来自[具体来源未给出]的Stl阻遏蛋白是真核果蝇dUTPase的有效抑制剂。

Benedek András, Pölöskei István, Ozohanics Olivér, Vékey Károly, Vértessy Beáta G

Institute of Enzymology Research Centre for Natural Sciences Hungarian Academy of Sciences Budapest Hungary.

Department of Applied Biotechnology Budapest University of Technology and Economics Hungary.

FEBS Open Bio. 2017 Dec 27;8(2):158-167. doi: 10.1002/2211-5463.12302. eCollection 2018 Feb.

DNA metabolism and repair is vital for the maintenance of genome integrity. Specific proteinaceous inhibitors of key factors in this process have high potential for deciphering pathways of DNA metabolism and repair. The dUTPase enzyme family is responsible for guarding against erroneous uracil incorporation into DNA. Here, we investigate whether the staphylococcal Stl repressor may interact with not only bacterial but also eukaryotic dUTPase. We provide experimental evidence for the formation of a strong complex between Stl and dUTPase. We also find that dUTPase activity is strongly diminished in this complex. Our results suggest that the dUTPase protein sequences involved in binding to Stl are at least partially conserved through evolution from bacteria to eukaryotes.

DNA代谢与修复对于维持基因组完整性至关重要。该过程中关键因子的特异性蛋白质抑制剂在解读DNA代谢与修复途径方面具有很高潜力。dUTPase酶家族负责防止尿嘧啶错误掺入DNA。在此，我们研究葡萄球菌Stl阻遏蛋白是否不仅能与细菌dUTPase相互作用，还能与真核生物dUTPase相互作用。我们提供了Stl与dUTPase形成强复合物的实验证据。我们还发现该复合物中dUTPase活性大幅降低。我们的结果表明，从细菌到真核生物进化过程中，参与与Stl结合的dUTPase蛋白质序列至少部分保守。