E. TUNCAY And B. Turan, "Intracellular Zn2+ Increase in Cardiomyocytes Induces both Electrical and Mechanical Dysfunction in Heart via Endogenous Generation of Reactive Nitrogen Species," BIOLOGICAL TRACE ELEMENT RESEARCH , vol.169, no.2, pp.294-302, 2016
TUNCAY, E. And Turan, B. 2016. Intracellular Zn2+ Increase in Cardiomyocytes Induces both Electrical and Mechanical Dysfunction in Heart via Endogenous Generation of Reactive Nitrogen Species. BIOLOGICAL TRACE ELEMENT RESEARCH , vol.169, no.2 , 294-302.
TUNCAY, E., & Turan, B., (2016). Intracellular Zn2+ Increase in Cardiomyocytes Induces both Electrical and Mechanical Dysfunction in Heart via Endogenous Generation of Reactive Nitrogen Species. BIOLOGICAL TRACE ELEMENT RESEARCH , vol.169, no.2, 294-302.
TUNCAY, ERKAN, And Belma Turan. "Intracellular Zn2+ Increase in Cardiomyocytes Induces both Electrical and Mechanical Dysfunction in Heart via Endogenous Generation of Reactive Nitrogen Species," BIOLOGICAL TRACE ELEMENT RESEARCH , vol.169, no.2, 294-302, 2016
TUNCAY, ERKAN And Turan, Belma. "Intracellular Zn2+ Increase in Cardiomyocytes Induces both Electrical and Mechanical Dysfunction in Heart via Endogenous Generation of Reactive Nitrogen Species." BIOLOGICAL TRACE ELEMENT RESEARCH , vol.169, no.2, pp.294-302, 2016
TUNCAY, E. And Turan, B. (2016) . "Intracellular Zn2+ Increase in Cardiomyocytes Induces both Electrical and Mechanical Dysfunction in Heart via Endogenous Generation of Reactive Nitrogen Species." BIOLOGICAL TRACE ELEMENT RESEARCH , vol.169, no.2, pp.294-302.
@article{article, author={ERKAN TUNCAY And author={Belma Turan}, title={Intracellular Zn2+ Increase in Cardiomyocytes Induces both Electrical and Mechanical Dysfunction in Heart via Endogenous Generation of Reactive Nitrogen Species}, journal={BIOLOGICAL TRACE ELEMENT RESEARCH}, year=2016, pages={294-302} }