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Eduardo Rios to Rana pipiens

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This is a "connection" page, showing publications Eduardo Rios has written about Rana pipiens.
Eduardo Rios
Connection Strength
1.459
Rana pipiens
  1. Calcium-dependent inactivation terminates calcium release in skeletal muscle of amphibians. J Gen Physiol. 2008 Apr; 131(4):335-48.
    View in: PubMed
    Score: 0.309
  2. Synthetic localized calcium transients directly probe signalling mechanisms in skeletal muscle. J Physiol. 2012 Mar 15; 590(6):1389-411.
    View in: PubMed
    Score: 0.101
  3. The changes in Ca2+ sparks associated with measured modifications of intra-store Ca2+ concentration in skeletal muscle. J Gen Physiol. 2006 Jul; 128(1):45-54.
    View in: PubMed
    Score: 0.068
  4. 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: 0.067
  5. Concerted vs. sequential. Two activation patterns of vast arrays of intracellular Ca2+ channels in muscle. J Gen Physiol. 2005 Oct; 126(4):301-9.
    View in: PubMed
    Score: 0.065
  6. 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: 0.064
  7. How source content determines intracellular Ca2+ release kinetics. Simultaneous measurement of [Ca2+] transients and [H+] displacement in skeletal muscle. J Gen Physiol. 2004 Sep; 124(3):239-58.
    View in: PubMed
    Score: 0.060
  8. Intracellular Ca(2+) release as irreversible Markov process. Biophys J. 2002 Nov; 83(5):2511-21.
    View in: PubMed
    Score: 0.053
  9. A preferred amplitude of calcium sparks in skeletal muscle. Biophys J. 2001 Jan; 80(1):169-83.
    View in: PubMed
    Score: 0.047
  10. Fast imaging in two dimensions resolves extensive sources of Ca2+ sparks in frog skeletal muscle. J Physiol. 2000 Nov 01; 528(Pt 3):419-33.
    View in: PubMed
    Score: 0.046
  11. Involvement of multiple intracellular release channels in calcium sparks of skeletal muscle. Proc Natl Acad Sci U S A. 2000 Apr 11; 97(8):4380-5.
    View in: PubMed
    Score: 0.045
  12. The spark and its ember: separately gated local components of Ca(2+) release in skeletal muscle. J Gen Physiol. 2000 Feb; 115(2):139-58.
    View in: PubMed
    Score: 0.044
  13. Calcium release flux underlying Ca2+ sparks of frog skeletal muscle. J Gen Physiol. 1999 Jul; 114(1):31-48.
    View in: PubMed
    Score: 0.042
  14. Local calcium release in mammalian skeletal muscle. J Physiol. 1998 Oct 15; 512 ( Pt 2):377-84.
    View in: PubMed
    Score: 0.040
  15. Small event Ca2+ release: a probable precursor of Ca2+ sparks in frog skeletal muscle. J Physiol. 1997 Jul 01; 502 ( Pt 1):3-11.
    View in: PubMed
    Score: 0.037
  16. 'Quantal' calcium release operated by membrane voltage in frog skeletal muscle. J Physiol. 1997 Jun 01; 501 ( Pt 2):289-303.
    View in: PubMed
    Score: 0.037
  17. Activation of Ca2+ release by caffeine and voltage in frog skeletal muscle. J Physiol. 1996 Jun 01; 493 ( Pt 2):317-39.
    View in: PubMed
    Score: 0.034
  18. Caffeine enhances intramembranous charge movement in frog skeletal muscle by increasing cytoplasmic Ca2+ concentration. J Physiol. 1996 Jun 01; 493 ( Pt 2):341-56.
    View in: PubMed
    Score: 0.034
  19. Properties and roles of an intramembranous charge mobilized at high voltages in frog skeletal muscle. J Physiol. 1995 Jul 15; 486 ( Pt 2):385-400.
    View in: PubMed
    Score: 0.032
  20. A damped oscillation in the intramembranous charge movement and calcium release flux of frog skeletal muscle fibers. J Gen Physiol. 1994 Sep; 104(3):449-76.
    View in: PubMed
    Score: 0.030
  21. Perchlorate enhances transmission in skeletal muscle excitation-contraction coupling. J Gen Physiol. 1993 Sep; 102(3):373-421.
    View in: PubMed
    Score: 0.028
  22. Differential effects of tetracaine on two kinetic components of calcium release in frog skeletal muscle fibres. J Physiol. 1992 Nov; 457:525-38.
    View in: PubMed
    Score: 0.027
  23. The relationship between Q gamma and Ca release from the sarcoplasmic reticulum in skeletal muscle. J Gen Physiol. 1991 May; 97(5):913-47.
    View in: PubMed
    Score: 0.024
  24. Interfering with calcium release suppresses I gamma, the "hump" component of intramembranous charge movement in skeletal muscle. J Gen Physiol. 1991 May; 97(5):845-84.
    View in: PubMed
    Score: 0.024
  25. The voltage sensor of excitation-contraction coupling in skeletal muscle. Ion dependence and selectivity. J Gen Physiol. 1989 Sep; 94(3):405-28.
    View in: PubMed
    Score: 0.021
  26. Voltage sensors of the frog skeletal muscle membrane require calcium to function in excitation-contraction coupling. J Physiol. 1988 Apr; 398:475-505.
    View in: PubMed
    Score: 0.019
  27. Intramembrane charge movement in frog skeletal muscle fibres. Properties of charge 2. J Physiol. 1987 Jun; 387:489-517.
    View in: PubMed
    Score: 0.018
  28. Regulation of Ca2+ sparks by Ca2+ and Mg2+ in mammalian and amphibian muscle. An RyR isoform-specific role in excitation-contraction coupling? J Gen Physiol. 2004 Oct; 124(4):409-28.
    View in: PubMed
    Score: 0.015
  29. Unitary Ca2+ current through mammalian cardiac and amphibian skeletal muscle ryanodine receptor Channels under near-physiological ionic conditions. J Gen Physiol. 2003 Oct; 122(4):407-17.
    View in: PubMed
    Score: 0.014
  30. Imaging elementary events of calcium release in skeletal muscle cells. Science. 1995 Sep 22; 269(5231):1723-6.
    View in: PubMed
    Score: 0.008
  31. Effects of extracellular calcium on calcium movements of excitation-contraction coupling in frog skeletal muscle fibres. J Physiol. 1988 Apr; 398:441-73.
    View in: PubMed
    Score: 0.005
Connection Strength

The connection strength for concepts is the sum of the scores for each matching publication.

Publication scores are based on many factors, including how long ago they were written and whether the person is a first or senior author.