M. Gür Et Al. , "Molecular dynamics simulations provide molecular insights into the role of HLA-B51 in Behcet's disease pathogenesis," CHEMICAL BIOLOGY & DRUG DESIGN , vol.96, no.1, pp.644-658, 2020
Gür, M. Et Al. 2020. Molecular dynamics simulations provide molecular insights into the role of HLA-B51 in Behcet's disease pathogenesis. CHEMICAL BIOLOGY & DRUG DESIGN , vol.96, no.1 , 644-658.
Gür, M., Golcuk, M., Gül, A., & Erman, B., (2020). Molecular dynamics simulations provide molecular insights into the role of HLA-B51 in Behcet's disease pathogenesis. CHEMICAL BIOLOGY & DRUG DESIGN , vol.96, no.1, 644-658.
Gür, Mert Et Al. "Molecular dynamics simulations provide molecular insights into the role of HLA-B51 in Behcet's disease pathogenesis," CHEMICAL BIOLOGY & DRUG DESIGN , vol.96, no.1, 644-658, 2020
Gür, Mert Et Al. "Molecular dynamics simulations provide molecular insights into the role of HLA-B51 in Behcet's disease pathogenesis." CHEMICAL BIOLOGY & DRUG DESIGN , vol.96, no.1, pp.644-658, 2020
Gür, M. Et Al. (2020) . "Molecular dynamics simulations provide molecular insights into the role of HLA-B51 in Behcet's disease pathogenesis." CHEMICAL BIOLOGY & DRUG DESIGN , vol.96, no.1, pp.644-658.
@article{article, author={Mert Gür Et Al. }, title={Molecular dynamics simulations provide molecular insights into the role of HLA-B51 in Behcet's disease pathogenesis}, journal={CHEMICAL BIOLOGY & DRUG DESIGN}, year=2020, pages={644-658} }