Biology Reference
In-Depth Information
Konishi, M., Olson, A., Hollingworth, S., and Baylor, S. M. (1988). Myoplasmic binding of fura-
2 investigated by steady-state fluorescence and absorbance measurements. Biophys. J.
54,
1089-1104.
Korchev, Y. E., Negulyaev, Y. A., Edwards, C. R., Vodyanoy, I., and Lab, M. J. (2000). Functional
localization of single active ion channels on the surface of a living cell. Nat. Cell. Biol.
2,
616-619.
Levy, S., and Fein, A. (1985). Relationship between light sensitivity and intracellular free Ca concen-
tration in Limulus ventral photoreceptors. A quantitative study using Ca-selective microelectrodes.
J. Gen. Physiol.
85,
805-841.
Lipp, P., Luscher, C., and Niggli, E. (1996). Photolysis of caged compounds characterized by ratio-
metric confocal microscopy: A new approach to homogeneously control and measure the calcium
concentration in cardiac myocytes. Cell Calcium
19,
255-266.
Lopez, J. R., Contreras, J., Linares, N., and Allen, P. D. (2000). Hypersensitivity of malignant
hyperthermia-susceptible swine skeletal muscle to ca
V
eine is mediated by high resting myoplasmic
[Ca
2
þ
]. Anesthesiology
92,
1799-1806.
MacLeod, K. T., and Bers, D. M. (1987). E
V
ects of rest duration and ryanodine on changes of
extracellular [Ca] in cardiac muscle from rabbits. Am. J. Physiol.
253,
C398-C407.
Marban, E., Rink, T. J., Tsien, R. W., and Tsien, R. Y. (1980). Free calcium in heart muscle at rest and
during contraction measured with Ca
2
þ
-sensitive microelectrodes. Nature
286,
845-850.
Mattiazzi, A., Hove-Madsen, L., and Bers, D. M. (1994). Protein kinase inhibitors reduce SR Ca
transport in permeabilized cardiac myocytes. Am. J. Physiol.
267,
H812-H820.
Messerli, M. A., Corson, E. D., and Smith, P. J. (2007). Measuring extracellular ion gradients from
single channels with ion-selective microelectrodes. Biophys. J.
92,
L52-L54.
Orchard, C. H., Boyett, M. R., Fry, C. H., and Hunter, M. (1991). The use of electrodes to study cellular
Ca
2
þ
metabolism.
In
''Cellular Calcium. A Practical Approach,''
(J. G. McCormack, and
P. H. Cobbold, eds.), Oxford University Press, New York.
Picht, E., DeSantiago, J., Blatter, L. A., and Bers, D. M. (2006). Cardiac alternans do not rely on
diastolic sarcoplasmic reticulum calcium content fluctuations. Circ. Res.
99,
740-748.
Purves, R. D. (1981). Microelectrode Methods for Intracellular Recording and Ionophoresis. Academic
Press, New York.
Schefer, U., Ammann, D., Pretsch, E., Oesch, U., and Simon, W. (1986). Neutral carrier based Ca
2
þ
-
selective electrode with detection limit in the subnanomolar range. Anal. Chem.
58,
2282-2285.
Shannon, T. R., and Bers, D. M. (1997). Assessment of intra-SR free [Ca] and bu
V
ering in rat heart.
1524-1531.
Shattock, M. J., and Bers, D. M. (1989). Rat vs. rabbit ventricle: Ca flux and intracellular Na assessed
by ion-selective microelectrodes. Am. J. Physiol.
256,
Biophys. J.
73,
C813-C822.
Smith, P. J. S., Hammar, K., Porterfield, D. M., Sanger, R. H., and Trimarchi, J. R. (1999). Self-
referencing, non-invasive, ion selective electrode for single cell detection of trans-plasma membrane
calcium flux. Microsc. Res. Tech.
46,
389-417.
Suzuki, K., Watanabe, K., Matsumoto, Y., Kobayashi, M., Sato, S., Siswanta, D., and Hisamoto, H.
(1995). Design and synthesis of calcium and magnesium ionophores based on double-armed diaza-
crown ether compounds and their application to an ion sensing component for an ion-selective
electrode. Anal. Chem.
67,
324-334.
Thomas, R. C. (1982). Ion-Selective Microelectrodes: How to Make and Use Them. Academic Press,
New York.
Tsien, R. Y., and Rink, T. J. (1981). Ca
2
þ
-selective electrodes: A novel PVC-gelled neutral carrier
mixture compared with other currently available sensors. J. Neurosci. Methods
4,
73-86.
Ujec, E., Keller, O., Machek, J., and Pavlik, V. (1979). Low impedance coaxial K
þ
selective microelec-
trodes. Pflugers Arch.
382,
189-192.
Vaughan-Jones, R. D., and Kaila, K. (1986). The sensitivity of liquid sensor, ion-selective microelec-
trodes to changes in temperature and solution level. Pflugers Arch.
406,
641-644.
Vaughan-Jones, R. D., and Wu, M. L. (1990). pH dependence of intrinsic H
þ
bu
V
ering power in the
sheep cardiac Purkinje fibre. J. Physiol.
425,
429-448.
