NMR Research Centre, Indian Institute of Science, Bangalore, 560012, India.
J Biomol NMR. 2012 Feb;52(2):115-26. doi: 10.1007/s10858-011-9598-x. Epub 2012 Jan 7.
We present reduced dimensionality (RD) 3D HN(CA)NH for efficient sequential assignment in proteins. The experiment correlates the (15)N and (1)H chemical shift of a residue ('i') with those of its immediate N-terminal (i - 1) and C-terminal (i + 1) neighbors and provides four-dimensional chemical shift correlations rapidly with high resolution. An assignment strategy is presented which combines the correlations observed in this experiment with amino acid type information obtained from 3D CBCA(CO)NH. By classifying the 20 amino acid types into seven distinct categories based on (13)C(β) chemical shifts, it is observed that a stretch of five sequentially connected residues is sufficient to map uniquely on to the polypeptide for sequence specific resonance assignments. This method is exemplified by application to three different systems: maltose binding protein (42 kDa), intrinsically disordered domain of insulin-like growth factor binding protein-2 and Ubiquitin. Fast data acquisition is demonstrated using longitudinal (1)H relaxation optimization. Overall, 3D HN(CA)NH is a powerful tool for high throughput resonance assignment, in particular for unfolded or intrinsically disordered polypeptides.
我们提出了降维(RD)3D HN(CA)NH,以实现蛋白质中高效的序列分配。该实验将残基('i')的(15)N 和(1)H 化学位移与紧邻的 N 端(i-1)和 C 端(i+1)邻居的化学位移相关联,并以高分辨率快速提供四维化学位移相关性。提出了一种分配策略,该策略将在该实验中观察到的相关性与从 3D CBCA(CO)NH 获得的氨基酸类型信息相结合。通过基于(13)C(β)化学位移将 20 种氨基酸类型分为七个不同类别,观察到五个连续连接的残基的伸展足以唯一映射到多肽上,用于序列特异性共振分配。该方法通过应用于三个不同系统:麦芽糖结合蛋白(42 kDa)、胰岛素样生长因子结合蛋白-2 和泛素的无定形域来举例说明。通过纵向(1)H 弛豫优化实现了快速数据采集。总体而言,3D HN(CA)NH 是一种用于高通量共振分配的强大工具,特别是对于展开或无规卷曲的多肽。
