Biochemical and phylogenetic analyses of methionyl-tRNA synthetase isolated from a pathogenic microorganism, Mycobacterium tuberculosis

Sunghoon Kim; Yeong Joon Jo; Sang Ho Lee; Hiromi Motegi; Kiyotaka Shiba; Mandana Sassanfar; Susan A. Martinis

doi:10.1016/S0014-5793(98)00417-7

Biochemical and phylogenetic analyses of methionyl-tRNA synthetase isolated from a pathogenic microorganism, Mycobacterium tuberculosis

Sunghoon Kim, Yeong Joon Jo, Sang Ho Lee, Hiromi Motegi, Kiyotaka Shiba, Mandana Sassanfar, Susan A. Martinis

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

Abstract

Mycobacterium tuberculosis methionyl-tRNA synthetase (MetRS) has been cloned and characterized. The protein contains class I signature sequences but lacks the Zn²⁺ binding motif and the C-terminal dimerization appendix that are found in MetRSs from several organisms including E. coli MetRS. Consistent with these features, the enzyme behaved as a monomer in a gel filtration chromatography and did not contain the bound Zn²⁺. Nonetheless, it was active to the tRNA(Met) of E. coli as determined by in vivo genetic complementation and in vitro reaction. Phylogenetic analysis separated the M. tuberculosis and E. coli MetRSs into prokaryote and eukaryote-archaea group, respectively. This result is consistent with the taxonomic locations of the organism but is an interesting contrast to the case of its paralogous protein, isoleucyl-tRNA synthetase, and suggests that the two enzymes evolved in separate idiosyncratic pathways.

Original language	English (US)
Pages (from-to)	259-262
Number of pages	4
Journal	FEBS Letters
Volume	427
Issue number	2
DOIs	https://doi.org/10.1016/S0014-5793(98)00417-7
State	Published - May 8 1998
Externally published	Yes

Keywords

An binding motif
Dimerization
Methionyl-tRNA synthetase
Mycobacterium tuberculosis
Phylogeny

ASJC Scopus subject areas

Biophysics
Structural Biology
Biochemistry
Molecular Biology
Genetics
Cell Biology

Online availability

10.1016/S0014-5793(98)00417-7

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title = "Biochemical and phylogenetic analyses of methionyl-tRNA synthetase isolated from a pathogenic microorganism, Mycobacterium tuberculosis",

abstract = "Mycobacterium tuberculosis methionyl-tRNA synthetase (MetRS) has been cloned and characterized. The protein contains class I signature sequences but lacks the Zn2+ binding motif and the C-terminal dimerization appendix that are found in MetRSs from several organisms including E. coli MetRS. Consistent with these features, the enzyme behaved as a monomer in a gel filtration chromatography and did not contain the bound Zn2+. Nonetheless, it was active to the tRNA(Met) of E. coli as determined by in vivo genetic complementation and in vitro reaction. Phylogenetic analysis separated the M. tuberculosis and E. coli MetRSs into prokaryote and eukaryote-archaea group, respectively. This result is consistent with the taxonomic locations of the organism but is an interesting contrast to the case of its paralogous protein, isoleucyl-tRNA synthetase, and suggests that the two enzymes evolved in separate idiosyncratic pathways.",

keywords = "An binding motif, Dimerization, Methionyl-tRNA synthetase, Mycobacterium tuberculosis, Phylogeny",

author = "Sunghoon Kim and Jo, {Yeong Joon} and Lee, {Sang Ho} and Hiromi Motegi and Kiyotaka Shiba and Mandana Sassanfar and Martinis, {Susan A.}",

note = "Funding Information: We thank Drs. P. Schimmel for providing insight, S. Nair for M. kansasii genomic DNA, R. Young for a λgt11 M. tuberculosis library, and K.C. Lee for the HPLC experiment. This work was supported in part by a National Institutes of Health SBIR Grant #1R431I36615-01A1 to S.A.M. (USA), a grant from the Ministry of Education, Science, and Culture (Japan) and by BSRI-96-4417 and HMP-96-D-1-0016 (Korea).",

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doi = "10.1016/S0014-5793(98)00417-7",

language = "English (US)",

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AU - Motegi, Hiromi

AU - Shiba, Kiyotaka

AU - Sassanfar, Mandana

AU - Martinis, Susan A.

N1 - Funding Information: We thank Drs. P. Schimmel for providing insight, S. Nair for M. kansasii genomic DNA, R. Young for a λgt11 M. tuberculosis library, and K.C. Lee for the HPLC experiment. This work was supported in part by a National Institutes of Health SBIR Grant #1R431I36615-01A1 to S.A.M. (USA), a grant from the Ministry of Education, Science, and Culture (Japan) and by BSRI-96-4417 and HMP-96-D-1-0016 (Korea).

PY - 1998/5/8

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N2 - Mycobacterium tuberculosis methionyl-tRNA synthetase (MetRS) has been cloned and characterized. The protein contains class I signature sequences but lacks the Zn2+ binding motif and the C-terminal dimerization appendix that are found in MetRSs from several organisms including E. coli MetRS. Consistent with these features, the enzyme behaved as a monomer in a gel filtration chromatography and did not contain the bound Zn2+. Nonetheless, it was active to the tRNA(Met) of E. coli as determined by in vivo genetic complementation and in vitro reaction. Phylogenetic analysis separated the M. tuberculosis and E. coli MetRSs into prokaryote and eukaryote-archaea group, respectively. This result is consistent with the taxonomic locations of the organism but is an interesting contrast to the case of its paralogous protein, isoleucyl-tRNA synthetase, and suggests that the two enzymes evolved in separate idiosyncratic pathways.

AB - Mycobacterium tuberculosis methionyl-tRNA synthetase (MetRS) has been cloned and characterized. The protein contains class I signature sequences but lacks the Zn2+ binding motif and the C-terminal dimerization appendix that are found in MetRSs from several organisms including E. coli MetRS. Consistent with these features, the enzyme behaved as a monomer in a gel filtration chromatography and did not contain the bound Zn2+. Nonetheless, it was active to the tRNA(Met) of E. coli as determined by in vivo genetic complementation and in vitro reaction. Phylogenetic analysis separated the M. tuberculosis and E. coli MetRSs into prokaryote and eukaryote-archaea group, respectively. This result is consistent with the taxonomic locations of the organism but is an interesting contrast to the case of its paralogous protein, isoleucyl-tRNA synthetase, and suggests that the two enzymes evolved in separate idiosyncratic pathways.

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KW - Phylogeny

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Biochemical and phylogenetic analyses of methionyl-tRNA synthetase isolated from a pathogenic microorganism, Mycobacterium tuberculosis

Abstract

Keywords

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