Proteomic Signature of Dysfunctional Circulating Endothelial Colony-Forming Cells of Young Adults.
Tan CMJ. et al, (2021), J Am Heart Assoc, 10
Functional analysis of a gene-edited mouse to gain insights into the disease mechanisms of a titin missense variant
JIANG H. et al, (2021), Basic Research in Cardiology
BH4 Increases nNOS Activity and Preserves Left Ventricular Function in Diabetes.
Carnicer Hijazo R. et al, (2021), Circulation research
Inducibility, but not stability, of atrial fibrillation is increased by NOX2 overexpression in mice.
Mighiu AS. et al, (2021), Cardiovasc Res
Oxidation of PKA-RI alpha Protects Against Ischemia-reperfusion Injury by Inhibiting Lysosomal-triggered Calcium Release
Simon JN. et al, (2020), CIRCULATION, 142
Atrial nitroso-redox balance and refractoriness following on-pump cardiac surgery: A randomised trial of atorvastatin.
Jayaram R. et al, (2020), Cardiovasc Res
OXIDIZED PKARIa PROTECTS AGAINST ISCHEMIA-REPERFUSION INJURY BY INHIBITING LYSOSOMAL-TRIGGERED CALCIUM RELEASE
Simon JN. et al, (2020), HEART, 106, A111 - A111
Modifications of Sarcoplasmic Reticulum Function Prevent Progression of Sarcomere-Linked Hypertrophic Cardiomyopathy Despite a Persistent Increase in Myofilament Calcium Response.
Chowdhury SAK. et al, (2020), Frontiers in physiology, 11
Nitric oxide modulates cardiomyocyte pH control through a biphasic effect on sodium/hydrogen exchanger-1
SWIETACH P. et al, (2019), Cardiovascular Research
Redox-mediated PKA-RIalpha localisation to the lysosome inhibits myocardial calcium release and robustly reduces myocardial injury
Simon JN. et al, (2019), EUROPEAN HEART JOURNAL, 40, 1266 - 1266
Oxidation resistance 1 regulates post-translational modifications of peroxiredoxin 2 in the cerebellum.
Svistunova DM. et al, (2019), Free Radic Biol Med, 130, 151 - 162
Impaired cardiac contractile function in AGAT knockout mice devoid of creatine is rescued by homoarginine but not creatine.
Faller KME. et al, (2017), Cardiovascular research
Myocardial-specific Overexpression of GTP Cyclohydrolase 1 Prevents Diabetic Cardiomyopathy Independent of Nitric Oxide
Hijazo RC. et al, (2014), CIRCULATION, 130