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In Silico Network Toxicology, Molecular Docking, and Multi-Level Bioinformatics Reveal Methyl Eugenol-Induced Hepatocellular Carcinoma Mechanisms in Humans
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F. Karakuş Et Al. , "In Silico Network Toxicology, Molecular Docking, and Multi-Level Bioinformatics Reveal Methyl Eugenol-Induced Hepatocellular Carcinoma Mechanisms in Humans," Cancer Medicine , vol.14, no.10, 2025

Karakuş, F. Et Al. 2025. In Silico Network Toxicology, Molecular Docking, and Multi-Level Bioinformatics Reveal Methyl Eugenol-Induced Hepatocellular Carcinoma Mechanisms in Humans. Cancer Medicine , vol.14, no.10 .

Karakuş, F., Tanrıverdi, Z., & Kuzu, B., (2025). In Silico Network Toxicology, Molecular Docking, and Multi-Level Bioinformatics Reveal Methyl Eugenol-Induced Hepatocellular Carcinoma Mechanisms in Humans. Cancer Medicine , vol.14, no.10.

Karakuş, Fuat, Zübeyde Tanrıverdi, And Burak Kuzu. "In Silico Network Toxicology, Molecular Docking, and Multi-Level Bioinformatics Reveal Methyl Eugenol-Induced Hepatocellular Carcinoma Mechanisms in Humans," Cancer Medicine , vol.14, no.10, 2025

Karakuş, Fuat Et Al. "In Silico Network Toxicology, Molecular Docking, and Multi-Level Bioinformatics Reveal Methyl Eugenol-Induced Hepatocellular Carcinoma Mechanisms in Humans." Cancer Medicine , vol.14, no.10, 2025

Karakuş, F. Tanrıverdi, Z. And Kuzu, B. (2025) . "In Silico Network Toxicology, Molecular Docking, and Multi-Level Bioinformatics Reveal Methyl Eugenol-Induced Hepatocellular Carcinoma Mechanisms in Humans." Cancer Medicine , vol.14, no.10.

@article{article, author={Fuat Karakuş Et Al. }, title={In Silico Network Toxicology, Molecular Docking, and Multi-Level Bioinformatics Reveal Methyl Eugenol-Induced Hepatocellular Carcinoma Mechanisms in Humans}, journal={Cancer Medicine}, year=2025}