Ginalski K, Venclovas C, Lesyng B, Fidelis K
Biology and Biotechnology Research Program, Lawrence Livermore National Laboratory, Livermore, CA 94551, USA.
FEBS Lett. 2000 Sep 29;482(1-2):119-24. doi: 10.1016/s0014-5793(00)01954-2.
Clostridial neurotoxins embrace a family of extremely potent toxins comprised of tetanus toxin (TeNT) and seven different serotypes of botulinum toxin (BoNT/A-G). The beta-trefoil subdomain of the C-terminal part of the heavy chain (H(C)), responsible for ganglioside binding, is the most divergent region in clostridial neurotoxins with sequence identity as low as 15%. We re-examined the alignment between family sequences within this subdomain, since in this region all alignments published to date show obvious inconsistencies with the beta-trefoil fold. The final alignment was obtained by considering the general constraints imposed by this fold, and homology modeling studies based on the TeNT structure. Recently solved structures of BoNT/A confirm the validity of this structure-based approach. Taking into account biochemical data and crystal structures of TeNT and BoNT/A, we also re-examined the location of the putative ganglioside binding site and, using the new alignment, characterized this site in other BoNT serotypes.
梭菌神经毒素包含一组极其强效的毒素,由破伤风毒素(TeNT)和七种不同血清型的肉毒杆菌毒素(BoNT/A - G)组成。重链(H(C))C末端部分的β-三叶形亚结构域负责与神经节苷脂结合,是梭菌神经毒素中差异最大的区域,序列同一性低至15%。我们重新审视了该亚结构域内家族序列之间的比对,因为在该区域,迄今为止发表的所有比对结果与β-三叶形折叠明显不一致。最终的比对是通过考虑该折叠所施加的一般限制以及基于TeNT结构的同源建模研究获得的。最近解析的BoNT/A结构证实了这种基于结构的方法的有效性。考虑到TeNT和BoNT/A的生化数据和晶体结构,我们还重新审视了假定的神经节苷脂结合位点的位置,并利用新的比对在其他BoNT血清型中对该位点进行了表征。
