AI Article Synopsis
- The study focuses on how vertebrate DNA crosslink repair targets and removes harmful DNA crosslinks, with mutations in the involved genes linked to Fanconi anemia.
- Key to this process is the monoubiquitination of the FANCD2-FANCI complex, which changes its shape to create a channel that binds double-stranded DNA and helps bring in nucleases for repair.
- The research utilizes cryo-EM to visualize this complex, showing that ubiquitin acts as a 'molecular pin,' locking the complex to the DNA, while isolated FANCD2 exists as a homodimer that cannot bind DNA, indicating a regulatory mechanism.
Article Abstract
Vertebrate DNA crosslink repair excises toxic replication-blocking DNA crosslinks. Numerous factors involved in crosslink repair have been identified, and mutations in their corresponding genes cause Fanconi anemia (FA). A key step in crosslink repair is monoubiquitination of the FANCD2-FANCI heterodimer, which then recruits nucleases to remove the DNA lesion. Here, we use cryo-EM to determine the structures of recombinant chicken FANCD2 and FANCI complexes. FANCD2-FANCI adopts a closed conformation when the FANCD2 subunit is monoubiquitinated, creating a channel that encloses double-stranded DNA (dsDNA). Ubiquitin is positioned at the interface of FANCD2 and FANCI, where it acts as a covalent molecular pin to trap the complex on DNA. In contrast, isolated FANCD2 is a homodimer that is unable to bind DNA, suggestive of an autoinhibitory mechanism that prevents premature activation. Together, our work suggests that FANCD2-FANCI is a clamp that is locked onto DNA by ubiquitin, with distinct interfaces that may recruit other DNA repair factors.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7067600 | PMC |
| http://dx.doi.org/10.1038/s41594-020-0380-1 | DOI Listing |
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