Biochemical, structural, and single-molecule characterization of LIG1 active site mutants demonstrate role of F635 and F872 residues for faithful ligation.

Human DNA ligase 1 (LIG1) finalizes DNA repair pathways by an ultimate ligation step and discriminates against nicks containing unusual ends, yet the contribution of the conserved active site residues for faithful end joining remains unknown. Here, using biochemistry, X-ray crystallography, and single-molecule approaches, we comprehensively characterized LIG1 mutants carrying Ala(A) and Leu(L) substitutions at the active site residues Phe(F)635 and Phe(F)872. Our results showed an abolished ligation of nick DNA substrates with all 12 non-canonical mismatches, while the mutagenic nick sealing of oxidatively damaged ends by wild-type enzyme is significantly reduced by F635A/L and F872A/L substitutions.

Mutagenic ligation of polβ mismatch insertion products during 8-oxoG bypass by LIG1 and LIG3α at the downstream steps of base excision repair pathway.

Base excision repair (BER) maintains genome integrity by fixing oxidized bases that could be formed when reactive oxygen species attack directly on the DNA. We previously reported the importance of a proper coordination at the downstream steps involving gap filling by DNA polymerase (pol) β and subsequent nick sealing by DNA ligase (LIG) 1 or 3α. Yet, how the fidelity of 8-oxoG bypass by polβ affects the efficiency of ligation remains unclear.

Sequences in the myosin A rod interact with UNC-89/obscurin and the zinc-finger protein UNC-98 during thick filament assembly and M-line formation in C. elegans striated muscle.

The M-line of striated muscle is a complex structure that anchors myosin-containing thick filaments and also participates in signaling and proteostasis. While the physical associations among many M-line components have been defined, the mechanism of thick filament attachment is not completely understood. In Caenorhabditis elegans, myosin A is essential for viability and forms the site of M-line attachment at the center of the filament, whereas myosin B forms the filament arms.