BSA 相互作用、分子对接及含具有空间位阻要求的仿生 NS 配体的锌(II)配合物的抗菌活性：结构柔性的影响。

BSA Interaction, Molecular Docking, and Antibacterial Activity of Zinc(II) Complexes Containing the Sterically Demanding Biomimetic NS Ligand: The Effect of Structure Flexibility.

机构信息

Chemistry Department, Faculty of Science, Kafrelsheikh University, Kafrelsheikhheikh 33516, Egypt.

Chemistry Department, College of Science, Taif University, Taif 21944, Saudi Arabia.

出版信息

Molecules. 2022 May 31;27(11):3543. doi: 10.3390/molecules27113543.

DOI:10.3390/molecules27113543

PMID:35684479

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9182146/

Abstract

Two zinc(II) complexes, DBZ and DBZH4, that have (ZnN3S2) cores and differ in the bridging mode of the ligating backbone, effectively bind to BSA. The binding affinity varies as DBZ > DBZH4 and depends on the ligand structure. At low concentrations, both complexes exhibit dynamic quenching, whereas at higher concentrations they exhibit mixed (static and dynamic) quenching. The energy transfer mechanism from the BSA singlet excited state to DBZ and DBZH4, is highly likely according to steady-state fluorescence and time-correlated singlet photon counting. Molecular docking was used to support the mode of interaction of the complexes with BSA and showed that DBZ had more energy for binding. Furthermore, antibacterial testing revealed that both complexes were active but to a lesser extent than chloramphenicol. In comparison to DBZH4, DBZ has higher antibacterial activity, which is consistent with the binding constants, molecular docking, and particle size of adducts. These findings may have an impact on biomedicine.

摘要

两种锌(II)配合物 DBZ 和 DBZH4，它们具有(ZnN3S2)核心，并且配体骨架的桥连模式不同，有效地与 BSA 结合。结合亲和力的变化为 DBZ > DBZH4，并且取决于配体结构。在低浓度下，两种配合物都表现出动态猝灭，而在较高浓度下则表现出混合（静态和动态）猝灭。根据稳态荧光和时间相关单光子计数，从 BSA 单重激发态到 DBZ 和 DBZH4 的能量转移机制很可能发生。分子对接用于支持配合物与 BSA 的相互作用模式，并表明 DBZ 具有更多的结合能。此外，抗菌测试表明，两种配合物都具有活性，但活性低于氯霉素。与 DBZH4 相比，DBZ 具有更高的抗菌活性，这与结合常数、分子对接和加合物的粒径一致。这些发现可能对生物医学产生影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3778/9182146/b2cae4c7c01c/molecules-27-03543-sch001.jpg

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BSA 相互作用、分子对接及含具有空间位阻要求的仿生 NS 配体的锌(II)配合物的抗菌活性：结构柔性的影响。

BSA Interaction, Molecular Docking, and Antibacterial Activity of Zinc(II) Complexes Containing the Sterically Demanding Biomimetic NS Ligand: The Effect of Structure Flexibility.

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