Crystal structure, biochemical and biophysical characterisation of NHR1 domain of E3 Ubiquitin ligase neutralized

D. Gupta, S. Beaufils, V. Vié, G. Paboeuf, Bill Broadhurst, F. Schweisguth, T. Blundell, V. Bolanos-Garcia
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引用次数: 5

Abstract

Notch signaling controls diverse developmental decisions of central importance to cell activity. One of the conserved positive regulators of Notch signaling is Neuralized, the E3 Ubiquitin ligase enzyme that regulates signaling activity by endocytosis. Neuralized has two novel repeats, NHR1 and NHR2, with a RING finger motif at the C-terminus. Both endocytosis of the Notch ligand, Delta, and inhibition of Notch signaling by Tom, a bearded family member, require the NHR1 domain. Here we describe the first crystal structure of NHR1 domain from Drosophila melanogaster, solved to 2.1 A resolution by X-ray analysis. Using NMR and other biophysical techniques we define a minimal binding region of Tom, consisting of 12 residues, which interacts with NHR1 and show by interfacial analysis of protein monolayers that NHR1 binds PI4P. Taken together, the studies provide insight into molecular interactions that are important for Notch signaling.
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中和E3泛素连接酶NHR1结构域的晶体结构、生化和生物物理特征
Notch信号控制着多种对细胞活性至关重要的发育决定。Notch信号的一个保守的正调节因子是Neuralized, E3泛素连接酶通过内吞作用调节信号活性。Neuralized有两个新的重复序列,NHR1和NHR2,在c端有一个环指基序。Notch配体Delta的内吞作用和胡须家族成员Tom对Notch信号的抑制都需要NHR1结构域。在这里,我们描述了果蝇NHR1结构域的第一个晶体结构,通过x射线分析解决了2.1 A分辨率。利用核磁共振和其他生物物理技术,我们定义了Tom的最小结合区,由12个残基组成,它与NHR1相互作用,并通过蛋白质单层的界面分析显示NHR1与PI4P结合。综上所述,这些研究提供了对Notch信号重要的分子相互作用的见解。
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