M. Qneibi Et Al. , "Deciphering the Biophysical Properties of Ion Channel Gating Pores by Coumarin–Benzodiazepine Hybrid Derivatives: Selective AMPA Receptor Antagonists," Molecular Neurobiology , vol.61, no.7, pp.4565-4576, 2024
Qneibi, M. Et Al. 2024. Deciphering the Biophysical Properties of Ion Channel Gating Pores by Coumarin–Benzodiazepine Hybrid Derivatives: Selective AMPA Receptor Antagonists. Molecular Neurobiology , vol.61, no.7 , 4565-4576.
Qneibi, M., Hawash, M., Gümüş, M., Çapan, İ., Sert, Y., Bdir, S., ... Koca, İ.(2024). Deciphering the Biophysical Properties of Ion Channel Gating Pores by Coumarin–Benzodiazepine Hybrid Derivatives: Selective AMPA Receptor Antagonists. Molecular Neurobiology , vol.61, no.7, 4565-4576.
Qneibi, Mohammad Et Al. "Deciphering the Biophysical Properties of Ion Channel Gating Pores by Coumarin–Benzodiazepine Hybrid Derivatives: Selective AMPA Receptor Antagonists," Molecular Neurobiology , vol.61, no.7, 4565-4576, 2024
Qneibi, Mohammad Et Al. "Deciphering the Biophysical Properties of Ion Channel Gating Pores by Coumarin–Benzodiazepine Hybrid Derivatives: Selective AMPA Receptor Antagonists." Molecular Neurobiology , vol.61, no.7, pp.4565-4576, 2024
Qneibi, M. Et Al. (2024) . "Deciphering the Biophysical Properties of Ion Channel Gating Pores by Coumarin–Benzodiazepine Hybrid Derivatives: Selective AMPA Receptor Antagonists." Molecular Neurobiology , vol.61, no.7, pp.4565-4576.
@article{article, author={Mohammad Qneibi Et Al. }, title={Deciphering the Biophysical Properties of Ion Channel Gating Pores by Coumarin–Benzodiazepine Hybrid Derivatives: Selective AMPA Receptor Antagonists}, journal={Molecular Neurobiology}, year=2024, pages={4565-4576} }