Publication details

Yeast mitochondrial HMG proteins: DNA-binding properties of the most evolutionarily divergent component of mitochondrial nucleoids

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Authors

BAKKAIOVA Jana MARINI PALOMEQUE María Victoria WILLCOX Smaranda NOSEK Jozef GRIFFITH Jack D. KREJČÍ Lumír TOMASKA Lubomir

Year of publication 2016
Type Article in Periodical
Magazine / Source Bioscience Reports
MU Faculty or unit

Faculty of Medicine

Citation
Doi http://dx.doi.org/10.1042/BSR20150275
Field Genetics and molecular biology
Keywords DNA binding protein; DNA compaction; HMG-box containing protein; mitochondrial DNA (mtDNA); Holliday junction; mitochondrial nucleoid
Description Yeast mitochondrial DNA (mtDNA) is compacted into nucleoprotein structures called mitochondrial nucleoids (mt-nucleoids). The principal mediators of nucleoid formation are mitochondrial HMG-box containing (mtHMG) proteins. Although these proteins are some of the fastest evolving components of mtnucleoids, it is not known whether the divergence of mtHMG proteins on the level of their amino acid sequences is accompanied by diversification of their biochemical properties. In this study we performed a comparative biochemical analysis of yeast mtHMG proteins from Saccharomyces cerevisiae (ScAbf2p), Yarrowia lipolytica (YlMhb1p) and Candida parapsilosis (CpGcf1p). We found that all three proteins exhibit relatively weak binding to intact double-stranded (ds) DNA. In fact, ScAbf2p and YlMhb1p bind quantitatively to this substrate only at very high protein to DNA ratios and CpGcf1p shows only negligible binding to dsDNA. In contrast, the proteins exhibit much higher preference for recombination intermediates such as Holliday junctions and replication forks. Therefore, we hypothesize that the roles of the yeast mtHMG proteins in maintenance and compaction of mtDNA in vivo are in large part mediated by their binding to recombination/replication intermediates. We also speculate that the distinct biochemical properties of CpGcf1p may represent one of the prerequisites for frequent evolutionary tinkering with the form of the mitochondrial genome in the CTG-clade of hemiascomycetous yeast species.
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