Biology Reference
In-Depth Information
Bakayan, A., Picazo, F., Domingo, B., and Llopis, J. (2009). Fluorescent protein-aequorin fusions as
improved bioluminescent Ca
2+
reporters. Acta Physiologica
195
(Suppl. 667), P121.
Baker, P. F., Hodgkin, A. L., and Ridgway, E. B. (1971). Depolarization and calcium entry in squid
giant axons. J. Physiol.
218,
709-755.
Basset, O., Boittin, F. X., Dorchies, O. M., Chatton, J. Y., van Breemen, C., and Ruegg, U. T. (2004).
Involvement of inositol 1, 4, 5-trisphosphate in nicotinic calcium responses in dystrophic myotubes
assessed by near-plasma membrane calcium measurement. J. Biol. Chem.
279,
47092-47100.
Batiza, A. F., Schulz, T., and Masson, P. H. (1996). Yeast respond to hypotonic shock with a calcium
pulse. J. Biol. Chem.
271,
23357-23362.
Baubet, V., Le Mouellic, H., Campbell, A. K., Lucas-Meunier, E., Fossier, P., and Brˆ let, P. (2000).
Chimeric green fluorescent protein-aequorin as bioluminescent Ca
2
þ
reporters at the single-cell level.
Proc. Natl. Acad. Sci. USA
97,
7260-7265.
Behne, M. J., Tu, C. L., Aronchik, I., Epstein, E., Bench, G., Bikle, D. D., Pozzan, T., and
Mauro, T. M. (2003). Human keratinocyte ATP2C1 localizes to the Golgi and controls Golgi.
Ca
2
þ
stores. J. Invest. Dermatol.
121,
688-694.
Benˇina, M., Legiˇa, M., and Read, N. D. (2005). Cross-talk between cAMP and calcium signalling in
Aspergillus niger. Mol. Microbiol.
56,
268-281.
Berridge, M. J. (2009). Inositol trisphosphate and calcium signalling mechanisms. Biochim. Biophys.
Acta
1793,
933-940.
Betzig, E., Patterson, G. H., Sougrat, R., Lindwasser, O. W., Olenych, S., Bonifacino, J. S.,
Davidson, M. W., Lippencott-Schwartz, J., and Hess, H. F. (2006). Imaging intracellular fluorescent
proteins at nanometer resolution. Science
313,
1642-1645.
Biagioli, M., Pinton, P., Scudiero, R., Ragghianti, M., Bucci, S., and Rizzuto, R. (2005). Aequorin
chimeras as valuable tool
in the measurement of Ca
2
þ
concentration during cadmium injury.
389-398.
Billker, O., Dechamps, S., Tewari, R., Wenig, G., Franke-Fayard, B., and Brinkmann, V. (2004).
Calcium and calcium-dependent protein kinase regulate gamete formation and mosquito transmis-
sion in a malaria parasite. Cell
117,
Toxicology
208,
503-514.
Blume, B., N¨ rnberger, T., Nass, N., and Scheel, D. (2000). Receptor-mediated increase in cytoplasmic
free calcium required for activation of pathogen defense in parsley. Plant Cell
12,
1425-1440.
Bovolenta, S., Foti, M., Lohmer, S., and Corazza, S. (2007). Development of a Ca
2
þ
-activated photo-
protein, Photina
Ò
, and its application to high-throughput screening. J. Biomol. Screen.
12,
694-704.
Brandenburger, Y., Kennedy, E. D., Python, C. P., Rossier, M. F., Vallotton, M. B., Wollheim, C. B.,
and Capponi, A. M. (1996). Possible role for mitochondrial calcium in angiotensin II- and potassium-
stimulated steroidogenesis in bovine adrenal glomerulosa cells. Endocrinology
137,
5544-5551.
Brandenburger, Y., Arrighi, J. F., Rossier, M. F., Maturana, A., Vallotton, M. B., and Capponi, A. M.
(1999). Measurement of perimitochondrial Ca
2
þ
concentration in bovine adrenal glomerulosa cells
with aequorin targeted to the outer mitochondrial membrane. Biochem. J.
341,
745-753.
Brini, M., Murgia, M., Pasti, L., Picard, D., Pozzan, T., and Rizzuto, R. (1993). Nuclear Ca
2
þ
concentration measured with specifically targeted recombinant aequorin. EMBO J.
12,
4813-4819.
Brini, M., Marsault, R., Bastianutto, C., Pozzan, T., and Rizzuto, R. (1994). Nuclear targeting of
aequorin: A new approach for measuring nuclear Ca
2
þ
concentration in intact cells. Cell Calcium
16,
259-268.
Brini, M., De Giorgi, F., Murgia, M., Marsault, R., Massimino, M. L., Cantini, M., Rizzuto, R., and
Pozzan, T. (1997). Subcellular analysis of Ca
2
þ
homeostasis in primary cultures of skeletal muscle
myotubes. Mol. Biol. Cell
8,
129-143.
Brini, M., Manni, S., Pierobon, N., Du, G. G., Sharma, P., MacLennan, D. H., and Carafoli, E. (2005).
Ca
2
þ
signaling in HEK-293 and skeletal muscle cells expressing recombinant ryanodine receptors
harboring malignant hyperthermia and central core disease mutations.
J. Biol. Chem.
280,
15380-15389.
Bronson, S. K., Plaehn, E. G., Kluckman, K. D., Hagaman, J. R., Maeda, N., and Smithies, O. (1996).
Single-copy transgenic mice with chosen-site integration. Proc. Natl. Acad. Sci. USA
93,
9067-9072.
