@book{Alberts_book,
author = {B.~Alberts and others},
edition = {4th},
publisher = {Garland Science},
title = {Molecular biology of the cell},
year = {2002}
}
@article{pmid12140318,
author = {Vasiliy M.~Petrov and Jim D.~Karam},
journal = {Nucleic Acids Res},
month = {Sep},
number = {15},
pages = {3341-3348},
title = {{RNA determinants of translational operator recognition by the DNA polymerases of bacteriophages T4 and RB69}},
volume = {30},
year = {2002}
}
@article{pmid12087166,
author = {Mark P.~McPike and Julie M.~Sullivan and Jerry Goodisman and James C.~Dabrowiak},
journal = {Nucleic Acids Res},
month = {Aug},
number = {13},
pages = {2825-2831},
title = {{Footprinting, circular dichroism and UV melting studies on neomycin B binding to the packaging region of human immunodeficiency virus type-1 RNA}},
volume = {30},
year = {2002}
}
@article{pmid11494862,
author = {M.P.~McPike and J.~Goodisman and J.C.~Dabrowiak},
journal = {Methods Enzymol},
pages = {431-449},
title = {{Drug-RNA footprinting}},
volume = {340},
year = {2001}
}
@article{pmid12464318,
author = {Michael Brenowitz and Mark R.~Chance and Gauri Dhavan and Keiji Takamoto},
journal = {Curr Opin Struct Biol},
month = {Nov},
number = {5},
pages = {648-653},
title = {{Probing the structural dynamics of nucleic acids by quantitative time-resolved and equilibrium hydroxyl radical ``footprinting''}},
volume = {12},
year = {2002}
}
@url{ProtocolOnline,
note = {\url{http://www.protocol-online.org}},
title = {Protocol-{O}nline web site}
}
@inbook{clarke:humana,
author = {Paul A.~Clarke},
chapter = {RNA Footprinting and Modification Interference Analysis},
editor = {Susan R.~ Haynes},
month = {Aug},
pages = {73--91},
publisher = {Humana Press},
series = {Methods in Molecular Biology},
title = {RNA-Protein Interaction Protocols},
volume = {118},
year = {1999}
}
@url{licor,
note = {\url{http://www.licor.com/bio/}},
title = {{LI-COR Biotechnology} web site}
}
@article{pmid12000849,
author = {Sung-Hae Lee Kang and Karen Vieira and Jorg Bungert},
journal = {Nucleic Acids Res},
month = {Jun},
number = {10},
pages = {e44},
title = {{Combining chromatin immunoprecipitation and {DNA} footprinting: a novel method to analyze protein-{DNA} interactions in vivo}},
volume = {30},
year = {2002}
}
@article{Howard2003,
author = {Perry L.~Howard and Marie C.~Chia and Suzanne Del Rizzo and Fei-Fei Liu and Tony Pawson},
title = {Redirecting tyrosine kinase signaling to an apoptotic caspase pathway through chimeric adaptor proteins},
journal = {PNAS},
volume = {100},
number = {20},
pages = {11267--11272},
year = {2003},
abstract = {Signal transduction pathways are typically controlled by protein-protein interactions, which are mediated by specific modular domains. One hypothetical use of such interaction domains is to generate new signaling pathways and networks during eukaryotic evolution, through the joining of distinct binding modules in novel combinations. In this manner, new polypeptides may be formed that make innovative connections among preexisting proteins. Adaptor proteins are specialized signaling molecules composed exclusively of interaction domains, that frequently link activated cell surface receptors to their intracellular targets. Receptor tyrosine kinases (RTKs) recruit adaptors, such as Grb2 and ShcA, that activate signaling pathways involved in growth and survival, whereas death receptors bind adaptors, such as Fadd, that promote apoptosis. To test the ability of interaction domains to create new signaling pathways, we have fused the phosphotyrosine recognition domains of Grb2 (Scr homology 2 domain) or ShcA (phosphotyrosine-binding domain) to the death effector domain of Fadd. We find that these chimeric adaptors can reroute mitogenic or transforming RTK signals to induce caspase activation and cell death. These hybrid adaptors can be used to selectively kill oncogenic cells in which RTK activity is deregulated. },
url = {http://www.pnas.org/cgi/content/abstract/100/20/11267},
http = {http://www.pnas.org/cgi/reprint/100/20/11267.pdf},
doi = {http://www.pnas.org/cgi/doi/10.1073/pnas.1934711100}
}
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