Glycyl-tRNA synthetase from Nanoarchaeum equitans: The first crystal structure of archaeal GlyRS and analysis of its tRNA glycylation

Alma Fujisawa; Risako Toki; Hideaki Miyake; Tomoko Shoji; Hiromi Doi; Hiromi Hayashi; Rina Hanabusa; Hiromi Mutsuro-Aoki; Takuya Umehara; Tadashi Ando; Hiroki Noguchi; Arnout Voet; Sam Yong Park; Koji Tamura

doi:10.1016/j.bbrc.2019.01.142

Glycyl-tRNA synthetase from Nanoarchaeum equitans: The first crystal structure of archaeal GlyRS and analysis of its tRNA glycylation

Alma Fujisawa, Risako Toki, Hideaki Miyake, Tomoko Shoji, Hiromi Doi, Hiromi Hayashi, Rina Hanabusa, Hiromi Mutsuro-Aoki, Takuya Umehara, Tadashi Ando, Hiroki Noguchi, Arnout Voet, Sam Yong Park, Koji Tamura

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Abstract

This study reports the X-ray crystallographic structure of the glycyl-tRNA synthetase (GlyRS) of Nanoarchaeum equitans — a hyperthermophilic archaeal species. This is the first archaeal GlyRS crystal structure elucidated. The GlyRS comprises an N-terminal catalytic domain and a C-terminal anticodon-binding domain with a long β-sheet inserted between these domains. An unmodified transcript of the wild-type N. equitans tRNA ^Gly was successfully glycylated using GlyRS. Substitution of the discriminator base A73 of tRNA ^Gly with any other nucleotide caused a significant decrease in glycylation activity. Mutational analysis of the second base-pair C2G71 of the acceptor stem of tRNA ^Gly elucidated the importance of the base-pair, especially G71, as an identity element for recognition by GlyRS. Glycylation assays using tRNA ^Gly G71 substitution mutants and a GlyRS mutant where Arg223 is mutated to alanine strengthen the possibility that the carbonyl oxygen at position 6 of G71 would hydrogen-bond with the guanidine nitrogen of Arg223 in N. equitans GlyRS.

Original language	English
Pages (from-to)	228-233
Number of pages	6
Journal	Biochemical and Biophysical Research Communications
Volume	511
Issue number	2
DOIs	https://doi.org/10.1016/j.bbrc.2019.01.142
Publication status	Published - 2 Apr 2019

Keywords

Acceptor-stem recognition
Aminoacylation
Crystal structure
Glycyl-tRNA synthetase
Nanoarchaeum equitans
tRNA

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10.1016/j.bbrc.2019.01.142

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Fujisawa, A., Toki, R., Miyake, H., Shoji, T., Doi, H., Hayashi, H., Hanabusa, R., Mutsuro-Aoki, H., Umehara, T., Ando, T., Noguchi, H., Voet, A., Park, S. Y., & Tamura, K. (2019). Glycyl-tRNA synthetase from Nanoarchaeum equitans: The first crystal structure of archaeal GlyRS and analysis of its tRNA glycylation. Biochemical and Biophysical Research Communications, 511(2), 228-233. https://doi.org/10.1016/j.bbrc.2019.01.142

@article{556fce889fa640e4872430172a204ca0,

title = "Glycyl-tRNA synthetase from Nanoarchaeum equitans: The first crystal structure of archaeal GlyRS and analysis of its tRNA glycylation",

abstract = " This study reports the X-ray crystallographic structure of the glycyl-tRNA synthetase (GlyRS) of Nanoarchaeum equitans — a hyperthermophilic archaeal species. This is the first archaeal GlyRS crystal structure elucidated. The GlyRS comprises an N-terminal catalytic domain and a C-terminal anticodon-binding domain with a long β-sheet inserted between these domains. An unmodified transcript of the wild-type N. equitans tRNA Gly was successfully glycylated using GlyRS. Substitution of the discriminator base A73 of tRNA Gly with any other nucleotide caused a significant decrease in glycylation activity. Mutational analysis of the second base-pair C2G71 of the acceptor stem of tRNA Gly elucidated the importance of the base-pair, especially G71, as an identity element for recognition by GlyRS. Glycylation assays using tRNA Gly G71 substitution mutants and a GlyRS mutant where Arg223 is mutated to alanine strengthen the possibility that the carbonyl oxygen at position 6 of G71 would hydrogen-bond with the guanidine nitrogen of Arg223 in N. equitans GlyRS.",

keywords = "Acceptor-stem recognition, Aminoacylation, Crystal structure, Glycyl-tRNA synthetase, Nanoarchaeum equitans, tRNA",

