Institute for Molecular Bioscience, Australian Research Council Centre of Excellence for Innovations in Peptide and Protein Science, The University of Queensland, Brisbane, QLD 4072, Australia.
Angew Chem Int Ed Engl. 2022 Mar 7;61(11):e202116672. doi: 10.1002/anie.202116672. Epub 2022 Jan 25.
Transpeptidase-catalyzed protein and peptide modifications have been widely utilized for generating conjugates of interest for biological investigation or therapeutic applications. However, all known transpeptidases are constrained to ligating in the N-to-C orientation, limiting the scope of attainable products. Here, we report that an engineered asparaginyl ligase accepts diverse incoming nucleophile substrate mimetics, particularly when a means of selectively quenching the reactivity of byproducts released from the recognition sequence is employed. In addition to directly catalyzing formation of l-/d- or α-/β-amino acid junctions, we find C-terminal Leu-ethylenediamine (Leu-Eda) motifs to be bona fide mimetics of native N-terminal Gly-Leu sequences. Appending a C-terminal Leu-Eda to synthetic peptides or, via an intein-splicing approach, to recombinant proteins enables direct transpeptidase-catalyzed C-to-C ligations. This work significantly expands the synthetic scope of enzyme-catalyzed protein transpeptidation reactions.
转肽酶催化的蛋白质和肽修饰已广泛用于生成用于生物研究或治疗应用的感兴趣的缀合物。然而,所有已知的转肽酶都局限于连接 N 到 C 的方向,限制了可获得产物的范围。在这里,我们报告说,一种经过工程改造的天冬酰胺连接酶可以接受各种不同的进入亲核底物模拟物,特别是当采用选择性猝灭从识别序列释放的副产物的反应性的方法时。除了直接催化 l-/d-或 α-/β-氨基酸连接的形成外,我们还发现 C 末端亮氨酸-乙二胺(Leu-Eda)基序是天然 N 末端甘氨酸-亮氨酸序列的真正模拟物。在合成肽上添加 C 末端 Leu-Eda,或者通过内含肽拼接方法添加到重组蛋白上,可以实现直接转肽酶催化的 C 到 C 连接。这项工作显著扩展了酶催化的蛋白质转肽反应的合成范围。
