Smiley Adam T, Babilonia-Díaz Natalia, Krueger August J, Aihara Hideki, Tompkins Kassidy J, Lemmex Andrew C D, Gordon Wendy R
University of Minnesota, Department of Biochemistry, Molecular Biology, and Biophysics.
bioRxiv. 2024 Aug 13:2024.08.13.607811. doi: 10.1101/2024.08.13.607811.
Replication-initiating HUH-endonucleases (Reps) are enzymes that form covalent bonds with single-stranded DNA (ssDNA) in a sequence specific manner to initiate rolling circle replication. These nucleases have been co-opted for use in biotechnology as sequence specific protein-ssDNA bioconjugation fusion partners dubbed 'HUH-tags'. Here, we describe the engineering and characterization of a series of laboratory evolved HUH-tags capable of forming robust sequence-directed covalent bonds with unmodified RNA substrates. We show that promiscuous Rep-RNA interaction can be enhanced through directed evolution from nearly undetectable levels in wildtype enzymes to robust reactivity in final engineered iterations. Taken together, these engineered HUH-tags represent a promising platform for enabling site-specific protein-RNA covalent bioconjugation in vitro, potentially mediating a host of new applications and offering a valuable addition to the HUH-tag repertoire.
复制起始型HUH核酸内切酶(Reps)是一类能以序列特异性方式与单链DNA(ssDNA)形成共价键以启动滚环复制的酶。这些核酸酶已被用于生物技术领域,作为序列特异性蛋白质-ssDNA生物共轭融合伙伴,被称为“HUH标签”。在此,我们描述了一系列经过实验室进化的HUH标签的工程改造和特性表征,这些标签能够与未修饰的RNA底物形成稳定的序列导向共价键。我们表明,通过定向进化,可将野生型酶中几乎不可检测水平的杂乱Rep-RNA相互作用增强至最终工程迭代中的强大反应性。综上所述,这些工程化的HUH标签代表了一个有前景的平台,可用于体外实现位点特异性蛋白质-RNA共价生物共轭,有可能介导一系列新应用,并为HUH标签库增添有价值的补充。
