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Both Reactive ROS and RNS Contribute to Intracellular Free Zn2+ Regulation in Cardiomyocytes Via Zinc Transporter ZIP7 Under Hyperglycemia
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E. TUNCAY Et Al. , "Both Reactive ROS and RNS Contribute to Intracellular Free Zn2+ Regulation in Cardiomyocytes Via Zinc Transporter ZIP7 Under Hyperglycemia," FREE RADICAL BIOLOGY AND MEDICINE , vol.100, 2016

TUNCAY, E. Et Al. 2016. Both Reactive ROS and RNS Contribute to Intracellular Free Zn2+ Regulation in Cardiomyocytes Via Zinc Transporter ZIP7 Under Hyperglycemia. FREE RADICAL BIOLOGY AND MEDICINE , vol.100 .

TUNCAY, E., Bitirim, V., DURAK, A., Rutter, G. A., & TURAN, B., (2016). Both Reactive ROS and RNS Contribute to Intracellular Free Zn2+ Regulation in Cardiomyocytes Via Zinc Transporter ZIP7 Under Hyperglycemia. FREE RADICAL BIOLOGY AND MEDICINE , vol.100.

TUNCAY, ERKAN Et Al. "Both Reactive ROS and RNS Contribute to Intracellular Free Zn2+ Regulation in Cardiomyocytes Via Zinc Transporter ZIP7 Under Hyperglycemia," FREE RADICAL BIOLOGY AND MEDICINE , vol.100, 2016

TUNCAY, ERKAN Et Al. "Both Reactive ROS and RNS Contribute to Intracellular Free Zn2+ Regulation in Cardiomyocytes Via Zinc Transporter ZIP7 Under Hyperglycemia." FREE RADICAL BIOLOGY AND MEDICINE , vol.100, 2016

TUNCAY, E. Et Al. (2016) . "Both Reactive ROS and RNS Contribute to Intracellular Free Zn2+ Regulation in Cardiomyocytes Via Zinc Transporter ZIP7 Under Hyperglycemia." FREE RADICAL BIOLOGY AND MEDICINE , vol.100.

@article{article, author={ERKAN TUNCAY Et Al. }, title={Both Reactive ROS and RNS Contribute to Intracellular Free Zn2+ Regulation in Cardiomyocytes Via Zinc Transporter ZIP7 Under Hyperglycemia}, journal={FREE RADICAL BIOLOGY AND MEDICINE}, year=2016}