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PDBsum entry 2zr3
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References listed in PDB file
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Key reference
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Title
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Crystallographic and mutational studies of seryl-Trna synthetase from the archaeon pyrococcus horikoshii.
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Authors
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Y.Itoh,
S.Sekine,
C.Kuroishi,
T.Terada,
M.Shirouzu,
S.Kuramitsu,
S.Yokoyama.
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Ref.
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Rna Biol, 2008,
5,
169-177.
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PubMed id
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Abstract
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Seryl-tRNA synthetase (SerRS) catalyzes the ligation of serine to the 3'-end of
serine tRNA (tRNA(Ser)), which is typical of the type-2 tRNAs characterized by a
long extra arm. The SerRSs are divided into two types, the archaeal/eukaryal and
bacterial types. In this study, we solved the crystal structures of the SerRS
from the archaeon Pyrococcus horikoshii bound with
5'-O-[N-(L-seryl)-sulfamoyl]-adenosine at 2.6 A and with ATP at 2.8 A, as well
as in the apo form at 3.0 A. P. horikoshii SerRS recognizes the seryl and
adenylate moieties in a manner similar to those of the bacterial and
mitochondrial SerRSs from Thermus thermophilus and Bos taurus, respectively, but
different from that of the unusual SerRS from the methanogenic archaeon
Methanosarcina barkeri. P. horikoshii SerRS efficiently aminoacylated not only
P. horikoshii tRNA(Ser) but also bacterial tRNA(Ser)s from T. thermophilus and
Escherichia coli. Models of P. horikoshii SerRS bound with the T. thermophilus
and P. horikoshii tRNA(Ser)s suggested that the helical domain of P. horikoshii
SerRS is involved in the extra arm binding. This region of P. horikoshii SerRS
has additional basic residues as compared with T. thermophilus SerRS, and a Trp
residue specific to the archaeal/eukaryal SerRSs. Mutational analyses revealed
that the basic and Trp residues are important for tRNA aminoacylation. P.
horikoshii SerRS has the archaea-specific insertion, which collaborates with the
core domain to form a basic channel leading to the active site. Two sulfate ions
are bound to the channel, suggesting that the tRNA 3' region might bind to the
channel.
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