Functional complementation between mutations in a yeast suppressor tRNA gene reveals potential for evolution of tRNA sequences

I. Willis; M. Nichols; V. Chisholm; D. Söll; W. D. Heyer; P. Szankasi; H. Amstutz; P. Munz; J. Kohli

doi:10.1073/pnas.83.20.7860

Functional complementation between mutations in a yeast suppressor tRNA gene reveals potential for evolution of tRNA sequences

I. Willis, M. Nichols, V. Chisholm, D. Söll, W. D. Heyer, P. Szankasi, H. Amstutz, P. Munz, J. Kohli

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

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Abstract

Successive rounds of mutagenesis of a Schizosaccharomyces pombe strain bearing the UGA-reading sup3 tRNA(Ser) suppressor have been carried out for two cycles of inactivation and reactivation of the suppressor. The suppressor phenotype at each stage was found to involve different combinations of three mutations, A30, A53, and A67, in the sup3-UGA gene. Single mutations A30 and A53 inactivate the suppressor as does the presence of all three mutations. A67 by itself or phenotypically neutral, but in combination with either A30 or A53 suppressor function is restored. The frequency with which these and other complementation events occur in S. pombe demonstrates a significant potential for nucleotide sequence evolution in tRNA. Differential expression of the S. pombe genes in Saccharmoyces cerevisiae suggests that the two yeasts have diverged at the transcriptional and RNA processing level. Processing of the mutant tRNA precursors in S. cerevisiae reveals a hierarchy of structural domains within the tRNA that vary in their importance for RNase P cleavage.

Original language	English (US)
Pages (from-to)	7860-7864
Number of pages	5
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	83
Issue number	20
DOIs	https://doi.org/10.1073/pnas.83.20.7860
State	Published - 1986
Externally published	Yes

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Willis, I., Nichols, M., Chisholm, V., Söll, D., Heyer, W. D., Szankasi, P., Amstutz, H., Munz, P., & Kohli, J. (1986). Functional complementation between mutations in a yeast suppressor tRNA gene reveals potential for evolution of tRNA sequences. Proceedings of the National Academy of Sciences of the United States of America, 83(20), 7860-7864. https://doi.org/10.1073/pnas.83.20.7860

Willis, I, Nichols, M, Chisholm, V, Söll, D, Heyer, WD, Szankasi, P, Amstutz, H, Munz, P & Kohli, J 1986, 'Functional complementation between mutations in a yeast suppressor tRNA gene reveals potential for evolution of tRNA sequences', Proceedings of the National Academy of Sciences of the United States of America, vol. 83, no. 20, pp. 7860-7864. https://doi.org/10.1073/pnas.83.20.7860

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abstract = "Successive rounds of mutagenesis of a Schizosaccharomyces pombe strain bearing the UGA-reading sup3 tRNA(Ser) suppressor have been carried out for two cycles of inactivation and reactivation of the suppressor. The suppressor phenotype at each stage was found to involve different combinations of three mutations, A30, A53, and A67, in the sup3-UGA gene. Single mutations A30 and A53 inactivate the suppressor as does the presence of all three mutations. A67 by itself or phenotypically neutral, but in combination with either A30 or A53 suppressor function is restored. The frequency with which these and other complementation events occur in S. pombe demonstrates a significant potential for nucleotide sequence evolution in tRNA. Differential expression of the S. pombe genes in Saccharmoyces cerevisiae suggests that the two yeasts have diverged at the transcriptional and RNA processing level. Processing of the mutant tRNA precursors in S. cerevisiae reveals a hierarchy of structural domains within the tRNA that vary in their importance for RNase P cleavage.",

author = "I. Willis and M. Nichols and V. Chisholm and D. S{\"o}ll and Heyer, {W. D.} and P. Szankasi and H. Amstutz and P. Munz and J. Kohli",

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doi = "10.1073/pnas.83.20.7860",

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AU - Willis, I.

AU - Nichols, M.

AU - Chisholm, V.

AU - Söll, D.

AU - Heyer, W. D.

AU - Szankasi, P.

AU - Amstutz, H.

AU - Munz, P.

AU - Kohli, J.

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N2 - Successive rounds of mutagenesis of a Schizosaccharomyces pombe strain bearing the UGA-reading sup3 tRNA(Ser) suppressor have been carried out for two cycles of inactivation and reactivation of the suppressor. The suppressor phenotype at each stage was found to involve different combinations of three mutations, A30, A53, and A67, in the sup3-UGA gene. Single mutations A30 and A53 inactivate the suppressor as does the presence of all three mutations. A67 by itself or phenotypically neutral, but in combination with either A30 or A53 suppressor function is restored. The frequency with which these and other complementation events occur in S. pombe demonstrates a significant potential for nucleotide sequence evolution in tRNA. Differential expression of the S. pombe genes in Saccharmoyces cerevisiae suggests that the two yeasts have diverged at the transcriptional and RNA processing level. Processing of the mutant tRNA precursors in S. cerevisiae reveals a hierarchy of structural domains within the tRNA that vary in their importance for RNase P cleavage.

AB - Successive rounds of mutagenesis of a Schizosaccharomyces pombe strain bearing the UGA-reading sup3 tRNA(Ser) suppressor have been carried out for two cycles of inactivation and reactivation of the suppressor. The suppressor phenotype at each stage was found to involve different combinations of three mutations, A30, A53, and A67, in the sup3-UGA gene. Single mutations A30 and A53 inactivate the suppressor as does the presence of all three mutations. A67 by itself or phenotypically neutral, but in combination with either A30 or A53 suppressor function is restored. The frequency with which these and other complementation events occur in S. pombe demonstrates a significant potential for nucleotide sequence evolution in tRNA. Differential expression of the S. pombe genes in Saccharmoyces cerevisiae suggests that the two yeasts have diverged at the transcriptional and RNA processing level. Processing of the mutant tRNA precursors in S. cerevisiae reveals a hierarchy of structural domains within the tRNA that vary in their importance for RNase P cleavage.

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Functional complementation between mutations in a yeast suppressor tRNA gene reveals potential for evolution of tRNA sequences

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