S. GÜNAL Et Al. , "The investigation of the effect of NAD, H2O2 and weak magnetic field on the antibacterial mechanism of isoniazid (INH) that first line antibiotic against M. tuberculosis agent," Medicine Science , vol.9, no.1, pp.207-211, 2020
GÜNAL, S. Et Al. 2020. The investigation of the effect of NAD, H2O2 and weak magnetic field on the antibacterial mechanism of isoniazid (INH) that first line antibiotic against M. tuberculosis agent. Medicine Science , vol.9, no.1 , 207-211.
GÜNAL, S., BATÇIOĞLU, K., & ERDOĞAN, E., (2020). The investigation of the effect of NAD, H2O2 and weak magnetic field on the antibacterial mechanism of isoniazid (INH) that first line antibiotic against M. tuberculosis agent. Medicine Science , vol.9, no.1, 207-211.
GÜNAL, SELAMİ, KADİR BATÇIOĞLU, And ESRA ERDOĞAN. "The investigation of the effect of NAD, H2O2 and weak magnetic field on the antibacterial mechanism of isoniazid (INH) that first line antibiotic against M. tuberculosis agent," Medicine Science , vol.9, no.1, 207-211, 2020
GÜNAL, SELAMİ Et Al. "The investigation of the effect of NAD, H2O2 and weak magnetic field on the antibacterial mechanism of isoniazid (INH) that first line antibiotic against M. tuberculosis agent." Medicine Science , vol.9, no.1, pp.207-211, 2020
GÜNAL, S. BATÇIOĞLU, K. And ERDOĞAN, E. (2020) . "The investigation of the effect of NAD, H2O2 and weak magnetic field on the antibacterial mechanism of isoniazid (INH) that first line antibiotic against M. tuberculosis agent." Medicine Science , vol.9, no.1, pp.207-211.
@article{article, author={SELAMİ GÜNAL Et Al. }, title={The investigation of the effect of NAD, H2O2 and weak magnetic field on the antibacterial mechanism of isoniazid (INH) that first line antibiotic against M. tuberculosis agent}, journal={Medicine Science}, year=2020, pages={207-211} }