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Tom Shannon to Animals

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This is a "connection" page, showing publications Tom Shannon has written about Animals.
Tom Shannon
Connection Strength
1.047
Animals
  1. Nitric oxide-dependent activation of CaMKII increases diastolic sarcoplasmic reticulum calcium release in cardiac myocytes in response to adrenergic stimulation. PLoS One. 2014; 9(2):e87495.
    View in: PubMed
    Score: 0.065
  2. Isoproterenol increases the fraction of spark-dependent RyR-mediated leak in ventricular myocytes. Biophys J. 2013 Mar 05; 104(5):976-85.
    View in: PubMed
    Score: 0.061
  3. Calcium movements inside the sarcoplasmic reticulum of cardiac myocytes. J Mol Cell Cardiol. 2013 May; 58:59-66.
    View in: PubMed
    Score: 0.060
  4. Ca sparks do not explain all ryanodine receptor-mediated SR Ca leak in mouse ventricular myocytes. Biophys J. 2010 May 19; 98(10):2111-20.
    View in: PubMed
    Score: 0.050
  5. Spontaneous Ca waves in ventricular myocytes from failing hearts depend on Ca(2+)-calmodulin-dependent protein kinase II. J Mol Cell Cardiol. 2010 Jul; 49(1):25-32.
    View in: PubMed
    Score: 0.049
  6. Ryanodine receptor Ca2+ sensitivity and excitation-contraction coupling in muscular dystrophy and heart failure: similar and yet different. Am J Physiol Heart Circ Physiol. 2009 Dec; 297(6):H1965-6.
    View in: PubMed
    Score: 0.048
  7. Diastolic release of calcium from the sarcoplasmic reticulum: a potential target for treating triggered arrhythmias and heart failure. J Am Coll Cardiol. 2009 May 26; 53(21):2006-8.
    View in: PubMed
    Score: 0.047
  8. Linking calsequestrin to lumenal control of SR Ca2+ release. Circ Res. 2007 Sep 14; 101(6):539-41.
    View in: PubMed
    Score: 0.041
  9. Beta-adrenergic enhancement of sarcoplasmic reticulum calcium leak in cardiac myocytes is mediated by calcium/calmodulin-dependent protein kinase. Circ Res. 2007 Feb 16; 100(3):391-8.
    View in: PubMed
    Score: 0.040
  10. Confocal imaging of CICR events from isolated and immobilized SR vesicles. Cell Calcium. 2005 Nov; 38(5):497-505.
    View in: PubMed
    Score: 0.036
  11. Regulation of cardiac sarcoplasmic reticulum Ca release by luminal [Ca] and altered gating assessed with a mathematical model. Biophys J. 2005 Dec; 89(6):4096-110.
    View in: PubMed
    Score: 0.036
  12. A mathematical treatment of integrated Ca dynamics within the ventricular myocyte. Biophys J. 2004 Nov; 87(5):3351-71.
    View in: PubMed
    Score: 0.034
  13. Integrated Ca2+ management in cardiac myocytes. Ann N Y Acad Sci. 2004 May; 1015:28-38.
    View in: PubMed
    Score: 0.033
  14. Elevated sarcoplasmic reticulum Ca2+ leak in intact ventricular myocytes from rabbits in heart failure. Circ Res. 2003 Oct 03; 93(7):592-4.
    View in: PubMed
    Score: 0.031
  15. Ca2+ scraps: local depletions of free [Ca2+] in cardiac sarcoplasmic reticulum during contractions leave substantial Ca2+ reserve. Circ Res. 2003 Jul 11; 93(1):40-5.
    View in: PubMed
    Score: 0.031
  16. Quantitative assessment of the SR Ca2+ leak-load relationship. Circ Res. 2002 Oct 04; 91(7):594-600.
    View in: PubMed
    Score: 0.029
  17. Phospholamban decreases the energetic efficiency of the sarcoplasmic reticulum Ca pump. J Biol Chem. 2001 Mar 09; 276(10):7195-201.
    View in: PubMed
    Score: 0.026
  18. Reverse mode of the sarcoplasmic reticulum calcium pump and load-dependent cytosolic calcium decline in voltage-clamped cardiac ventricular myocytes. Biophys J. 2000 Jan; 78(1):322-33.
    View in: PubMed
    Score: 0.024
  19. Potentiation of fractional sarcoplasmic reticulum calcium release by total and free intra-sarcoplasmic reticulum calcium concentration. Biophys J. 2000 Jan; 78(1):334-43.
    View in: PubMed
    Score: 0.024
  20. Reverse mode of the sarcoplasmic reticulum Ca pump limits sarcoplasmic reticulum Ca uptake in permeabilized and voltage-clamped myocytes. Ann N Y Acad Sci. 1998 Sep 16; 853:350-2.
