AI Article Synopsis
- Nature typically uses a genetic code made up of triplet nucleotide codons, but there's potential for using quadruplet codons as well.
- This study explores creating a genome entirely based on quadruplet codons by modifying tRNA to suppress mutant genes in yeast mitochondria.
- The successful production of full-length COX3 and a functioning respiratory system illustrates a new method for genetic engineering in yeast and lays the groundwork for a quadruplet codon genetic code.
Article Abstract
Nature has evolved to exclusively use a genetic code consisting of triplet nucleotide codons. The translation system, however, is known to be compatible with 4-nucleotide frameshift or quadruplet codons. In this study, we begin to explore the possibility of a genome made up entirely of quadruplet codons using the minimal mitochondrial genome of as a model system. We demonstrate that mitochondrial tryptophanyl- and tyrosyl-tRNAs with modified anticodons effectively suppress mutant genes containing a TAG stop or TAGA quadruplet codon, leading to the production of full-length COX3 and a respiratory-competent phenotype. This work provides a method for introducing heterologous tRNAs into the yeast mitochondria for genetic engineering applications and serves as a starting point for the development of a quadruplet codon genetic code.
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| http://dx.doi.org/10.1021/acssynbio.4c00630 | DOI Listing |
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