Benjamin Shaun, Radermacher Michael, Kirchberger Jürgen, Schöneberg Torsten, Edelmann Anke, Ruiz Teresa
Department of Molecular Physiology and Biophysics, University of Vermont, Burlington, 05405, USA.
J Struct Biol. 2009 Nov;168(2):345-51. doi: 10.1016/j.jsb.2009.06.014. Epub 2009 Jun 25.
The largest and one of the most complex ATP-dependent allosteric phosphofructokinase (Pfk) has been found in the methylotrophic yeast, Pichia pastoris. The enzyme is a hetero-oligomer ( approximately 1MDa) composed of three distinct subunits (alpha, beta and gamma) with molecular masses of 109, 104 and 41kDa, respectively. While the alpha- and beta-subunits show sequence similarities to other phosphofructokinase subunits, the gamma-subunit does not show high homology to any known protein in the databases. We have determined the first quaternary structure of P. pastoris phosphofructokinase by 3D electron microscopy. Random conical techniques and tomography have been instrumental to ascertain the quality of the sample preparations for structural studies and to obtain a reliable 3D structure. The final reconstruction of P. pastoris Pfk resembles its yeast counterparts with four additional densities, assigned to four gamma-subunits, bridging the N-terminal domains of the four pairs of alpha- and beta-subunits. Our data has evidenced novel interactions between the gamma- and the alpha-subunits comparable in intensity to the interactions, shown by cross-linking and limited proteolytic degradation experiments, between the gamma- and beta-subunits. The structural data provides clear insights into the allosteric fine-tuned regulation of the enzyme by ATP and AMP observed in this yeast species.
在甲基营养型酵母毕赤酵母中发现了最大且最复杂的一种依赖ATP的变构磷酸果糖激酶(Pfk)。该酶是一种异源寡聚体(约1MDa),由三个不同的亚基(α、β和γ)组成,分子量分别为109、104和41kDa。虽然α亚基和β亚基与其他磷酸果糖激酶亚基存在序列相似性,但γ亚基与数据库中任何已知蛋白质的同源性都不高。我们通过三维电子显微镜确定了毕赤酵母磷酸果糖激酶的首个四级结构。随机锥形技术和断层扫描对于确定用于结构研究的样品制备质量以及获得可靠的三维结构起到了重要作用。毕赤酵母Pfk的最终重建结构与其酵母同类相似,有四个额外的密度区域,被归为四个γ亚基,它们连接着四对α亚基和β亚基的N端结构域。我们的数据证明了γ亚基和α亚基之间存在新的相互作用,其强度与γ亚基和β亚基之间通过交联和有限蛋白酶解实验所显示的相互作用相当。这些结构数据为该酵母物种中观察到的ATP和AMP对该酶的变构精细调节提供了清晰的见解。