author = "Alma Fujisawa and Risako Toki and Hideaki Miyake and Tomoko Shoji and Hiromi Doi and Hiromi Hayashi and Rina Hanabusa and Hiromi Mutsuro-Aoki and Takuya Umehara and Tadashi Ando and Hiroki Noguchi and Arnout Voet and Park, {Sam Yong} and Koji Tamura",

note = "Publisher Copyright: {\textcopyright} 2019 Elsevier Inc.",

year = "2019",

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day = "2",

doi = "10.1016/j.bbrc.2019.01.142",

language = "English",

volume = "511",

pages = "228--233",

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Fujisawa, A, Toki, R, Miyake, H, Shoji, T, Doi, H, Hayashi, H, Hanabusa, R, Mutsuro-Aoki, H, Umehara, T, Ando, T, Noguchi, H, Voet, A, Park, SY & Tamura, K 2019, 'Glycyl-tRNA synthetase from Nanoarchaeum equitans: The first crystal structure of archaeal GlyRS and analysis of its tRNA glycylation', Biochemical and Biophysical Research Communications, vol. 511, no. 2, pp. 228-233. https://doi.org/10.1016/j.bbrc.2019.01.142

TY - JOUR

T1 - Glycyl-tRNA synthetase from Nanoarchaeum equitans

T2 - The first crystal structure of archaeal GlyRS and analysis of its tRNA glycylation

AU - Fujisawa, Alma

AU - Toki, Risako

AU - Miyake, Hideaki

AU - Shoji, Tomoko

AU - Doi, Hiromi

AU - Hayashi, Hiromi

AU - Hanabusa, Rina

AU - Mutsuro-Aoki, Hiromi

AU - Umehara, Takuya

AU - Ando, Tadashi

AU - Noguchi, Hiroki

AU - Voet, Arnout

AU - Park, Sam Yong

AU - Tamura, Koji

PY - 2019/4/2

Y1 - 2019/4/2

N2 - This study reports the X-ray crystallographic structure of the glycyl-tRNA synthetase (GlyRS) of Nanoarchaeum equitans — a hyperthermophilic archaeal species. This is the first archaeal GlyRS crystal structure elucidated. The GlyRS comprises an N-terminal catalytic domain and a C-terminal anticodon-binding domain with a long β-sheet inserted between these domains. An unmodified transcript of the wild-type N. equitans tRNA Gly was successfully glycylated using GlyRS. Substitution of the discriminator base A73 of tRNA Gly with any other nucleotide caused a significant decrease in glycylation activity. Mutational analysis of the second base-pair C2G71 of the acceptor stem of tRNA Gly elucidated the importance of the base-pair, especially G71, as an identity element for recognition by GlyRS. Glycylation assays using tRNA Gly G71 substitution mutants and a GlyRS mutant where Arg223 is mutated to alanine strengthen the possibility that the carbonyl oxygen at position 6 of G71 would hydrogen-bond with the guanidine nitrogen of Arg223 in N. equitans GlyRS.

AB - This study reports the X-ray crystallographic structure of the glycyl-tRNA synthetase (GlyRS) of Nanoarchaeum equitans — a hyperthermophilic archaeal species. This is the first archaeal GlyRS crystal structure elucidated. The GlyRS comprises an N-terminal catalytic domain and a C-terminal anticodon-binding domain with a long β-sheet inserted between these domains. An unmodified transcript of the wild-type N. equitans tRNA Gly was successfully glycylated using GlyRS. Substitution of the discriminator base A73 of tRNA Gly with any other nucleotide caused a significant decrease in glycylation activity. Mutational analysis of the second base-pair C2G71 of the acceptor stem of tRNA Gly elucidated the importance of the base-pair, especially G71, as an identity element for recognition by GlyRS. Glycylation assays using tRNA Gly G71 substitution mutants and a GlyRS mutant where Arg223 is mutated to alanine strengthen the possibility that the carbonyl oxygen at position 6 of G71 would hydrogen-bond with the guanidine nitrogen of Arg223 in N. equitans GlyRS.

KW - Acceptor-stem recognition

KW - Aminoacylation

KW - Crystal structure

KW - Glycyl-tRNA synthetase

KW - Nanoarchaeum equitans

KW - tRNA

UR - http://www.scopus.com/inward/record.url?scp=85062601000&partnerID=8YFLogxK

U2 - 10.1016/j.bbrc.2019.01.142

DO - 10.1016/j.bbrc.2019.01.142

M3 - Article

C2 - 30771900

AN - SCOPUS:85062601000

SN - 0006-291X

VL - 511

SP - 228

EP - 233

JO - Biochemical and Biophysical Research Communications

JF - Biochemical and Biophysical Research Communications

IS - 2

ER -

Glycyl-tRNA synthetase from Nanoarchaeum equitans: The first crystal structure of archaeal GlyRS and analysis of its tRNA glycylation

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Keywords

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