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Quinazolinone-based benzenesulfonamides with low toxicity and high affinity as monoamine oxidase-A inhibitors: Synthesis, biological evaluation and induced-fit docking studies
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C. YAMALI Et Al. , "Quinazolinone-based benzenesulfonamides with low toxicity and high affinity as monoamine oxidase-A inhibitors: Synthesis, biological evaluation and induced-fit docking studies," BIOORGANIC CHEMISTRY , vol.124, 2022

YAMALI, C. Et Al. 2022. Quinazolinone-based benzenesulfonamides with low toxicity and high affinity as monoamine oxidase-A inhibitors: Synthesis, biological evaluation and induced-fit docking studies. BIOORGANIC CHEMISTRY , vol.124 .

YAMALI, C., GÜL, H. İ., Sakarya, M. T., SAĞLIK, B. N., Ece, A., DEMİREL, G., ... NENNİ, M.(2022). Quinazolinone-based benzenesulfonamides with low toxicity and high affinity as monoamine oxidase-A inhibitors: Synthesis, biological evaluation and induced-fit docking studies. BIOORGANIC CHEMISTRY , vol.124.

YAMALI, CEM Et Al. "Quinazolinone-based benzenesulfonamides with low toxicity and high affinity as monoamine oxidase-A inhibitors: Synthesis, biological evaluation and induced-fit docking studies," BIOORGANIC CHEMISTRY , vol.124, 2022

YAMALI, CEM Et Al. "Quinazolinone-based benzenesulfonamides with low toxicity and high affinity as monoamine oxidase-A inhibitors: Synthesis, biological evaluation and induced-fit docking studies." BIOORGANIC CHEMISTRY , vol.124, 2022

YAMALI, C. Et Al. (2022) . "Quinazolinone-based benzenesulfonamides with low toxicity and high affinity as monoamine oxidase-A inhibitors: Synthesis, biological evaluation and induced-fit docking studies." BIOORGANIC CHEMISTRY , vol.124.

@article{article, author={CEM YAMALI Et Al. }, title={Quinazolinone-based benzenesulfonamides with low toxicity and high affinity as monoamine oxidase-A inhibitors: Synthesis, biological evaluation and induced-fit docking studies}, journal={BIOORGANIC CHEMISTRY}, year=2022}