An intron-encoded protein is active in a gene conversion process that spreads an intron into a mitochondrial gene
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[1] L. Grivell,et al. Two intron sequences in yeast mitochondrial COX1 gene: Homology among URF-containing introns and strain-dependent variation in flanking exons , 1983, Cell.
[2] C. Jacq,et al. Antibodies against a fused ‘lacZ‐yeast mitochondrial intron’ gene product allow identification of the mRNA maturase encoded by the fourth intron of the yeast cob‐box gene. , 1984, The EMBO journal.
[3] E. Bergantino,et al. An mRNA maturase is encoded by the first intron of the mitochondrial gene for the subunit I of cytochrome oxidase in S. cerevisiae , 1983, Cell.
[4] A. Lambowitz,et al. The DNA sequence and genetic organization of a Neurospora mitochondrial plasmid suggest a relationship to introns and mobile elements , 1984, Cell.
[5] C. Jacq,et al. Critical sequences within mitochondrial introns: Pleiotropic mRNA maturase and cis-dominant signals of the box intron controlling reductase and oxidase , 1982, Cell.
[6] C. Jacq,et al. Sequence of introns and flanking exons in wild-type and box3 mutants of cytochrome b reveals an interlaced splicing protein coded by an intron , 1980, Cell.
[7] R. Waring,et al. Making ends meet: a model for RNA splicing in fungal mitochondria , 1982, Nature.
[8] H. Tabak,et al. Use of a synthetic DNA oligonucleotide to probe the precision of RNA splicing in a yeast mitochondrial petite mutant. , 1981, Nucleic acids research.
[9] J. Šubík,et al. Mucidin resistance in yeast. Isolation, characterization and genetic analysis of nuclear and mitochondrial mucidin-resistant mutants of Saccharomyces cerevisiae. , 1977, European journal of biochemistry.
[10] B. Dujon,et al. Mitochondrial genetics IX: A model for recombination and segregation of mitochondrial genomes in saccharomyces cerevisiae. , 1974, Genetics.
[11] B. Dujon,et al. Genetic and physical characterization of a segment of yeast mitochondrial DNA involved in the control of genetic recombination. , 1980, Biochimie.
[12] C. Jacq,et al. Role of Introns in the Yeast Cytochrome- b Gene: Cis - and Trans -acting Signals, Intron Manipulation, Expression, and Intergenic Communications , 1982 .
[13] G. Coruzzi,et al. Codon recognition rules in yeast mitochondria. , 1980, Proceedings of the National Academy of Sciences of the United States of America.
[14] F. Kaudewitz,et al. Expression of the split gene cob in yeast: Evidence for a precursor of a “maturase” protein translated from intron 4 and preceding exons , 1982, Cell.
[15] B. Dujon. Mitochondrial Genetics and Functions , 1981 .
[16] B. Dujon,et al. Replicator regions of the yeast mitochondrial DNA responsible for suppressiveness. , 1980, Proceedings of the National Academy of Sciences of the United States of America.
[17] R. Waring,et al. Assessment of a model for intron RNA secondary structure relevant to RNA self-splicing--a review. , 1984, Gene.
[18] B. Dujon,et al. Mitochondrial genetics , 1973, Molecular and General Genetics MGG.
[19] R. Strausberg,et al. Expression of petite mitochondrial DNA in vivo: zygotic gene rescue. , 1977, Proceedings of the National Academy of Sciences of the United States of America.
[20] P. Slonimski,et al. Construction of novel cytochrome b genes in yeast mitochondria by subtraction or addition of introns. , 1983, The EMBO journal.
[21] W. Gilbert,et al. Sequencing end-labeled DNA with base-specific chemical cleavages. , 1980, Methods in enzymology.
[22] Mobile Genetic Elements , 1983 .
[23] J. Strathern,et al. Homothallic switching of yeast mating type cassettes is initiated by a double-stranded cut in the MAT locus , 1982, Cell.
[24] B. Dujon,et al. Comparison of fungal mitochondrial introns reveals extensive homologies in RNA secondary structure. , 1982, Biochimie.
[25] K. R. Woods,et al. Prediction of protein antigenic determinants from amino acid sequences. , 1981, Proceedings of the National Academy of Sciences of the United States of America.
[26] B. Dujon. Sequence of the intron and flanking exons of the mitochondrial 21S rRNA gene of yeast strains having different alleles at the ω and rib-1 loci , 1980, Cell.
[27] L. Grossman,et al. Location and structure of the var1 gene on yeast mitochondrial DNA: Nucleotide sequence of the 40.0 allele , 1982, Cell.
[28] Birky Cw,et al. Recombination of yeast mitochondrial DNA does not require mitochondrial protein synthesis. , 1979 .
[29] B. Dujon,et al. Conservation of RNA secondary structures in two intron families including mitochondrial‐, chloroplast‐ and nuclear‐encoded members. , 1983, The EMBO journal.
[30] P. Perlman,et al. Functional domains in introns: Trans-acting and cis-acting regions of intron 4 of the cob gene , 1982, Cell.
[31] J. Burke,et al. Intron within the large rRNA gene of N. crassa mitochondria: A long open reading frame and a consensus sequence possibly important in splicing , 1982, Cell.
[32] Jack W. Szostak,et al. The double-strand-break repair model for recombination , 1983, Cell.
[33] P. Slonimski,et al. A pathway of cytochrome b mRNA processing in yeast mitochondria: Specific splicing steps and an intron-derived circular RNA , 1980, Cell.