S. Takir Et Al. , "Retina derived relaxation is mediated by Kir channels and the inhibition of Ca2+ sensitization in isolated bovine retinal arteries," EXPERIMENTAL EYE RESEARCH , vol.132, pp.240-248, 2015
Takir, S. Et Al. 2015. Retina derived relaxation is mediated by Kir channels and the inhibition of Ca2+ sensitization in isolated bovine retinal arteries. EXPERIMENTAL EYE RESEARCH , vol.132 , 240-248.
Takir, S., Uydes-Dogan, S., & Ozdemir, O., (2015). Retina derived relaxation is mediated by Kir channels and the inhibition of Ca2+ sensitization in isolated bovine retinal arteries. EXPERIMENTAL EYE RESEARCH , vol.132, 240-248.
Takir, Selcuk, Birsel Sönmez UYDEŞ DOĞAN, And Osman Ozdemir. "Retina derived relaxation is mediated by Kir channels and the inhibition of Ca2+ sensitization in isolated bovine retinal arteries," EXPERIMENTAL EYE RESEARCH , vol.132, 240-248, 2015
Takir, Selcuk Et Al. "Retina derived relaxation is mediated by Kir channels and the inhibition of Ca2+ sensitization in isolated bovine retinal arteries." EXPERIMENTAL EYE RESEARCH , vol.132, pp.240-248, 2015
Takir, S. Uydes-Dogan, S. And Ozdemir, O. (2015) . "Retina derived relaxation is mediated by Kir channels and the inhibition of Ca2+ sensitization in isolated bovine retinal arteries." EXPERIMENTAL EYE RESEARCH , vol.132, pp.240-248.
@article{article, author={Selcuk Takir Et Al. }, title={Retina derived relaxation is mediated by Kir channels and the inhibition of Ca2+ sensitization in isolated bovine retinal arteries}, journal={EXPERIMENTAL EYE RESEARCH}, year=2015, pages={240-248} }