    View in: PubMed
    Score: 0.022
  21. Assessment of intra-SR free [Ca] and buffering in rat heart. Biophys J. 1997 Sep; 73(3):1524-31.
    View in: PubMed
    Score: 0.021
  22. ?-Adrenergic induced SR Ca2+ leak is mediated by an Epac-NOS pathway. J Mol Cell Cardiol. 2017 07; 108:8-16.
    View in: PubMed
    Score: 0.020
  23. Sarcoplasmic reticulum Ca2+, Mg2+, K+, and Cl- concentrations adjust quickly as heart rate changes. J Mol Cell Cardiol. 2017 02; 103:31-39.
    View in: PubMed
    Score: 0.020
  24. Electrophysiological Determination of Submembrane Na(+) Concentration in Cardiac Myocytes. Biophys J. 2016 Sep 20; 111(6):1304-1315.
    View in: PubMed
    Score: 0.019
  25. Sarcoplasmic Reticulum Structure and Functional Properties that Promote Long-Lasting Calcium Sparks. Biophys J. 2016 Jan 19; 110(2):382-390.
    View in: PubMed
    Score: 0.018
  26. Interaction of cardiac Na-Ca exchanger and exchange inhibitory peptide with membrane phospholipids. Am J Physiol. 1994 May; 266(5 Pt 1):C1350-6.
    View in: PubMed
    Score: 0.016
  27. Identification of a 65 kDa endothelin receptor in bovine cardiac sarcolemmal vesicles. Eur J Pharmacol. 1994 Apr 15; 267(2):233-8.
    View in: PubMed
    Score: 0.016
  28. Longitudinal and transversal propagation of excitation along the tubular system of rat fast-twitch muscle fibres studied by high speed confocal microscopy. J Physiol. 2012 Feb 01; 590(3):475-92.
    View in: PubMed
    Score: 0.014
  29. Effects of increased systolic Ca?? and phospholamban phosphorylation during ?-adrenergic stimulation on Ca?? transient kinetics in cardiac myocytes. Am J Physiol Heart Circ Physiol. 2011 Oct; 301(4):H1570-8.
    View in: PubMed
    Score: 0.014
  30. Dynamic calcium movement inside cardiac sarcoplasmic reticulum during release. Circ Res. 2011 Apr 01; 108(7):847-56.
    View in: PubMed
    Score: 0.013
  31. Flux regulation of cardiac ryanodine receptor channels. J Gen Physiol. 2010 Jan; 135(1):15-27.
    View in: PubMed
    Score: 0.012
  32. Intra-sarcoplasmic reticulum free [Ca2+] and buffering in arrhythmogenic failing rabbit heart. Circ Res. 2007 Oct 12; 101(8):802-10.
    View in: PubMed
    Score: 0.010
  33. Depletion "skraps" and dynamic buffering inside the cellular calcium store. Proc Natl Acad Sci U S A. 2006 Feb 21; 103(8):2982-7.
    View in: PubMed
    Score: 0.009
  34. Ca2+/calmodulin-dependent protein kinase modulates cardiac ryanodine receptor phosphorylation and sarcoplasmic reticulum Ca2+ leak in heart failure. Circ Res. 2005 Dec 09; 97(12):1314-22.
    View in: PubMed
    Score: 0.009
  35. Confocal imaging of [Ca2+] in cellular organelles by SEER, shifted excitation and emission ratioing of fluorescence. J Physiol. 2005 Sep 01; 567(Pt 2):523-43.
    View in: PubMed
    Score: 0.009
  36. Allosteric regulation of Na/Ca exchange current by cytosolic Ca in intact cardiac myocytes. J Gen Physiol. 2001 Feb; 117(2):119-31.
    View in: PubMed
    Score: 0.007
  37. Regulatory role of phospholamban in the efficiency of cardiac sarcoplasmic reticulum Ca2+ transport. Biochemistry. 2000 Nov 21; 39(46):14176-82.
    View in: PubMed
    Score: 0.006
  38. Cyclic stretch down-regulates calcium transporter gene expression in neonatal rat ventricular myocytes. J Mol Cell Cardiol. 1998 Nov; 30(11):2247-59.
    View in: PubMed
    Score: 0.006
  39. Passive Ca2+ binding in ventricular myocardium of neonatal and adult rats. Cell Calcium. 1998 Jun; 23(6):433-42.
    View in: PubMed
    Score: 0.005
  40. Ca flux, contractility, and excitation-contraction coupling in hypertrophic rat ventricular myocytes. Am J Physiol. 1998 04; 274(4):H1348-60.
    View in: PubMed
    Score: 0.005
  41. Downregulation of sarcoplasmic reticulum Ca(2+)-ATPase during progression of left ventricular hypertrophy. Am J Physiol. 1997 May; 272(5 Pt 2):H2416-24.
    View in: PubMed
    Score: 0.005
  42. Effects of FK-506 on contraction and Ca2+ transients in rat cardiac myocytes. Circ Res. 1996 Dec; 79(6):1110-21.
    View in: PubMed
    Score: 0.005
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