparently has none and the pseudouridine (psi39) was inhibitory in most modification contexts. GC-rich but not IC-rich stems abolished the activity. Correlating the reported structural effects of the base modifications with their effects on anticodon nuclease activity suggests preference for substrates where the anticodon nucleotides assume a stacked A-RNA conformation and base pairing interactions in the stem are destabilized. Moreover, the proposal that PrrC residue Asp(287) contacts mnm(5)s(2)U34 was reinforced by the observations that the mammalian tRNA(Lys-3) wobble base 5-methoxycarbonyl methyl-2-thiouridine (mcm(5)s(2)U) is inhibitory and that the D287H mutant favors tRNA(Lys-3) over Escherichia coli tRNA(Lys). The detection of this mutation and ability of PrrC to cleave the isolated ASL suggest that anticodon nuclease may be used to cleave tRNA(Lys-3) primer molecules annealed to the genomic RNA template of the human immunodeficiency virus. |
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