Intrinsically Disordered Proteins as an Instrument for Research-Integrating Teaching

Biophysicist (Rockville, Md.) Pub Date : 2023-03-23 DOI:10.35459/tbp.2022.000221

K. Skriver, Signe A. Sjørup, A. Langkilde, Evanthia Balouka, Caspar S. Christensen, Kathrine Carbel, Jens N. V. Decker, D. N. Essenbæk, Justus F. Gräf, Camilla H. Jessen, Peter Kristensen, Christoffer Merrild, Tobias S. Mortensen, Isabella F. Nalepa, Bjørn W. Nordsteen, Sophie K. Svoren, M. van Hall, Jan Weicher, Malene L. Wind, Danping Zhang, Daniel Saar, Helle Blæsild, M. Stahlhut, K. V. Andersen, R. Dagil, B. Vestergaard, Marie L. Ryberg, B. Kragelund

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Abstract

2,2,2-trifluoroethanol (TFE) as well as SAXS and 1-anilino-8-naphthalene sulphonate (ANS) binding supports a molten globule character. (b) The homology block 1 (HB1) domain of VAR2CSA (VAR2CSA 818–859 ) shows heterogeneity and oligomerization, as seen from the very few peaks in the NMR spectrum and the diversity of peaks originating from the single tryptophan (see figure insert). Addition of crowding agents as polyethylene glycol led to disappearance of the signals and fluorescence quenching, without visible precipitation. (c) A region of the intracellular domain of interleukin 22 receptor A1 (IL22RA1 L447–L532 ) was confirmed to be disordered by NMR and circular dichroism, with distinct cis - trans isomerism. (d) A lipidated, disordered C-terminal tail of KRAS form oligomers leading to broad peaks in the 1 H-NMR spectrum, that can be partly resolved by sodium dodecyl sulfate addition, but with an increasing SAXS Kratky plot indicating the presence of remaining disorder. (e) The N-terminal domain of galectin 3 is disordered as evidenced by the low dispersion in the 15N-HSQC and the increasing SAXS Kratky plot. NMR data indicate that it binds lactose and galactose very weakly at low pH. (f) The NMR signals of dehydrin Rab16c shows a low dispersion in the 15 N-HSQC spectrum, indicative of disorder, and elutes in two populations on a Sephadex S75 column, corresponding in sizes to the presence of a monomer–dimer equilibrium. The results presented in this figure are all preliminary data and would need repetition and validation.

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本质无序蛋白质作为研究整合教学的工具

2,2,2-三氟乙醇(TFE)以及SAXS和1-苯胺-8-萘磺酸盐(ANS)结合支持熔融球特性。(b) VAR2CSA (VAR2CSA 818-859)的同源区1 (HB1)结构域表现出异质性和寡聚化，这可以从核磁共振光谱中很少的峰和源自单个色氨酸的峰的多样性看出(见图插入)。加入拥挤剂如聚乙二醇导致信号消失和荧光猝灭，没有可见的沉淀。(c)白细胞介素22受体A1 (IL22RA1 L447-L532)胞内结构域的一个区域经核磁共振和圆二色性证实是无序的，具有明显的顺反异构。(d) KRAS形成的低聚物的脂化，无序的c端尾部导致1h - nmr谱中的宽峰，可以通过十二烷基硫酸钠的加入部分解决，但随着SAXS Kratky图的增加表明存在剩余的无序。(e)凝集素3的n端结构域紊乱，15N-HSQC中分散度低，SAXS Kratky图增加。(f)脱氢酶Rab16c的核磁共振信号在15 N-HSQC光谱中表现出较低的分散性，表明其无序性;在Sephadex S75色谱柱上，脱氢酶Rab16c在两个种群中出现洗脱，其大小与单体-二聚体平衡的存在相对应。图中显示的结果都是初步数据，需要重复和验证。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Biophysicist (Rockville, Md.)

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