Nanobodies or VHHs (Variable Heavy domains of Heavy chain) are single domain antibodies that comprise three antigenic complementary determining regions (CDR). Nanobodies are used in numerous scientific applications including, bio-imaging, diagnosis, therapeutics, and macromolecular crystallography. We obtained crystals of a ∼14 kDa nanobody specific for the NEIL1 DNA glycosylase (hereafter called A5) in 0.5 M ammonium sulfate, 0.1 M sodium citrate tribasic dihydrate pH 5.6, and 1.0 M lithium sulfate monohydrate from the Crystal HT Hampton Research screen that were further optimized. Here, we describe the structure determination and refinement of the A5 crystals to a resolution of 2.1 Å. The data collected were complicated by the presence of anisotropy and twinning, and while initial space group determination pointed to a higher apparent tetragonal crystal system, the data statistics suggested twinning, placing the crystal in an orthorhombic system. Twinning was confirmed by the Padilla and Yeates test, H-test, and Britton test based on local intensity differences with a twin fraction of 0.4. Molecular replacement produced the best solution in the orthorhombic space group P2 1 2 1 2 with four molecules in the asymmetric unit and we were able to model over 96% of the residues in the electron density with a final R work and R free of 0.1988 and 0.2289 upon refinement.
Synopsis: The crystal structure of a specific nanobody against NEIL1 was determined to 2.1 Å. The structure was ultimately solved in an orthorhombic space group after diffraction data analysis revealed mild anisotropy as well as pseudo-merohedral twinning.