Biology Reference
In-Depth Information
Button, D., and Brownstein, M. (1993). Aequorin-expressing mammalian cell lines used to report Ca
2
þ
mobilization. Cell Calcium
14,
663-671.
Cessna, S. G., Sears, V. E., Dickman, M. B., and Low, P. S. (2000). Oxalic acid, a pathogenicity factor
for Sclerotinia sclerotiorum, suppresses the oxidative burst of the host plant. Plant Cell
12,
2191-2199.
Challet, C., Maechler, P., Wollheim, C. B., and Ruegg, U. T. (2001). Mitochondrial calcium oscillations
in C2C12 myotubes. J. Biol. Chem.
276,
3791-3797.
Chamero, P., Villalobos, C., Alonso, M. T., and Garc´a-Sancho, J. (2002). Dampening of cytosolic Ca
2
þ
oscillations on propagation to nucleus. J. Biol. Chem.
277,
50226-50229.
Chamero, P., Manjarres, I. M., Garc´a-Verdugo, J. M., Villalobos, C., Alonso, M. T., and Garc´a-
Sancho, J. (2008). Nuclear calcium signaling by inositol trisphosphate in GH
3
pituitary cells. Cell
Calcium
43,
205-214.
Chan, C., Harland, M. L., Webb, S. E., Chen, J., Miller, A. L., and Barritt, G. J. (2004). Evaluation,
using targeted aequorins, of the roles of the endoplasmic reticulum and its (Ca
2
þ
þ
Mg
2
þ
)ATP-ases in
the activation of store-operated Ca
2
þ
channels in liver cells. Cell Calcium
35,
317-331.
Chapuy-Regaud, S., Jones, H. E., Campbell, A. K., and Trombe, M. C. (2001). Validation of the use of
aequorin for cytoplasmic free calcium determination by chemiluminescence in Streptococcus pneu-
moniae. J. Soc. Biol.
195,
271-276.
Cheung, C. Y. (2009). Exploring the role of Ca
2
þ
signaling in slow muscle development using intact
zebrafish embryos as an animal model (PhD thesis, HKUST, 2009).
Cheung, C. Y., Webb, S. E., Meng, A., and Miller, A. L. (2006). Transient expression of apoaequorin in
zebrafish embryos: Extending the ability to image calcium transients during later stages of develop-
ment. Int. J. Dev. Biol.
50,
561-569.
Constantini, F., and Lacy, E. (1981). Introduction of a rabbit b-globin gene into the mouse germ line.
Nature
294,
92-94.
Cr
´
ton, R., and Ja
V
e, L. F. (2001). Chemiluminescence microscopy as a tool in biomedical research.
Biotechniques
31,
1098-1105.
Cubitt, A. B., Firtel, R. A., Fischer, G., Ja
V
e, L. F., and Miller, A. L. (1995). Patterns of free calcium in
multicellular stages of Dictyostelium expressing jellyfish apoaequorin. Development
121,
2291-2301.
Curie, T., Rogers, K. L., Colasante, C., and Brˆ let, P. (2007). Red-shifted aequorin-based biolumins-
cent reporters for in vivo imaging of Ca
2+
signaling. Mol. Imag.
6,
30-42.
Daguzan, C., Nicolas, M. T., Mazars, C., Leclerc, C., and Moreau, M. (1995). Expression of membrane
targeted aequorin in Xenopus laevis oocytes. Int. J. Dev. Biol.
39,
653-657.
Deng, L., Sugiura, R., Takeuchi, M., Suzuki, M., Ebina, H., Takami, T., Koike, A., Iba, S., and
Kuno, T. (2006). Real-time monitoring of calcineurin activity in living cells: Evidence for two distinct
Ca
2
þ
-dependent pathways in fission yeast. Mol. Biol. Cell
17,
4790-4800.
D´az-Prieto, N., Herrera-Peco, I., de Diego, A. M. G., Ruiz-Nu˜o, A., Gallego-Sandin, S.,
L´pez, M. G., Garc´a, A. G., and Cano-Abad, M. F. (2008). Bcl2 mitigates Ca
2
þ
entry and
mitochondrial Ca
2
þ
overload through downregulation of L-type Ca
2
þ
channels in PC12 cells. Cell
Calcium
44,
339-352.
Dodd, A. N., Jakobsen, M. K., Baker, A. J., Telzerow, A., Hou, S. W., Laplaze, L., Barrot, L.,
Poethig, R. S., Haselo
V
, J., and Webb, A. A. R. (2006). Time of day modulates low-temperature
Ca
2
þ
signals in Arabidopsis. Plant J.
48,
962-973.
Evans, N. H., McAinsh, M. R., Hetherington, A. M., and Knight, M. R. (2005). ROS perception in
Arabidopsis thaliana: The ozone-induced calcium response. Plant J.
41,
615-626.
Fahrenkrug, S. C., Clark, K. J., Dahlquist, M. O., and Hackett, P. B., Jr. (1999). Dicistronic gene
expression in developing zebrafish. Mar. Biotechnol.
1,
552-561.
Falciatore, A., d'Alcal`, M. R., Croot, P., and Bowler, C. (2000). Perception of environmental signals
by a marine diatom. Science
288,
2363-2366.
Fisahn, J., Herde, O., Willmitzer, L., and Pe
˜
a-Cort
´
s, H. (2004). Analysis of the transient increase in
cytosolic Ca
2
þ
during the action potential of higher plants with high temporal resolution:
