Timucin, E. And Sezerman, O. U. 2018. Thermostability of the PYL-PP2C Heterodimer Is Dependent on Magnesium: In Silico Insights into the Link between Heat Stress Response and Magnesium Deficiency in Plants.. Journal of chemical information and modeling , vol.58 , 661-672.

Timucin, E., & Sezerman, O. U., (2018). Thermostability of the PYL-PP2C Heterodimer Is Dependent on Magnesium: In Silico Insights into the Link between Heat Stress Response and Magnesium Deficiency in Plants.. Journal of chemical information and modeling , vol.58, 661-672.

Timucin, EMEL, And Osman Uğur SEZERMAN. "Thermostability of the PYL-PP2C Heterodimer Is Dependent on Magnesium: In Silico Insights into the Link between Heat Stress Response and Magnesium Deficiency in Plants.," Journal of chemical information and modeling , vol.58, 661-672, 2018

Timucin, EMEL And Sezerman, Osman U. . "Thermostability of the PYL-PP2C Heterodimer Is Dependent on Magnesium: In Silico Insights into the Link between Heat Stress Response and Magnesium Deficiency in Plants.." Journal of chemical information and modeling , vol.58, pp.661-672, 2018

Timucin, E. And Sezerman, O. U. (2018) . "Thermostability of the PYL-PP2C Heterodimer Is Dependent on Magnesium: In Silico Insights into the Link between Heat Stress Response and Magnesium Deficiency in Plants.." Journal of chemical information and modeling , vol.58, pp.661-672.

@article{article, author={EMEL TİMUÇİN And author={Osman Uğur SEZERMAN}, title={Thermostability of the PYL-PP2C Heterodimer Is Dependent on Magnesium: In Silico Insights into the Link between Heat Stress Response and Magnesium Deficiency in Plants.}, journal={Journal of chemical information and modeling}, year=2018, pages={661-672} }