The Product of the DNA Damage-Inducible Gene of Saccharomyces cerevisiae, DIN7, Specifically Functions in Mitochondria

The Product of the DNA Damage-Inducible Gene of Saccharomyces cerevisiae, DIN7, Specifically Functions in Mitochondria

Marta U. Fikus^a, Piotr A. Mieczkowski^a, Piotr Koprowski^a, Joanna Rytka^a, Ewa $S$ ledziewska-Gójska^a, and Zygmunt Cie $s$ la^a
^a Institute of Biochemistry and Biophysics, Polish Academy of Sciences, 02-106 Warsaw, Poland

Corresponding author: Zygmunt Cie $s$ la, Institute of Biochemistry and Biophysics, Polish Academy of Sciences, Pawinskiego 5A, 02-106 Warsaw, Poland., zc{at}ibbrain.ibb.waw.pl (E-mail)

Communicating editor: L. S. SYMINGTON

We reported previously that the product of the DNA damage-induciblegene of Saccharomyces cerevisiae, DIN7, belongs to a familyof proteins that are involved in DNA repair and replication.The family includes S. cerevisiae proteins Rad2p and its humanhomolog XPGC, Rad27p and its mammalian homolog FEN-1, and ExonucleaseI (Exo I). Here, we report that Din7p specifically affects metabolismof mitochondrial DNA (mtDNA). We have found that dun1 strains,defective in the transcriptional activation of the DNA damage-induciblegenes RNR1, RNR2, and RNR3, exhibit an increased frequency inthe formation of the mitochondrial petite ( ${rho}$ ^-) mutants. Thishigh frequency of petites arising in the dun1 strains is significantlyreduced by the din7::URA3 allele. On the other hand, overproductionof Din7p from the DIN7 gene placed under control of the GAL1promoter dramatically increases the frequency of petite formationand the frequency of mitochondrial mutations conferring resistanceto erythromycin (E^r). The frequencies of chromosomal mutationsconferring resistance to canavanine (Can^r) or adenine prototrophy(Ade⁺) are not affected by enhanced synthesis of Din7p. Experimentsusing Din7p fused to the green fluorescent protein (GFP) andcell fractionation experiments indicate that the protein islocated in mitochondria. A possible mechanism that may be responsiblefor the decreased stability of the mitochondrial genome in S.cerevisiae cells with elevated levels of Din7p is discussed.

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