VOL. 73 (1), 97-124, 2007 RNA INTERFERENTE: DEL DESCUBRIMIENTO A SUS APLICACIONES

 (3) ROMANO, N. and MACINO, G. (1992): Quelling: transient inactivation of gene
        expression in Neurospora crassa by transformation with homologous sequen-
        ces. Mol. Microbiol. 6: 3343-3353.

 (4) GUO, S. and KEMPHUES, K. J. (1995): par-1, a gene required for establishing
        polarity in C. elegans embryos, encodes a putative Ser/Thr kinase that is
        asymmetrically distributed. Cell. 81: 611-620.

 (5) MONTGOMERY, M. K.; XU, S. and FIRE, A. (1998): RNA as a target of double-
        stranded RNA-mediated genetic interference in Caenorhabditis elegans. Proc.
        Natl. Acad. Sci. USA. 95: 15502-15507.

 (6) TUSCHL, T.; ZAMORE, P. D.; LEHMANN, R.; BARTEL, D. P. and SHARP, P. A. (1999):
        Targeted mRNA degradation by double-stranded RNA in vitro. Genes Dev. 13:
        3191-3197.

 (7) COUZIN, J. (2002): Breakthrough of the year. Small RNAs make big splash.
        Science. 298: 2296-2297.

 (8) MELLO, C. C. and CONTE, D. JR. (2004): Revealing the world of RNA interfe-
        rence. Nature. 431: 338-342.

 (9) HAMILTON, A. J. and BAULCOMBE, D. C. (1999): A species of small antisense RNA
        in posttranscriptional gene silencing in plants. Science. 286: 950-952.

(10) ELBASHIR, S. M.; HARBORTH, J.; LENDECKEL, W.; YALCIN, A.; WEBER, K. and TUS-
        CHL, T. (2001): Duplexes of 21-nucleotide RNAs mediate RNA interference in
        cultured mammalian cells. Nature. 411: 494-498.

(11) ZAMORE, P. D.; TUSCHL, T.; SHARP, P. A. and BARTEL, D. P. (2000): RNAi: double-
        stranded RNA directs the ATP-dependent cleavage of mRNA at 21 to 23 nu-
        cleotide intervals. Cell. 101: 25-33.

(12) PARRISH, S.; FLEENOR, J.; XU, S.; MELLO, C. and FIRE, A. (2000): Functional
        anatomy of a dsRNAtrigger: differential requirement for the two trigger
        strands in RNA interference. Mol Cell. 6: 1077-1087.

(13) HAMMOND, S. M.; BERNSTEIN, E.; BEACH, D. and HANNON, G. J. (2000): An RNA-
        directed nuclease mediates post-transcriptional gene silencing in Drosophila
        cells. Nature. 404: 293-296.

(14) BERNSTEIN, E.; CAUDY, A. A.; HAMMOND, S. M. and HANNON, G. J. (2001): Role
        for a bidentate ribonuclease in the initiation step of RNA interference. Na-
        ture. 409: 363-366.

(15) COGONI, C. and MACINO, G. (1999): Gene silencing in Neurospora crassa requi-
        res a protein homologous to RNA-dependent RNA polymerase. Nature. 399:
        166-169.

(16) KIM, D. H.; BEHLKE, M. A.; ROSE, S. D.; CHANG, M. S.; CHOI. S. and ROSSI, J.
        J. (2005): Synthetic dsRNADicer substrates enhance RNAi potency and effi-
        cacy. Nat. Biotechnol. 23: 222-226.

(17) HAMMOND, S. M. (2005): Dicing and slicing: the core machinery of the RNA
        interference pathway. FEBS Lett. 579: 5822-5829.

(18) MEISTER, G. and TUSCHL, T. (2004): Mechanisms of gene silencing by double-
        stranded RNA. Nature. 431: 343-349.

(19) DUCHAINE, T. F.; WOHLSCHLEGEL, J. A.; KENNEDY, S.; BEI, Y., CONTE, D. JR.; PANG,
        K. et al. (2006): Functional proteomics reveals the biochemical niche of C.
        elegans DCR-1 in multiple small-RNA-mediated pathways. Cell. 124: 343-354.

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