Abstract
MUS81 plays important cellular roles in the restart of stalled replication forks, the resolution of recombination intermediates and in telomere length maintenance. Although the actions of MUS81-EME1 have been extensively investigated, MUS81 is the catalytic subunit of two human structure-selective endonucleases, MUS81-EME1 and MUS81-EME2. Little is presently known about the activities of MUS81-EME2. Here, we have purified MUS81-EME2 and compared its activities with MUS81-EME1. We find that MUS81-EME2 is a more active endonuclease than MUS81-EME1 and exhibits broader substrate specificity. Like MUS81-EME1, MUS81-EME2 cleaves 3′-flaps, replication forks and nicked Holliday junctions, and exhibits limited endonuclease activity with intact Holliday junctions. In contrast to MUS81-EME1, however, MUS81-EME2 cuts D-loop recombination intermediates and in so doing disengages the D-loop structure by cleaving the 3′-invading strand. Additionally, MUS81-EME2 acts on 5′-flap structures to cleave off a duplex arm, in reactions that cannot be promoted by MUS81-EME1. These studies suggest that MUS81-EME1 and MUS81-EME2 exhibit similar and yet distinct DNA structure selectivity, indicating that the two MUS81 complexes may promote different nucleolytic cleavage reactions in vivo.
Highlights
The MUS81-EME2B have a single subunit (MUS81) protein is required for the maintenance of genomic stability, and its loss has been associated with cancer development [1,2]
Purified recombinant Mus81-Eme1 and Mus81-Mms4 proteins are active on a range of DNA substrates including 30-flaps, replication forks and nicked Holliday junctions (HJs), which they cleave by the introduction of a nick close to the branch point [22,23,24,25]
Earlier we showed that MUS81-EME2 cleaved HJs more efficiently than an equivalent concentration of MUS81EME1 (Figure 4B), this is not a preferred substrate for either nuclease
Summary
The MUS81 protein is required for the maintenance of genomic stability, and its loss has been associated with cancer development [1,2]. MUS81 is the catalytic subunit of the MUS81-EME1 structure-selective endonuclease that plays important roles in DNA repair, including (i) the repair of interstrand cross-links [3], (ii) the repair and restart of stalled replication forks [4,5,6,7] and (iii) the resolution of recombination intermediates [8,9,10,11] In both yeast and mammalian cells, loss of MUS81 activity leads to a hypersensitivity to replication forkstalling agents such as cisplatin, camptothecin or hydroxyurea [2,3,12,13]. Recombinant human MUS81EME1 exhibits similar substrate specificities [9,26,27]
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