1Yuasa H J, Suzuki T, Yazawa M. Structural organization oflower marine nonvertebrate calmodulin genes[J]. Gene, 2001,279:205.
2Gifford JL, Walsh MP, Vogel HJ. Structures and metalion-binding properties of the Ca^2+-binding helix-loop-helix EF hand motifs[J]. Biochem,2007,405(2) :199.
3Sanhueza M, McIntyre CC, Lisman J E. Reversal of synaptic memory by Ca^2+/calmodulin-dependent protein kinase I inhibitor[J]. Neurosci,2007,27(19) :5190.
4Zayzafoon M. Calcium/calmodulin signaling controls osteoblast growth and differentiation[J]. Cell Biochem, 2006, 97(1) :56.
5Bartolome F, de Las Cuevas N, Munoz U, et al. Impaired apoptosis in lymphoblasts from Alzheimer's disease pa tients:cross talk of Ca^2+/calmodulin and ERK1/2 signaling pathways[J]. Cell Mol Life Sci,2007,64(11) :1437.
6Gomez TM, Spitzer NC. Regulation of growth cone behavior by calcium: new dynamics to earlier perspectives [J]. Neurobiology,2000,44: 174.
7Zheng JQ. Turning of nerve growth cones induced by localized increases in intracellular calcium ions[J]. Nature, 2000,403:89.
8Tang J,l.in Y,Zhang Z,et al. Identification of common binding sites for calmodulin and inositol 1,4,5 trisphos phate receptors on the carboxyl termini of TRP channels [J]. Biol Chem,2001,276.21303.
9Vaca L,Sampieri A. Calmodulin modulates the delay period between release of calcium from internal stores and ac tivation of calcium influx via endogenous TRP1 channels [J]. Biol Chem,2002,277:42178.
10Wang GX,Poo M. Requirement of TRPC channels in netrin-1-induced chemotropic turning of nerve growth cones [J]. Nature, 2005,434 : 898.
