1 H, 13 C, and 15 N resonance assignments of CW domain of the N -methyltransferase ASHH2 free and bound to the mono-, di- and tri-methylated histone H3 tail peptides

The ASHH2 CW domain is responsible for recognizing the methylation state at lysine 4 of histone 3 N-terminal tails and implicated in the recruitment of the ASHH2 methyltransferase enzyme correctly to the histones. The ASHH2 CW domain binds H3 lysine motifs that can be either mono-, di-, or tri-methylated [ARTK(meX)QTAR, where X denotes the number of methylations], but binds strongest to monomethylated instances (K d values reported in the range of 1 µm to 500 nM). Hoppmann et al. published the uncomplexed NMR structure of an ASHH2 CW domain in 2011. Here we document the assignment of a shortened ASHH2 CW construct, CW42, with similar binding affinity and better expression yields than the one used to solve the uncomplexed structure. We also perform 1 H– 15 N HSQC-monitored titrations that document at which protein–peptide ratios the complex is saturated. Backbone resonance assignments are presented for this shortened ASHH2 CW domain alone and bound to an H3 histone tail mimicking peptide monomethylated on lysine 4 (ARTK(me1)QTAR). Likewise, the assignment was also performed for the protein in complex with the dimethylated (ARTK(me2)QTAR) and trimethylated (ARTK(me3)QTAR) peptide. Overall, these two latter situations displayed a similar perturbation of shifts as the mono-methylated instance. In the case of the monomethylated histone tail mimic, side-chain assignment of CW42 in this complex was performed and reported in addition to backbone assignment, in preparation of a future solution structure determination and dynamics characterization of the CW42–ARTK(me1)QTAR complex.