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  • Title: Cloning of the SPO11 gene that complements a meiotic recombination defect in sake yeast.
    Author: Shimoi H, Kawamura N, Yamada M.
    Journal: J Biosci Bioeng; 2020 Oct; 130(4):367-373. PubMed ID: 32646632.
    Abstract:
    Cross hybridization breeding of sake yeasts is hampered by difficulty in acquisition of haploid cells through sporulation. We previously demonstrated that typical sake yeast strains were defective in meiotic chromosome recombination, which caused poor sporulation and loss of spore viability. In this study, we screened a single copy plasmid genomic DNA library of the laboratory Saccharomyces cerevisiae GRF88 for genes that might complement the meiotic recombination defect of UTCAH-3, a strain derived from the sake yeast Kyokai no. 7 (K7). We identified the SPO11 gene of the laboratory strain (ScSPO11), encoding a meiosis-specific endonuclease that catalyzes DNA double-strand breaks required for meiotic recombination, as a gene that restored meiotic recombination and spore viability of UTCAH-3. K7SPO11 could not restore sporulation efficiency and spore viability of UTCAH-3 and a laboratory strain BY4743 spo11Δ/spo11Δ, indicating that K7SPO11 is not functional. Sequence analysis of the SPO11 genes of various Kyokai sake yeasts (K1, and K3-K10) revealed that the K7 group of sake yeasts (K6, K7, K9, and K10) had a mutual missense mutation (C73T) in addition to other three common mutations present in all Kyokai yeasts tested. ScSPO11C73T created through in vitro mutagenesis could not restore spore viability of BY4743 spo11Δ/spo11Δ. On the other hand, K8SPO11, which have the three common mutations except for C73T could restore spore viability of BY4743 spo11Δ/spo11Δ. These results suggest that C73T might be a causative mutation of recombination defect in K7SPO11. Moreover, we found that the introduction of ScRIM15 restored sporulation efficiency but not spore viability.
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