Henne William Mike, Kent Helen M, Ford Marijn G J, Hegde Balachandra G, Daumke Oliver, Butler P Jonathan G, Mittal Rohit, Langen Ralf, Evans Philip R, McMahon Harvey T
MRC Laboratory of Molecular Biology, Hills Road, Cambridge, CB1 0QH, United Kingdom.
Structure. 2007 Jul;15(7):839-52. doi: 10.1016/j.str.2007.05.002. Epub 2007 Jun 1.
A spectrum of membrane curvatures exists within cells, and proteins have evolved different modules to detect, create, and maintain these curvatures. Here we present the crystal structure of one such module found within human FCHo2. This F-BAR (extended FCH) module consists of two F-BAR domains, forming an intrinsically curved all-helical antiparallel dimer with a Kd of 2.5 microM. The module binds liposomes via a concave face, deforming them into tubules with variable diameters of up to 130 nm. Pulse EPR studies showed the membrane-bound dimer is the same as the crystal dimer, although the N-terminal helix changed conformation on membrane binding. Mutation of a phenylalanine on this helix partially attenuated narrow tubule formation, and resulted in a gain of curvature sensitivity. This structure shows a distant relationship to curvature-sensing BAR modules, and suggests how similar coiled-coil architectures in the BAR superfamily have evolved to expand the repertoire of membrane-sculpting possibilities.
细胞内存在一系列膜曲率,蛋白质已经进化出不同的模块来检测、产生和维持这些曲率。在此,我们展示了在人类FCHo2中发现的一个此类模块的晶体结构。这个F-BAR(扩展FCH)模块由两个F-BAR结构域组成,形成一个具有2.5微摩尔解离常数的内在弯曲的全螺旋反平行二聚体。该模块通过一个凹面结合脂质体,将它们变形为直径可达130纳米的可变直径的小管。脉冲电子顺磁共振研究表明,膜结合二聚体与晶体二聚体相同,尽管N端螺旋在膜结合时发生了构象变化。该螺旋上苯丙氨酸的突变部分减弱了窄小管的形成,并导致曲率敏感性增加。这种结构显示出与曲率感知BAR模块的远亲关系,并表明BAR超家族中类似的卷曲螺旋结构是如何进化以扩展膜塑形可能性的。
