M. BÜYÜKTEMİZ And Y. DEDE, "Homoprotocatechuate dioxygenase active site: Imitating the secondary sphere base via computational design," Turkish Journal of Chemistry , vol.47, no.5, pp.1116-1124, 2023
BÜYÜKTEMİZ, M. And DEDE, Y. 2023. Homoprotocatechuate dioxygenase active site: Imitating the secondary sphere base via computational design. Turkish Journal of Chemistry , vol.47, no.5 , 1116-1124.
BÜYÜKTEMİZ, M., & DEDE, Y., (2023). Homoprotocatechuate dioxygenase active site: Imitating the secondary sphere base via computational design. Turkish Journal of Chemistry , vol.47, no.5, 1116-1124.
BÜYÜKTEMİZ, MUHAMMED, And YAVUZ DEDE. "Homoprotocatechuate dioxygenase active site: Imitating the secondary sphere base via computational design," Turkish Journal of Chemistry , vol.47, no.5, 1116-1124, 2023
BÜYÜKTEMİZ, MUHAMMED And DEDE, YAVUZ. "Homoprotocatechuate dioxygenase active site: Imitating the secondary sphere base via computational design." Turkish Journal of Chemistry , vol.47, no.5, pp.1116-1124, 2023
BÜYÜKTEMİZ, M. And DEDE, Y. (2023) . "Homoprotocatechuate dioxygenase active site: Imitating the secondary sphere base via computational design." Turkish Journal of Chemistry , vol.47, no.5, pp.1116-1124.
@article{article, author={MUHAMMED BÜYÜKTEMİZ And author={YAVUZ DEDE}, title={Homoprotocatechuate dioxygenase active site: Imitating the secondary sphere base via computational design}, journal={Turkish Journal of Chemistry}, year=2023, pages={1116-1124} }