Uncovering a Macrophage Transcriptional Program by Integrating Evidence from Motif Scanning and Expression Dynamics Stephen A. Ramsey*, Sandy L. Klemm, Daniel E. Zak, Kathleen A. Kennedy, Vesteinn Thorsson, Bin Li, Mark - Li Bin - Document - PDFSEARCH.IO - Document Search Engine

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	Uncovering a Macrophage Transcriptional Program by Integrating Evidence from Motif Scanning and Expression Dynamics Stephen A. Ramsey, Sandy L. Klemm, Daniel E. Zak, Kathleen A. Kennedy, Vesteinn Thorsson, Bin Li, Mark Add to Reading List Open Document File Size: 803,93 KB Share Result on Facebook City Seattle / / Company Pearson / Creative Commons / Ramsey SA / / Currency CAD / / / Facility Ilya Shmulevich Institute / National Institute of Allergy / Massachusetts Institute of Technology / Harvard University / / IndustryTerm mammalian systems / signal processing technique / transcriptional networks / transcriptional regulatory networks / inducible transcriptional regulatory network / mammalian networks / posttranslational processing/translocation / transcriptional regulatory interaction networks / biochemical interaction networks / post-transcriptional processing / macrophage network / inference tool / mammalian transcriptional network / transcription start site / transcription factor binding site / dynamic transcriptional networks / preliminary dynamic transcriptional network / transcriptional network / / MarketIndex set 80 / / MedicalCondition viral infection / infection / / Organization National Institute of Allergy and Infectious Diseases / National Institute of Health / Harvard University / Massachusetts Institute of Technology / TF association / Ilya Shmulevich* Institute for Systems Biology / / Person Elizabeth S. Gold / Daniel E. Zak / Carrie D. Johnson / Garnet Navarro / Natalya Yudkovsky / Kathleen A. Kennedy / Carrie M. Rosenberger / Mark Gilchrist / Stephen A. Ramsey / Alan Aderem / Vladimir Litvak / Gene Ontology / Jared C. Roach / Sandy L. Klemm / / Position Author / original author / Editor / using Fisher / rt / Fisher / representative / / ProvinceOrState Massachusetts / Washington / / PublishedMedium PLoS Computational Biology / the PLoS Computational Biology / / Technology unsupervised algorithm / DNA Chip / gene expression / ChIP-on-chip / using ChIP-on-chip / clustered using an unsupervised algorithm / / URL www.ploscompbiol.org / / SocialTag Transcription factors Molecular genetics DNA RNA interference Cell cycle E2F Regulation of gene expression Ridge Biology Gene expression