The conserved Wobble uridine tRNA thiolase Ctu1-Ctu2 is required to maintain genome integrity

M. Dewez; F. Bauer; M. Dieu; M. Raes; J. Vandenhaute; D. Hermand

The conserved Wobble uridine tRNA thiolase Ctu1-Ctu2 is required to maintain genome integrity

Translated title of the contribution: The conserved Wobble uridine tRNA thiolase Ctu1-Ctu2 is required to maintain genome integrity

M. Dewez, F. Bauer, M. Dieu, M. Raes, J. Vandenhaute, D. Hermand

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

Abstract

Modified nucleosides close to the anticodon are important for the proper decoding of mRNA by the ribosome. Particularly, the uridine at the first anticodon position (U34) of glutamate, lysine, and glutamine tRNAs is universally thiolated (S(2)U34), which is proposed to be crucial for both restriction of wobble in the corresponding split codon box and efficient codon-anticodon interaction. Here we show that the highly conserved complex Ctu1-Ctu2 (cytosolic thiouridylase) is responsible for the 2-thiolation of cytosolic tRNAs in the nematode and fission yeast. In both species, inactivation of the complex leads to loss of thiolation on tRNAs and to a thermosensitive decrease of viability associated with marked ploidy abnormalities and aberrant development. Increased level of the corresponding tRNAs suppresses the fission yeast defects, and our data suggest that these defects could result from both misreading and frame shifting during translation. Thus, a translation defect due to unmodified tRNAs results in severe genome instability

Translated title of the contribution	The conserved Wobble uridine tRNA thiolase Ctu1-Ctu2 is required to maintain genome integrity
Original language	Undefined/Unknown
Pages (from-to)	5459-5464
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	105
Issue number	14
Publication status	Published - 2008

Cite this

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title = "The conserved Wobble uridine tRNA thiolase Ctu1-Ctu2 is required to maintain genome integrity",

abstract = "Modified nucleosides close to the anticodon are important for the proper decoding of mRNA by the ribosome. Particularly, the uridine at the first anticodon position (U34) of glutamate, lysine, and glutamine tRNAs is universally thiolated (S(2)U34), which is proposed to be crucial for both restriction of wobble in the corresponding split codon box and efficient codon-anticodon interaction. Here we show that the highly conserved complex Ctu1-Ctu2 (cytosolic thiouridylase) is responsible for the 2-thiolation of cytosolic tRNAs in the nematode and fission yeast. In both species, inactivation of the complex leads to loss of thiolation on tRNAs and to a thermosensitive decrease of viability associated with marked ploidy abnormalities and aberrant development. Increased level of the corresponding tRNAs suppresses the fission yeast defects, and our data suggest that these defects could result from both misreading and frame shifting during translation. Thus, a translation defect due to unmodified tRNAs results in severe genome instability",

author = "M. Dewez and F. Bauer and M. Dieu and M. Raes and J. Vandenhaute and D. Hermand",

note = "J PR 8 Vodcast presentation E-symposium Assessment of Clinical Competence",

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journal = "Proceedings of the National Academy of Sciences of the United States of America",

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T1 - The conserved Wobble uridine tRNA thiolase Ctu1-Ctu2 is required to maintain genome integrity

AU - Dewez, M.

AU - Bauer, F.

AU - Dieu, M.

AU - Raes, M.

AU - Vandenhaute, J.

AU - Hermand, D.

N1 - J PR 8 Vodcast presentation E-symposium Assessment of Clinical Competence

PY - 2008

Y1 - 2008

N2 - Modified nucleosides close to the anticodon are important for the proper decoding of mRNA by the ribosome. Particularly, the uridine at the first anticodon position (U34) of glutamate, lysine, and glutamine tRNAs is universally thiolated (S(2)U34), which is proposed to be crucial for both restriction of wobble in the corresponding split codon box and efficient codon-anticodon interaction. Here we show that the highly conserved complex Ctu1-Ctu2 (cytosolic thiouridylase) is responsible for the 2-thiolation of cytosolic tRNAs in the nematode and fission yeast. In both species, inactivation of the complex leads to loss of thiolation on tRNAs and to a thermosensitive decrease of viability associated with marked ploidy abnormalities and aberrant development. Increased level of the corresponding tRNAs suppresses the fission yeast defects, and our data suggest that these defects could result from both misreading and frame shifting during translation. Thus, a translation defect due to unmodified tRNAs results in severe genome instability

AB - Modified nucleosides close to the anticodon are important for the proper decoding of mRNA by the ribosome. Particularly, the uridine at the first anticodon position (U34) of glutamate, lysine, and glutamine tRNAs is universally thiolated (S(2)U34), which is proposed to be crucial for both restriction of wobble in the corresponding split codon box and efficient codon-anticodon interaction. Here we show that the highly conserved complex Ctu1-Ctu2 (cytosolic thiouridylase) is responsible for the 2-thiolation of cytosolic tRNAs in the nematode and fission yeast. In both species, inactivation of the complex leads to loss of thiolation on tRNAs and to a thermosensitive decrease of viability associated with marked ploidy abnormalities and aberrant development. Increased level of the corresponding tRNAs suppresses the fission yeast defects, and our data suggest that these defects could result from both misreading and frame shifting during translation. Thus, a translation defect due to unmodified tRNAs results in severe genome instability

M3 - Article

SN - 0027-8424

VL - 105

SP - 5459

EP - 5464

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 14

ER -

The conserved Wobble uridine tRNA thiolase Ctu1-Ctu2 is required to maintain genome integrity

Abstract

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