Department of Chemistry, University of Pittsburgh, Pittsburgh, Pennsylvania 15260, United States.
Bioconjug Chem. 2022 Dec 21;33(12):2361-2369. doi: 10.1021/acs.bioconjchem.2c00451. Epub 2022 Dec 2.
Despite a range of covalent protein modifications, few techniques exist for quantification of protein bioconjugation in cells. Here, we describe a novel method for quantifying protein bioconjugation through covalent bond formation with HaloTag. This approach utilizes unnatural amino acid (UAA) mutagenesis to selectively install a small and bioorthogonally reactive handle onto the surface of a protein. We utilized the fast kinetics and high selectivity of inverse electron-demand Diels-Alder cycloadditions to evaluate reactions of tetrazine phenylalanine (TetF) with strained -cyclooctene-chloroalkane (sTCO-CA) and -cyclooctene lysine (TCOK) with tetrazine-chloroalkane (Tet-CA). Following bioconjugation, the chloroalkane ligand is exposed for labeling by the HaloTag enzyme, allowing for straightforward quantification of bioconjugation via simple western blot analysis. We demonstrate the versatility of this tool for quickly and accurately determining the bioconjugation efficiency of different UAA/chloroalkane pairs and for different sites on different proteins of interest, including EGFP and the estrogen-related receptor ERRα.
尽管存在多种共价蛋白质修饰,但目前用于定量细胞内蛋白质生物缀合的技术很少。在这里,我们描述了一种通过与 HaloTag 形成共价键来定量蛋白质生物缀合的新方法。该方法利用非天然氨基酸 (UAA) 诱变术选择性地在蛋白质表面安装小而生物正交反应的接头。我们利用逆电子需求 Diels-Alder 环加成的快速动力学和高选择性来评估四嗪苯丙氨酸 (TetF) 与应变环辛烯-氯烷烃 (sTCO-CA) 和环辛烯赖氨酸 (TCOK) 与四嗪-氯烷烃 (Tet-CA) 的反应。生物缀合后,暴露氯烷烃配体以被 HaloTag 酶标记,允许通过简单的 Western blot 分析直接定量生物缀合。我们展示了该工具的多功能性,可快速准确地确定不同 UAA/氯烷烃对以及不同感兴趣蛋白质(包括 EGFP 和雌激素相关受体 ERRα)上不同位点的生物缀合效率。
