[1]
Akai J, Storey
K. 2003. Brain or brawn: how FGF signaling gives us both.. Cell,
115(5):510-512. 文件编号: 08034.
[2]
Baxter RC. 2000. Insulin-like growth factor (IGF)-binding
proteins: interactions with IGFs and
intrinsic bioactivities. Am J Physiol
Endocrinol Metab, 278: f967-f976.
文件编号: 08038.
[3]
Bhalla US.
2004. Models of cell signaling pathways. Current Opinion in Genetics
& Development, 14:375-381. 文件编号: 08018.
[4]
Blystone SD. 2004. Integrating an integrin: a direct
route to actin. Biochimica
et Biophysica Acta, . 文件编号: 08019.
[5]
Brownlee C. 2003. Plant Signalling: Calcium First and Second. Current Biology, 13:R923-R924.
文件编号: 08024.
[6]
Carragher NO, Frame MC. 2004. Focal adhesion and actin
dynamics: a place where kinases and
proteases meet to promote invasion. Trends in Cell Biology, 14:241-249.
文件编号: 08020.
[7]
Davies SA. 2006. Signalling via cGMP: lessons from
Drosophila. Cellular Signalling, 18:409-421.
文件编号: 08006.
[8]
de Mendoza M,
Dixon R. 2005. Getting the signals across:
networking inside and out. Current Opinion in Microbiology, 8:113-115.
文件编号: 08010.
[9]
Dikic I, Giordanoy S. 2003. Negative receptor
signalling. Current Opinion in Cell Biology, 15:128–135. 文件编号: 08041.
[10]
Eve-Ellen Govek
EE, Newey SE, Van Aelst L. 2005. The role of the Rho GTPases in
neuronal development. Genes & Dev, 19: 1-49. 文件编号: 08035.
[11]
Grebe TW, Stock J. 1998. Bacterial chemotaxis:
The five sensors of a bacterium. Current Biology, 8:R154–R157.
文件编号: 08026.
[12]
Haglund K, Di Fiore PP, Dikic
I. 2003. Distinct monoubiquitin
signals in receptor endocytosis. Trends
in Biochemical Sciences, 28:598-603. 文件编号: 08027.
[13]
Huganir RL, Zipursky SL. 2004. Signalling mechanisms. Current Opinion in Neurobiology, 14:267-271.
文件编号: 08004.
[14]
Kléber M, Sommer L. 2004. Wnt
signaling and the regulation of stem cell function. Current Opinion
in Cell Biology, 16:681-687. 文件编号: 08016.
[15]
Liu G, Bafico
A, Harris VK, et al. 2003. A novel mechanism
for Wnt activation of canonical signaling
through the LRP6 receptor.
Mol Cell Biol, 23(16):5825-35. 文件编号: 08031.
[16]
Lorenzo O, Solano R. 2005. Molecular players
regulating the jasmonate signalling
network. Curr Opin
Plant Biol, 8:532-40. 文件编号: 08009.
[17]
Martin DE, Hall MN. 2005. The expanding TOR signaling
network. Current Opinion in Cell Biology, 17:158-166. 文件编号: 08012.
[18]
Mason JM, Morrison DJ, Basson MA, et al. 2006. Sprouty
proteins: multifaceted negative-feedback regulators of receptor
tyrosine kinase signaling. Trends in Cell Biology, 16:45-54. 文件编号: 08008.
[19]
Morin PJ. 1999.
β-catenin signaling and cancer. BioEssays, 21:1021–1030.
文件编号: 08033.
[20]
Okkenhaug K,
Vanhaesebroeck B. 2001. New responsibilities for the PI3K regulatory
subunit p85 alpha. Sci STKE, 65:PE1. 文件编号: 08029.
[21]
O'Neill LA. 2006.
How Toll-like receptors signal: what we know and what we don’t
know. Current Opinion in Immunology, 18:3-9. 文件编号: 08001.
[22]
Parkinson JS, Ames P, Studdert CA.
2005. Collaborative signaling by bacterial chemoreceptors . Current
Opinion in Microbiology, 8:116-121. 文件编号: 08011.
[23]
Parry G, Estelle M. 2006. Auxin receptors: a new role for F-box proteins. Current Opinion
in Cell Biology, 18:152–156. 文件编号: 08039.
[24]
Paukku K, Silvennoinen O. 2004. STATs as critical mediators of signal transduction and transcription:
lessons learned from STAT5. Cytokine & Growth Factor Reviews,
15:435-455. 文件编号: 08015.
[25]
Quatela SE, Philips MR. 2006. Ras signaling on the
Golgi. Current Opinion in Cell Biology,
18:162–167. 文件编号: 08040.
[26]
Ravid T, Hochstrasser M. 2004. NF-κB signaling: Flipping the Switch with Polyubiquitin
Chains. Current Biology, 14:R898-R900. 文件编号: 08017.
[27]
Reed RR. 2004.
After the holy grail: establishing a molecular basis for Mammalian
olfaction. Cell, 116(2):329-36. 文件编号: 08032.
[28]
Ridley AJ. 2001. Rho GTPases and cell migration.
J. Cell Sci, 114: 2713-2722. 文件编号: 08037.
[29]
Rosário M, Birchmeier
W. 2003. How to make tubes: signaling
by the Met receptor tyrosine kinase . Trends in Cell Biology, 13:328-335. 文件编号: 08005.
[30]
Sachs K, Perez
O, Pe'er D, et al. 2005. Causal protein-signaling
networks derived from multiparameter
single-cell data.
Science, 308:523-529. 文件编号: 08028.
[31]
Schlaepfer DD, Mitra SK. 2004. Multiple connections
link FAK to cell motility and invasion. Current Opinion in Genetics
& Development, 14:92-101. 文件编号: 08022.
[32]
Sechi
AS,
Wehland J. 2004. Interplay between TCR signalling
and actin cytoskeleton dynamics .
Trends in Immunology, 25:257-265. 文件编号: 08021.
[33]
Shen K, Hines AC, Schwarzer D, et al. 2005. Protein
kinase structure and function analysis
with chemical tools. Biochimica et Biophysica
Acta, 1754:65-78. 文件编号: 08007.
[34]
Shyy JYJ, Chien
S. 2002. Role of Integrins in Endothelial Mechanosensing of Shear
Stress. Circ. Res, 91: 769-775. 文件编号: 08036.
[35]
Sőti C, Pál C, Papp
B, et al. 2005. Molecular chaperones as regulatory elements of
cellular networks. Current Opinion in Cell Biology, 17:210-215.
文件编号: 08013.
[36]
Symons A, Beinke S,
Ley SC. 2006. MAP kinase
kinase kinases
and innate immunity. Trends in Immunology, 27:40-48. 文件编号: 08002.
[37]
Tamai K, Zeng X, Liu C, et al. 2004. A mechanism
for Wnt coreceptor
activation. Mol Cell, 13(1):149-56. 文件编号: 08030.
[38]
Trevino Santa
Cruz MB, Genoud D, Métraux JP, et al. 2005.
Update in bioinformatics: Toward a digital database of plant cell
signalling networks: advantages, limitations
and predictive aspects of the digital model . Phytochemistry, 66:267-276.
文件编号: 08014.
[39]
Wan M, Cao X.
2005. BMP signaling in skeletal development. Biochemical and Biophysical
Research Communications, 328:651-657. 文件编号: 08003.
[40]
Yang SH, Sharrocks
AD, Whitmarsh AJ. 2003. Transcriptional
regulation by the MAP kinase signaling
cascades. Gene, 320:3-21. 文件编号: 08025.