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In silico molecular docking results depict binding conformations of curcumin with target proteins involved in the inflammatory cascade. The predicted binding energies suggest favorable interactions that may underlie curcumin's observed anti-inflammatory effects.
Figure 13
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Curcumin Suppresses Lead-Induced Inflammation and Memory Loss in Mouse Model and In Silico Molecular Docking.Cite This Figure
![Figure 13: In silico molecular docking results depict binding conformations of curcumin with target proteins involved in the inflammatory cascade. The predicted binding energies suggest favorable interactions that may underlie curcumin's observed anti-inflammatory effects.]() > Source: Suksan Changlek et al. "Curcumin Suppresses Lead-Induced Inflammation and Memory Loss in Mouse Model and." *Foods (Basel, Switzerland)*, 2022. PMID: [35327278](https://pubmed.ncbi.nlm.nih.gov/35327278/)
<figure> <img src="" alt="In silico molecular docking results depict binding conformations of curcumin with target proteins involved in the inflammatory cascade. The predicted binding energies suggest favorable interactions that may underlie curcumin's observed anti-inflammatory effects." /> <figcaption>Figure 13. In silico molecular docking results depict binding conformations of curcumin with target proteins involved in the inflammatory cascade. The predicted binding energies suggest favorable interactions that may underlie curcumin's observed anti-inflammatory effects.<br> Source: Suksan Changlek et al. "Curcumin Suppresses Lead-Induced Inflammation and Memory Loss in Mouse Model and." <em>Foods (Basel, Switzerland)</em>, 2022. PMID: <a href="https://pubmed.ncbi.nlm.nih.gov/35327278/">35327278</a></figcaption> </figure>