Biodesign Center for BioEnergetics, Arizona State University, Tempe, Arizona 85287, United States.
Biodesign Center for BioEnergetics, and School of Molecular Sciences, Arizona State University, Tempe, Arizona 85287, United States.
ACS Chem Biol. 2024 Jun 21;19(6):1330-1338. doi: 10.1021/acschembio.4c00165. Epub 2024 May 20.
N-Methylated amino acids are constituents of natural bioactive peptides and proteins. N-methylated amino acids appear abundantly in natural cyclic peptides, likely due to their constraint of peptide conformation and contribution to peptide stability. Peptides containing N-methylated amino acids have long been prepared by chemical synthesis. While such natural peptides are not produced ribosomally, recent ribosomal strategies have afforded N-methylated peptides. Presently, we define new strategies for the ribosomal incorporation of N-methylated amino acids into peptides and proteins. First, we identify modified ribosomes capable of facilitating the incorporation of six N-methylated amino acids into antibacterial scorpion peptide IsCT. Also synthesized analogously was a protein domain (RRM1) from hnRNP LL; improved yields were observed for nearly all tested N-methylated amino acids. Computational modeling of the ribosomal assembly illustrated how the distortion imposed by N-methylation could be compensated by altering the nucleotides in key 23S rRNA positions. Finally, it is known that incorporation of multiple prolines (an N-alkylated amino acid) ribosomally can be facilitated by bacterial elongation factor P. We report that supplementing endogenous EF-P during IsCT peptide and RRM1 protein synthesis gave improved yields for most of the N-methylated amino acids studied.
N-甲基氨基酸是天然生物活性肽和蛋白质的组成部分。N-甲基氨基酸在天然环状肽中大量存在,这可能是由于它们对肽构象的限制和对肽稳定性的贡献。含有 N-甲基氨基酸的肽早已通过化学合成制备。虽然这些天然肽不是通过核糖体产生的,但最近的核糖体策略已经提供了 N-甲基肽。目前,我们定义了将 N-甲基氨基酸掺入肽和蛋白质中的核糖体策略。首先,我们鉴定了能够促进将六种 N-甲基氨基酸掺入抗菌蝎肽 IsCT 中的修饰核糖体。同样类似地合成了 hnRNP LL 的一个蛋白结构域(RRM1);对于几乎所有测试的 N-甲基氨基酸,都观察到产量提高。核糖体组装的计算建模说明了 N-甲基化引起的扭曲如何通过改变关键 23S rRNA 位置的核苷酸来补偿。最后,已知细菌延伸因子 P 可以促进多个脯氨酸(一种 N-烷基氨基酸)的核糖体掺入。我们报告说,在 IsCT 肽和 RRM1 蛋白合成过程中补充内源性 EF-P 可以提高大多数研究的 N-甲基氨基酸的产量。
