mtSSB may sequester UNG1 at mitochondrial ssDNA and delay uracil processing until the dsDNA conformation is restored.

Single-strand DNA binding proteins protect DNA from nucleolytic damage, prevent formation of secondary structures and prevent premature reannealing of DNA in DNA metabolic transactions. In eukaryotes, the nuclear single-strand DNA binding protein RPA is essential for chromosomal DNA replication and transcription and directly participates in several DNA repair processes by binding to and modulating the activity of repair factors. Much less is known about the involvement of the only mitochondrial single-strand binding protein mtSSB in the context of DNA repair.

Divergent ß-hairpins determine double-strand versus single-strand substrate recognition of human AlkB-homologues 2 and 3.

Human AlkB homologues ABH2 and ABH3 repair 1-methyladenine and 3-methylcytosine in DNA/RNA by oxidative demethylation. The enzymes have similar overall folds and active sites, but are functionally divergent. ABH2 efficiently demethylates both single- and double-stranded (ds) DNA, whereas ABH3 has a strong preference for single-stranded DNA and RNA.

Human AlkB homolog 1 is a mitochondrial protein that demethylates 3-methylcytosine in DNA and RNA.

The Escherichia coli AlkB protein and human homologs hABH2 and hABH3 are 2-oxoglutarate (2OG)/Fe(II)-dependent DNA/RNA demethylases that repair 1-methyladenine and 3-methylcytosine residues. Surprisingly, hABH1, which displays the strongest homology to AlkB, failed to show repair activity in two independent studies. Here, we show that hABH1 is a mitochondrial protein, as demonstrated using fluorescent fusion protein expression, immunocytochemistry, and Western blot analysis.

RNA base damage and repair.

Elaborate repair pathways counteract the deleterious effects of DNA damage by mechanisms that are understood in reasonable detail. In contrast, repair of damaged RNA has not been widely explored. This may be because aberrant RNAs are generally assumed to be degraded rather than repaired.