Automated Genome-Wide Visual Profiling of Cellular Proteins Involved in HIV Infection
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Yong-Jun Kwon | Auguste Genovesio | Hi Chul Kim | Nam Youl Kim | Seo Yeon Choi | A. Genovesio | O. Schwartz | F. Mammano | U. Nehrbass | N. Emans | Ulf Nehrbass | Olivier Schwartz | M. Windisch | Virginie Perrin | Marc P. Windisch | Fabrizio Mammano | V. Perrin | N. Kim | Neil Emans | Nicoletta Casartelli | Annette S. Boese | Sungyong Jung | Yong-Jun Kwon | Nicoletta Casartelli | H. Kim | Sungyong Jung | A. Boese | N. Casartelli
[1] D. Sabatini,et al. Microarrays of cells expressing defined cDNAs , 2001, Nature.
[2] S. Goff,et al. Knockdown Screens to Knockout HIV-1 , 2008, Cell.
[3] Luigi Naldini,et al. Multiply attenuated lentiviral vector achieves efficient gene delivery in vivo , 1997, Nature Biotechnology.
[4] Anne E Carpenter,et al. Cell microarrays and RNA interference chip away at gene function , 2005, Nature Genetics.
[5] Aideen Long,et al. Statistical methods for analysis of high-throughput RNA interference screens , 2009, Nature Methods.
[6] H. Erfle,et al. An RNAi screening platform to identify secretion machinery in mammalian cells. , 2007, Journal of biotechnology.
[7] J. Church. Identification of Host Proteins Required for HIV Infection Through a Functional Genomic Screen , 2008, Pediatrics.
[8] D. Dorsky,et al. Detection of HIV-1 infection with a green fluorescent protein reporter system. , 1996, Journal of acquired immune deficiency syndromes and human retrovirology : official publication of the International Retrovirology Association.
[9] C. Bakal,et al. Quantitative Morphological Signatures Define Local Signaling Networks Regulating Cell Morphology , 2007, Science.
[10] Amy S. Espeseth,et al. Genome-scale RNAi screen for host factors required for HIV replication. , 2008, Cell host & microbe.
[11] T. R. Reddy,et al. Cellular proteins and HIV-1 Rev function. , 2009, Current HIV research.
[12] Kuan-Teh Jeang,et al. A Genome-wide Short Hairpin RNA Screening of Jurkat T-cells for Human Proteins Contributing to Productive HIV-1 Replication* , 2009, The Journal of Biological Chemistry.
[13] H. Erfle,et al. Reverse transfection on cell arrays for high content screening microscopy , 2007, Nature Protocols.
[14] David M Sabatini,et al. Cell-biological applications of transfected-cell microarrays. , 2002, Trends in cell biology.
[15] Anne E Carpenter,et al. Microarrays of lentiviruses for gene function screens in immortalized and primary cells , 2006, Nature Methods.
[16] H. Erfle,et al. Arrays of transfected mammalian cells for high content screening microscopy. , 2005, Methods in enzymology.
[17] Holger Erfle,et al. siRNA cell arrays for high-content screening microscopy. , 2004, BioTechniques.
[18] C. Ponting,et al. Mutations in genes encoding ribonuclease H2 subunits cause Aicardi-Goutières syndrome and mimic congenital viral brain infection , 2006, Nature Genetics.
[19] F. Bushman,et al. Role of the non‐homologous DNA end joining pathway in the early steps of retroviral infection , 2001, The EMBO journal.
[20] J. Caldwell,et al. “UnPAKing” Human Immunodeficiency Virus (HIV) Replication: Using Small Interfering RNA Screening To Identify Novel Cofactors and Elucidate the Role of Group I PAKs in HIV Infection , 2006, Journal of Virology.
[21] Yingyao Zhou,et al. Identification of novel therapeutic targets for HIV infection through functional genomic cDNA screening. , 2007, Virology.
[22] Amy S. Espeseth,et al. Host Cell Factors in HIV Replication: Meta-Analysis of Genome-Wide Studies , 2009, PLoS pathogens.
[23] R. König,et al. Global Analysis of Host-Pathogen Interactions that Regulate Early-Stage HIV-1 Replication , 2008, Cell.