| Title | A Yeast MRE3/REC114 Gene is Essential for Normal Cell Growth and Meiotic Recombination |
|---|---|
| Author | Sun-Hee Leem * |
| Address | Department of Biology, Faculty of Natural Sciences, Dong-A University, Pusan 604-714, Korea |
| Bibliography | Journal of Microbiology, 37(4),248-255, 1999, |
| DOI | |
| Key Words | MRE3/REC114 gene, meiotic recombination, Saccharomyces cerevisiae |
| Abstract | We have analyzed the MRE3/REC114 gene of Saccharomyces cerevisiae, previously detected in isolation of mutants defective in meiotic recombination. We cloned the MRE3/REC114 gene by complementation of the meiotic recombination defect and it has been mapped to chormosome XIII. The DNA sequence analysis revealed that the MRE3 gene is identical to the REC114 gene. The upstream region of the MRE3/REC114 gene contains a T_4C site, a URS (upstream repression sequence) and a TR (T-rich) box-like sequence, which reside upstream of many meiotic genes. Coincidentally, northern blot analysis indicated that the three sizes of MRE3/REC114 transcripts, 3.4, 1.4 and 1.2 kb, are induced in meiosis. A less abundant transcript of 1.4 kb is detected in both mitotic and meiotic cells, suggesting that it is needed in mitosis as well as meiosis. To examine the role of the MRE3/REC114 gene, we constructed mre3 disruption mutants. Strains carrying an insertion or null deletion of the MRE3/REC114 gene showed slow growth in nutrient medium and the doubing time of these cells increased approximately by 2-fond compared to the wild-type strain. Moreover, the deletion mutant (delta-mre3) displayed no meiotically induced recombination and no viable spores. The mre3/rec114 spore lethality can be suppressed by spo13, a mutation that causes cells to bypass reductional division. The double-stranded breaks (DSBs) which are involved in initiation of meiotic recombination were not detected in the analysis of meiotic chromosomal DNA from the mre3/rec114 disruptant. From these results we suggest that the MRE3/REC114 gene product is essential in nomal growth and in early meiotic stages involved in meiotic recombination. |
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