Nkari Wendy K, Prestegard James H
Complex Carbohydrate Research Center, University of Georgia, 315 Riverbend Road, Athens, Georgia 30602, USA.
J Am Chem Soc. 2009 Apr 15;131(14):5344-9. doi: 10.1021/ja8100775.
Protein NMR assignments of large proteins using traditional triple resonance techniques depends on double or triple labeling of samples with (15)N, (13)C, and (2)H. This is not always practical with proteins that require expression in nonbacterial hosts. Labeling with isotopically labeled versions of single amino acids (sparse labeling) often is possible; however, resonance assignment then requires a new strategy. Here a procedure for the assignment of cross-peaks in (15)N-(1)H correlation spectra of sparsely labeled proteins is presented. It relies on the correlation of proton-deuterium amide exchange rates in native and denatured spectra of the intact protein, followed by correlation of chemical shifts in the spectra of the denatured protein with chemical shifts of sequenced peptides derived from the protein. The procedure is successfully demonstrated on a sample of a protein, Galectin-3, selectively labeled with (15)N at all alanine residues.
使用传统三重共振技术对大蛋白进行蛋白质核磁共振归属依赖于用¹⁵N、¹³C和²H对样品进行双重或三重标记。对于需要在非细菌宿主中表达的蛋白质来说,这并不总是可行的。用单氨基酸的同位素标记版本进行标记(稀疏标记)通常是可行的;然而,共振归属则需要一种新策略。本文介绍了一种对稀疏标记蛋白质的¹⁵N-¹H相关谱中的交叉峰进行归属的方法。它依赖于完整蛋白质天然谱和变性谱中质子-氘酰胺交换率的相关性,随后将变性蛋白质谱中的化学位移与源自该蛋白质的测序肽段的化学位移进行相关性分析。该方法已在一个所有丙氨酸残基都用¹⁵N选择性标记的半乳糖凝集素-3蛋白样品上得到成功验证。