Adámková Kristýna, Trundová Mária, Kovaľ Tomáš, Husťáková Blanka, Kolenko Petr, Dušková Jarmila, Skálová Tereza, Dohnálek Jan
Institute of Biotechnology, Czech Academy of Sciences, Vestec, Czech Republic.
Department of Biochemistry and Microbiology, University of Chemistry and Technology, Prague 6, Czech Republic.
FEBS J. 2025 Jan;292(1):129-152. doi: 10.1111/febs.17265. Epub 2024 Oct 3.
Nucleases of the S1/P1 family have important applications in biotechnology and molecular biology. We have performed structural analyses of SmNuc1 nuclease from Stenotrophomonas maltophilia, including RNA cleavage product binding and mutagenesis in a newly discovered flexible Arg74-motif, involved in substrate binding and product release and likely contributing to the high catalytic rate. The Arg74Gln mutation shifts substrate preference towards RNA. Purine nucleotide binding differs compared to pyrimidines, confirming the plasticity of the active site. The enzyme-product interactions indicate a gradual, stepwise product release. The activity of SmNuc1 towards c-di-GMP in crystal resulted in a distinguished complex with the emerging product 5'-GMP. This enzyme from an opportunistic pathogen relies on specific architecture enabling high performance under broad conditions, attractive for biotechnologies.
S1/P1家族核酸酶在生物技术和分子生物学中具有重要应用。我们对嗜麦芽窄食单胞菌的SmNuc1核酸酶进行了结构分析,包括RNA切割产物结合以及在新发现的柔性Arg74基序中的诱变,该基序参与底物结合和产物释放,可能有助于提高催化速率。Arg74Gln突变使底物偏好转向RNA。与嘧啶相比,嘌呤核苷酸结合有所不同,证实了活性位点的可塑性。酶与产物的相互作用表明产物是逐步释放的。SmNuc1在晶体中对环二鸟苷酸(c-di-GMP)的活性产生了与新出现的产物5'-鸟苷酸(5'-GMP)形成的独特复合物。这种来自机会致病菌的酶依赖于特定结构,能够在广泛条件下实现高性能,对生物技术具有吸引力。
