Use of RNase P for Efficient Preparation of Yeast tRNATyr Transcript and Its Mutants

doi:10.1093/jb/mvj005

Journal of Biochemistry 2006 139(1):123-127; doi:10.1093/jb/mvj005

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Use of RNase P for Efficient Preparation of Yeast tRNA^Tyr Transcript and Its Mutants

Jun-ichi Fukunaga, Masaki Gouda, Koji Umeda, Satoshi Ohno, Takashi Yokogawa and Kazuya Nishikawa^*

Department of Biomolecular Science, Faculty of Engineering, Gifu University, Yanagido 1-1, Gifu 501-1193

^* To whom correspondence should be addressed. Tel: +81-58-293-2643, Fax: +81-58-230-1893, E-mail: zuy{at}biomol.gifu-u.ac.jp

Because T7 RNA polymerase has a strong preference for particularsequences to initiate transcription, some RNAs having pyrimidine-richsequences at their 5'-end (yeast tRNA^Tyr, for example) are hardlytranscribed by this enzyme. To circumvent this inconvenience,we have developed an efficient method for in vitro preparationof such tRNAs. The RNA of interest is first transcribed as aprecursor form that has purine-rich extra sequences at its 5'-end,then processed with RNase P to generate the objective tRNAs.By using this protocol, we were able to prepare easily and efficientlyyeast tRNA^Tyr transcript and its mutants harboring base substitutionswithin the anticodon loop and/or acceptor stem regions. Aminoacylationanalyses of these tRNA transcripts with yeast tyrosyl-tRNA synthetaserevealed that the replacement of G34 by C34 (mutation to ambersuppressor) severely impaired the aminoacylation, whereas thereplacement of the U4:G69 wobble base-pair in the acceptor stemregion by C4:G69 normal Watson-Crick type base-pair improvedit.

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Journal of Biochemistry

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Use of RNase P for Efficient Preparation of Yeast tRNATyr Transcript and Its Mutants

Use of RNase P for Efficient Preparation of Yeast tRNA^Tyr Transcript and Its Mutants