Principles of cell signaling - UT Southwestern
Principles of cell signaling - UT Southwestern
Principles of cell signaling - UT Southwestern
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
39057_ch14_<strong>cell</strong>bio.qxd 8/28/06 5:11 PM Page 642<br />
14.29 The Wnt pathway regulates <strong>cell</strong> fate during<br />
development and other processes in<br />
the adult<br />
Review<br />
Logan, C. Y. and Nusse, R., 2004. The WNT<br />
<strong>signaling</strong> pathway in development and<br />
disease. Annu. Rev. Cell. Dev. Biol. v. 20, p.<br />
781–810.<br />
Tolwinski, N. S., Wieschaus, E., 2004.<br />
Rethinking WNT <strong>signaling</strong>. Trends Genet.<br />
v. 20 p. 177–81.<br />
14.30 Diverse <strong>signaling</strong> mechanisms are regulated<br />
by protein tyrosine kinases<br />
Review<br />
Birge, R. B., Knudsen, B. S., Besser, D., and<br />
Hanafusa, H., 1996. SH2 and SH3-containing<br />
adaptor proteins: redundant or<br />
independent mediators <strong>of</strong> intra<strong>cell</strong>ular<br />
signal transduction. Genes Cells v. 1 p.<br />
595–613.<br />
Blume-Jensen, P. and Hunter, T., 2001.<br />
Oncogenic kinase signalling. Nature v.<br />
411 p. 355–365.<br />
Cohen, P., 2002. Protein kinases—the major<br />
drug targets <strong>of</strong> the twenty-first century?<br />
Nat. Rev. Drug Discov. v. 1 p. 309–315.<br />
Pawson, T. and Nash, P., 2003. Assembly <strong>of</strong><br />
<strong>cell</strong> regulatory systems through protein<br />
interaction domains. Science v. 300 p.<br />
445–452.<br />
Tallquist, M. and Kazlauskas, A., 2004. PDGF<br />
<strong>signaling</strong> in <strong>cell</strong>s and mice. Cytokine<br />
Growth Factor Rev. v. 15 p. 205–213.<br />
Taniguchi, C. M., Emanuelli, B., and Kahn, C.<br />
R., 2006. Critical nodes in signalling<br />
pathways: insights into insulin action.<br />
Nat. Rev. Mol. Cell Biol. v. 7, p. 85–96.<br />
14.31 Src family protein kinases cooperate with<br />
receptor protein tyrosine kinases<br />
Review<br />
Boggon, T. J. and Eck, M. J., 2004. Structure<br />
and regulation <strong>of</strong> Src family kinases.<br />
Oncogene v. 23 p. 7918–7927.<br />
Frame, M. C., 2004. Newest findings on the<br />
oldest oncogene; how activated src does<br />
it. J. Cell Sci. v. 117 p. 989–998.<br />
Research<br />
Cowan-Jacob, S. W., Frendrich, G., Manley, P.<br />
W., Jahnke, W., Fabbro, D.,<br />
Liebetanz, J., Meyer, T. 2005. The<br />
crystal structure <strong>of</strong> a c-Src complex in<br />
an active conformation suggests possible<br />
steps in c-Src activation Structure<br />
v. 13 p. 861–871.<br />
Xu, W., Harrison, S. C., and Eck, M. J., 1997.<br />
Three-dimensional structure <strong>of</strong> the tyro-<br />
sine kinase c-Src. Nature v. 385 p.<br />
595–602.<br />
14.32 MAPKs are central to many <strong>signaling</strong><br />
pathways<br />
Review<br />
Chen, Z., Gibson, T. B., Robinson, F.,<br />
Silvestro, L., Pearson, G., Xu, B., Wright,<br />
A., Vanderbilt, C., and Cobb, M. H., 2001.<br />
MAP kinases. Chem. Rev. v. 101 p.<br />
2449–2476.<br />
Lewis, T. S., Shapiro, P. S., and Ahn, N. G.,<br />
1998. Signal transduction through MAP<br />
kinase cascades. Adv. Cancer Res. v. 74 p.<br />
49–139.<br />
Morrison, D. K. and Davis, R. J., 2003.<br />
Regulation <strong>of</strong> MAP kinase <strong>signaling</strong> modules<br />
by scaffold proteins in mammals.<br />
Annu. Rev. Cell Dev. Biol. v. 19 p. 91–118.<br />
Sharrocks, A. D., Yang, S. H., and Galanis, A.,<br />
2000. Docking domains and substratespecificity<br />
determination for MAP kinases.<br />
Trends Biochem. Sci. v. 25 p.<br />
448–453.<br />
Research<br />
Anderson, N. G., Maller, J. L., Tonks, N. K.,<br />
and Sturgill, T. W., 1990. Requirement<br />
for integration <strong>of</strong> signals from two distinct<br />
phosphorylation pathways for activation<br />
<strong>of</strong> MAP kinase. Nature v. 343 p.<br />
651–653.<br />
14.33 Cyclin-dependent protein kinases control<br />
the <strong>cell</strong> cycle<br />
Review<br />
Dorée, M. and Hunt, T., 2002. From Cdc2 to<br />
Cdk1: when did the <strong>cell</strong> cycle kinase join<br />
its cyclin partner? J. Cell Sci. v. 115 p.<br />
2461–2464.<br />
Hartwell, L. H., 1991. Twenty-five years <strong>of</strong><br />
<strong>cell</strong> cycle genetics. Genetics v. 129 p.<br />
975–980.<br />
Neely, K. E. and Piwnica-Worms, H., 2003.<br />
Cdc25A regulation: to destroy or not to<br />
destroy—is that the only question? Cell<br />
Cycle v. 2 p. 455–457.<br />
Nurse, P., 2000. A long twentieth century <strong>of</strong><br />
the <strong>cell</strong> cycle and beyond. Cell v. 100 p.<br />
71–78.<br />
Research<br />
Pavletich, N. P., 1999. Mechanisms <strong>of</strong> cyclindependent<br />
kinase regulation: structures<br />
<strong>of</strong> Cdks, their cyclin activators, and Cip<br />
and INK4 inhibitors. J. Mol. Biol. v. 287 p.<br />
821–828.<br />
Russo, A. A., Jeffrey, P. D., and Pavletich, N.<br />
P., 1996. Structural basis <strong>of</strong> cyclin-dependent<br />
kinase activation by phosphorylation.<br />
Nat. Struct. Biol. v. 3 p. 696–700.<br />
642 CHAPTER 14 <strong>Principles</strong> <strong>of</strong> <strong>cell</strong> <strong>signaling</strong>