15N and 13C labeling of Escherichia coli tRNAs toward the NMR analysis.

G. Kawai; M. Takayanagi; N. Hayashi; T. Niimi; G. Sanpei; K. Mizobuchi; T. Miyazawa; S. Tokoyama; K. Watanabe

15N and 13C labeling of Escherichia coli tRNAs toward the NMR analysis.

G. Kawai, M. Takayanagi, N. Hayashi, T. Niimi, G. Sanpei, K. Mizobuchi, T. Miyazawa, S. Tokoyama, K. Watanabe

Research output: Contribution to journal › Article › peer-review

Abstract

Escherichia coli tRNAs were labeled with stable isotope 15N in vivo. Three species of tRNA, tRNA(Glu), tRNA(Lys) and tRNA(Ile), were purified by an HPLC system and their NMR spectra were observed. In heteronuclear 1H-15N multiple or single quantum coherence (HMQC or HSQC) spectra, the crosspeaks corresponding to NH3 of U and NH1 of G can be distinguished clearly since their 15N chemical shifts are significantly different from each other. Thus, this combination of 15N-labeling and the proton detected heteronuclear experiments are useful for the signal assignment and the conformational analysis of tRNAs. Furthermore, C1'- selective 13C-labeling of nucleotides was examined in vivo in order to resolve the H1' signals of tRNAs. By using a newly constructed E. coli mutant strain, the isotopic enrichments of more than 90% at C1' and of less than 10% for other ribose carbons were achieved.

Original language	English
Pages (from-to)	131-132
Number of pages	2
Journal	Nucleic acids symposium series
Issue number	27
Publication status	Published - 1992
Externally published	Yes

All Science Journal Classification (ASJC) codes

General Medicine

Cite this

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title = "15N and 13C labeling of Escherichia coli tRNAs toward the NMR analysis.",

abstract = "Escherichia coli tRNAs were labeled with stable isotope 15N in vivo. Three species of tRNA, tRNA(Glu), tRNA(Lys) and tRNA(Ile), were purified by an HPLC system and their NMR spectra were observed. In heteronuclear 1H-15N multiple or single quantum coherence (HMQC or HSQC) spectra, the crosspeaks corresponding to NH3 of U and NH1 of G can be distinguished clearly since their 15N chemical shifts are significantly different from each other. Thus, this combination of 15N-labeling and the proton detected heteronuclear experiments are useful for the signal assignment and the conformational analysis of tRNAs. Furthermore, C1'- selective 13C-labeling of nucleotides was examined in vivo in order to resolve the H1' signals of tRNAs. By using a newly constructed E. coli mutant strain, the isotopic enrichments of more than 90\% at C1' and of less than 10\% for other ribose carbons were achieved.",

author = "G. Kawai and M. Takayanagi and N. Hayashi and T. Niimi and G. Sanpei and K. Mizobuchi and T. Miyazawa and S. Tokoyama and K. Watanabe",

year = "1992",

language = "English",

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journal = "Nucleic acids symposium series",

issn = "0261-3166",

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number = "27",

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TY - JOUR

T1 - 15N and 13C labeling of Escherichia coli tRNAs toward the NMR analysis.

AU - Kawai, G.

AU - Takayanagi, M.

AU - Hayashi, N.

AU - Niimi, T.

AU - Sanpei, G.

AU - Mizobuchi, K.

AU - Miyazawa, T.

AU - Tokoyama, S.

AU - Watanabe, K.

PY - 1992

Y1 - 1992

N2 - Escherichia coli tRNAs were labeled with stable isotope 15N in vivo. Three species of tRNA, tRNA(Glu), tRNA(Lys) and tRNA(Ile), were purified by an HPLC system and their NMR spectra were observed. In heteronuclear 1H-15N multiple or single quantum coherence (HMQC or HSQC) spectra, the crosspeaks corresponding to NH3 of U and NH1 of G can be distinguished clearly since their 15N chemical shifts are significantly different from each other. Thus, this combination of 15N-labeling and the proton detected heteronuclear experiments are useful for the signal assignment and the conformational analysis of tRNAs. Furthermore, C1'- selective 13C-labeling of nucleotides was examined in vivo in order to resolve the H1' signals of tRNAs. By using a newly constructed E. coli mutant strain, the isotopic enrichments of more than 90% at C1' and of less than 10% for other ribose carbons were achieved.

AB - Escherichia coli tRNAs were labeled with stable isotope 15N in vivo. Three species of tRNA, tRNA(Glu), tRNA(Lys) and tRNA(Ile), were purified by an HPLC system and their NMR spectra were observed. In heteronuclear 1H-15N multiple or single quantum coherence (HMQC or HSQC) spectra, the crosspeaks corresponding to NH3 of U and NH1 of G can be distinguished clearly since their 15N chemical shifts are significantly different from each other. Thus, this combination of 15N-labeling and the proton detected heteronuclear experiments are useful for the signal assignment and the conformational analysis of tRNAs. Furthermore, C1'- selective 13C-labeling of nucleotides was examined in vivo in order to resolve the H1' signals of tRNAs. By using a newly constructed E. coli mutant strain, the isotopic enrichments of more than 90% at C1' and of less than 10% for other ribose carbons were achieved.

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M3 - Article

C2 - 1283902

AN - SCOPUS:0027034223

SN - 0261-3166

SP - 131

EP - 132

JO - Nucleic acids symposium series

JF - Nucleic acids symposium series

IS - 27

ER -

15N and 13C labeling of Escherichia coli tRNAs toward the NMR analysis.

Abstract

All Science Journal Classification (ASJC) codes

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