Macromolecular complexes
Macromolecular complexes
生命科学 - 结构生物学

大分子复合物

布鲁克可提供用于测定分子复合物特性的工具,包括测量原子级三维结构。这有助于研究人员更深入地了解大分子复合物在所有基础生命过程中发挥的基本作用。

Insights in cell regulation

Bruker provides the outstanding tools researchers need to determine properties of molecular complexes, including the 3D-structure to an atomic level. This helps getting better deeper insights into the fundamental role macromolecular complexes play in all basic life processes.

Large macromolecular complexes perform many critical roles in the execution and regulation of cellular processes. Our instruments help scientiest understanding the structural interactions and dynamics and of such complexes, which is today’s key focus in advancing our understanding of cellular processes.

Single Crystal X-ray Diffraction (SC-XRD) plays a leading role in the structure determination of large, stable multi-protein complexes at near atomic resolution.

Small-angle X-ray scattering (SAXS) is a widely used, convenient technique to characterize the hydrodynamic properties of large complexes in solution. SAXS is particularly informative where ligand-induced conformational changes occur or protein-protein binding events are involved in the activity of the system.

Why bioNMR? New series on how NMR can be used for biology research.

深入了解细胞调节

布鲁克可为研究人员提供其所需要的高效工具,用于测定分子复合物的特性,包括原子级三维结构。这有助于更深入地了解大分子复合物在所有基础生命过程中发挥的基本作用。

大型大分子复合物在细胞过程的执行和调节事件中发挥着至关重要的作用。布鲁克出品的仪器可帮助科学家们深入了解这些复合物在结构上的相互作用和动力学信息。这是当今最受关注的重要课题,可推进我们对细胞过程的理解。

单晶X射线衍射(SC-XRD)能以接近原子级的分辨率,来测定大型且稳定的多蛋白复合物的结构。该技术在这项应用领域上独占鳌头。

小角度X射线散射(SAXS)是一种广泛运用的便捷技术,可用于表征溶液中大型复合物的流体动力学特性。SAXS可以在配体诱导的构象变化发生时或系统活动中包含了蛋白质相互结合事件时提供格外丰富的信息。