Search results (165)
« Back to PublicationsPhosphodiesterase 2A2 regulates mitochondria clearance through Parkin-dependent mitophagy.
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Lobo MJ. et al, (2020), Commun Biol, 3
Multi-Compartment, Early Disruption of cGMP and cAMP Signalling in Cardiac Myocytes from the mdx Model of Duchenne Muscular Dystrophy.
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Brescia M. et al, (2020), Int J Mol Sci, 21
Subcellular organisation of the cAMP signalling pathwa
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ZACCOLO M., (2020), Pharmacological Reviews
Subcellular organisation of the cAMP signalling pathwa
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ZACCOLO M., (2020), Pharmacological Reviews
Cytoskeleton regulators CAPZA2 and INF2 associate with CFTR to control its plasma membrane levels under EPAC1 activation.
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Santos JD. et al, (2020), Biochem J
Defining a cellular map of cAMP nanodomains.
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Schleicher K. and Zaccolo M., (2020), Mol Pharmacol
Troponin destabilization impairs sarcomere-cytoskeleton interactions in iPSC-derived cardiomyocytes from dilated cardiomyopathy patients.
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Dai Y. et al, (2020), Sci Rep, 10
Imaging cAMP nanodomains in heart
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ZACCOLO M., (2019), Biochemical Society Transactions
Whole-Cell cAMP and PKA Activity are Epiphenomena, Nanodomain Signaling Matters.
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Bers DM. et al, (2019), Physiology (Bethesda), 34, 240 - 249
Quantification and Comparison of Signals Generated by Different FRET-Based cAMP Reporters.
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Koschinski A. and Zaccolo M., (2019), Methods Mol Biol, 1947, 217 - 237
Erratum: Phosphatases control PKA-dependent functional microdomains at the outer mitochondrial membrane (Proc Natl Acad Sci USA (2018) 115 (E6497–E6506) DOI: 10.1073/pnas.1806318115)
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Burdyga A. et al, (2018), Proceedings of the National Academy of Sciences of the United States of America, 115
Phosphatases control PKA-dependent functional microdomains at the outer mitochondrial membrane.
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Burdyga A. et al, (2018), Proc Natl Acad Sci U S A, 115, E6497 - E6506
Targeting FRET-Based Reporters for cAMP and PKA Activity Using AKAP79.
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Musheshe N. et al, (2018), Sensors (Basel), 18
Adrenaline Stimulates Glucagon Secretion by Tpc2-Dependent Ca2+ Mobilization From Acidic Stores in Pancreatic α-Cells.
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Hamilton A. et al, (2018), Diabetes, 67, 1128 - 1139
Phosphodiesterase 2A as a therapeutic target to restore cardiac neurotransmission during sympathetic hyperactivity.
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Liu K. et al, (2018), JCI Insight, 3
Cardiomyocyte Membrane Structure and cAMP Compartmentation Produce Anatomical Variation in β2AR-cAMP Responsiveness in Murine Hearts.
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Wright PT. et al, (2018), Cell Rep, 23, 459 - 469
FRET-ting about RhoA signalling in heart and vasculature: a new tool in our cardiovascular toolbox.
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Bruche S. and Zaccolo M., (2018), Cardiovasc Res, 114, e25 - e27
Using cAMP Sensors to Study Cardiac Nanodomains.
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Schleicher K. and Zaccolo M., (2018), J Cardiovasc Dev Dis, 5
cAMP: From Long-Range Second Messenger to Nanodomain Signalling.
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Musheshe N. et al, (2018), Trends Pharmacol Sci, 39, 209 - 222
Increase in Ca2+ current by sustained cAMP levels enhances proliferation rate in GH3 cells.
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Rodrigues AL. et al, (2018), Life Sci, 192, 144 - 150