Biology Reference
In-Depth Information
Good, N. E., Winget, G. D., Winter, W., Connolly, T. N., Izawa, S., and Singh, R. M. M. (1966).
Hydrogen ion bu
467-477.
Grynkiewicz, G., Poenie, M., and Tsien, R. Y. (1985). A new generation of Ca indicators with greatly
improved fluorescence properties. J. Biol. Chem.
260,
V
ers for biological research. Biochemistry
5,
3440-3450.
Harafuji, H., and Ogawa, Y. (1980). Re-examination of the apparent binding constant of ethlene glycol
bis(
b
-aminoethyl ethylene)-N,N,N
0
,N
0
-tetraacetic acid with calcium around neutral pH. J. Biochem.
87,
1305-1312.
Harkins, A. B., Kurebayashi, N., and Baylor, S. M. (1993). Resting myoplasmic free calcium in frog
skeletal muscle fibers estimated with fluo-3. Biophys. J.
65,
865-881.
Harrison, S. M., and Bers, D. M. (1987). The e
V
ect of temperature and ionic strength on the apparent
Ca-a
Y
nity of EGTA and the analogous Ca-chelators BAPTA and dibromo-BAPTA. Biochim.
Biophys. Acta
925,
133-143.
Hove-Madsen, L., and Bers, D. M. (1991). Indo-1 binding in permeabilized myocytes alters its spectral
and Ca binding properties. Biophys. J.
63,
89-97.
Illingworth, J. A. (1981). A common source of error in pH measurements. Biochem. J.
195,
259-262.
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.
Marks, P. W., and Maxfield, F. R. (1991). Preparation of solutions with free calcium concentration in
the nanomolar range using 1, 2-bis(o-aminophenoxy)ethane-N,N,N
0
,N
0
-tetraacetic acid. Anal. Bio-
chem.
193,
61-71.
Martell, A. E., and Smith, R. M. (1974). Critical Stability Constants, Vol. 1. Plenum, New York.
Martell, A. E., and Smith, R. M. (1977). Critical Stability Constants, Vol. 3. Plenum, New York.
McGuigan, J. A. S., L¨ thi, D., and Buri, A. (1991). Calcium bu
V
er solutions and how to make them:
A do it yourself guide. Can. J. Physiol. Pharmacol.
69,
1733-1749.
McGuigan, J. A., Kay, J. W., Elder, H. Y., and L
¨
thi, D. (2007). Comparison between measured and
calculated ionised concentrations in Mg
2
þ
/ATP, Mg
2
þ
/EDTA and Ca
2
þ
/EGTA bu
V
ers; influence of
changes in temperature, pH and pipetting errors on the ionised concentrations. Magnes. Res.
20,
72-81.
V
Miller, D. J., and Smith, G. L. (1984). EGTA purity and the bu
ering of calcium ions in physiological
C160-C166.
Nakon, R. (1979). Free metal ion depletion by Good's bu
solutions. Am. J. Physiol.
246,
527-532.
Ohnishi, S. T. (1978). Characterization of the murexide method: Dual wavelength spectrophotometry of
cations under physiological conditions. Anal. Biochem.
85,
V
ers. Anal. Biochem.
95,
165-179.
Ohnishi, S. T. (1979). A method of estimating the amount of calcium bound to the metallochromic
indicator arsenazo III. Biochim. Biophys. Acta
586,
217-230.
Patton, C., Thompson, S., and Epel, D. (2004). Some precautions in using chelators to bu
V
er metals in
427-431.
Pethig, R., Kuhn, M., Payne, R., Adler, E., Chen, T.-H., and Ja
V
e, L. F. (1989). On the dissociation
constants of BAPTA-type calcium bu
V
ers. Cell Calcium
10,
491-498.
Sarkadi, B., Shubert, A., and Gardos, G. (1979). E
V
ect of Ca-EGTA bu
V
ers on active calcium transport
in inside-out red cell membrane vesicles. Experientia
35,
1045-1047.
Scarpa, A., Brinley, F. J., and Dubyak, G. (1978). Antipyralazo III, a middle range Ca
2
þ
metallochro-
mic indicator. Biochemistry
17,
1378-1386.
Schatzmann, H. J. (1973). Dependence on calcium concentrations and stoichiometry of the calcium
pump in human red cells. J. Physiol.
235,
551-569.
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.
Schoenmakers, T. J., Visser, G. J., Flik, G., and Theuvenet, A. P. (1992). CHELATOR: an improved
method for computing metal ion concentrations in physiological solutions. Biotechniques 870-874,
876-879.
Smith, G. L., and Miller, D. J. (1985). Potentiometric measurements of stoichiometric and apparent
a
biological solutions. Cell Calcium
35,
nity constants of EGTA for protons and divalent ions including calcium. Biochim. Biophys. Acta
839,
Y
287-299.
