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PDBsum entry 3e9h
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References listed in PDB file
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Key reference
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Title
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Two crystal structures of lysyl-Trna synthetase from bacillus stearothermophilus in complex with lysyladenylate-Like compounds: insights into the irreversible formation of the enzyme-Bound adenylate of l-Lysine hydroxamate.
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Authors
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H.Sakurama,
T.Takita,
B.Mikami,
T.Itoh,
K.Yasukawa,
K.Inouye.
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Ref.
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J Biochem (tokyo), 2009,
145,
555-563.
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PubMed id
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Abstract
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Aminoacyl-tRNA synthetase forms an enzyme-bound intermediate, aminoacyladenylate
in the amino-acid activation reaction. This reaction is monitored by measuring
the ATP-PPi exchange reason in which [(32)P]PPi is incorporated into ATP. We
previously reported that L-lysine hydroxamate completely inhibited the
L-lysine-dependent ATP-PPi exchange reaction catalysed by lysyl-tRNA synthetase
from Bacillus stearothermophilus (BsLysRS). Several experiments suggested that
BsLysRS can adenylate L-lysine hydroxamate, but the enzyme-bound
lysyladenylate-like compound does not undergo the nucleophilic attack of PPi.
This contrasts with the two reports for seryl-tRNA synthetase (SerRS): (i)
L-serine hydroxamate was utilized by yeast SerRS as a substrate in the ATP-PPi
exchange; and (ii) a seryladenylate-like compound was formed from L-serine
hydroxamate in the crystal structure of Thermus thermophilus SerRS. To gain
clues about the mechanistic difference, we have determined the crystal
structures of two complexes of BsLysRS with the adenylate of L-lysine
hydroxamate and with 5'-O-[N-(L-Lysyl)sulphamoyl] adenosine. The comparisons of
the two BsLysRS structures and the above SerRS structure revealed the specific
side-chain shift of Glu411 of BsLysRS in the complex with the adenylate of
L-lysine hydroxamate. In support of other structural comparisons, the result
suggested that Glu411 plays a key role in the arrangement of PPi for the
nucleophilic attack.
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