10.3389/fphar.2018.00570.s002
Yan-Yan Liu
Yan-Yan
Liu
Xing-Ru Chen
Xing-Ru
Chen
Ling-Fei Gao
Ling-Fei
Gao
Mo Chen
Mo
Chen
Wen-Qiang Cui
Wen-Qiang
Cui
Wen-Ya Ding
Wen-Ya
Ding
Xue-Ying Chen
Xue-Ying
Chen
Bello-Onaghise God’spower
Bello-Onaghise
God’spower
Yan-Hua Li
Yan-Hua
Li
Data_Sheet_2_Spectrum-Effect Relationships Between the Bioactive Ingredient of Syringa oblata Lindl. Leaves and Its Role in Inhibiting the Biofilm Formation of Streptococcus suis.docx
Frontiers
2018
Syringa oblata Lindl.
spectrum-effect relationships
active ingredients
biofilm formation
computational studies
2018-06-05 09:03:42
Dataset
https://frontiersin.figshare.com/articles/dataset/Data_Sheet_2_Spectrum-Effect_Relationships_Between_the_Bioactive_Ingredient_of_Syringa_oblata_Lindl_Leaves_and_Its_Role_in_Inhibiting_the_Biofilm_Formation_of_Streptococcus_suis_docx/6444992
<p>Syringa oblata Lindl. (S. oblata) has been used in herbal medicines for treating bacterial diseases. It is also thought to inhibit Streptococcus suis (S. suis) biofilm formation. However, due to the inherent nature of the complexity in its chemical properties, it is difficult to understand the possible bioactive ingredients of S. oblata. The spectrum-effect relationships method was applied to screen the main active ingredients in S. oblata obtained from Heilongjiang Province based on gray relational analysis. The results revealed that Sub-MICs obtained from 10 batches of S. oblata could inhibit biofilm formation by S. suis. Gray relational analysis revealed variations in the contents of 15 main peaks and rutin was discovered to be the main active ingredient. Then, the function of rutin was further verified by inhibiting S. suis biofilm formation using crystal violet staining. Computational studies revealed that rutin may target the chloramphenicol acetyltransferase protein in the biofilm formation of S. suis. In conclusion, this study revealed that the spectrum-effect relationships and computational studies are useful tools to associate the active ingredient with the potential anti-biofilm effects of S. oblata. Here, our findings would provide foundation for the further understanding of the mechanism of S. oblata intervention in biofilm formation.</p>