Christian Thörn scite author profile

Recently, MGME1 was identified as a mitochondrial DNA nuclease with preference for single-stranded DNA (ssDNA) substrates. Loss-of-function mutations in patients lead to mitochondrial disease with DNA depletion, deletions, duplications and rearrangements. Here, we assess the biochemical role of MGME1 in the processing of flap intermediates during mitochondrial DNA replication using reconstituted systems. We show that MGME1 can cleave flaps to enable efficient ligation of newly replicated DNA strands in combination with POLγ. MGME1 generates a pool of imprecisely cut products (short flaps, nicks and gaps) that are converted to ligatable nicks by POLγ through extension or excision of the 3′-end strand. This is dependent on the 3′-5′ exonuclease activity of POLγ which limits strand displacement activity and enables POLγ to back up to the nick by 3′-5′ degradation. We also demonstrate that POLγ-driven strand displacement is sufficient to generate DNA- but not RNA-flap substrates suitable for MGME1 cleavage and ligation during replication. Our findings have implications for RNA primer removal models, the 5′-end processing of nascent DNA at OriH, and DNA repair.

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A comparison of lipase and trypsin encapsulated in mesoporous materials with varying pore sizes and pH conditions

Gustafsson

Thörn

Holmberg

2011

Colloids and Surfaces B: Biointerfaces

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Immobilization of feruloyl esterases in mesoporous materials leads to improved transesterification yield

Thörn

Gustafsson

Olsson

2011

Journal of Molecular Catalysis B: Enzymatic

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A method to measure pH inside mesoporous particles using protein-bound SNARF1 fluorescent probe

Thörn

Carlsson

Gustafsson

et al. 2013

Microporous and Mesoporous Materials

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