Accès gratuit
Numéro
J. Soc. Biol.
Volume 201, Numéro 4, 2007
Journée Claude Bernard Régulation de l'expression génétique par les ARN
Page(s) 411 - 418
Section Les ARN et l'organisation de l'information génétique
DOI https://doi.org/10.1051/jbio:2007912
Publié en ligne 5 mars 2008
  • Ambros V., The functions of animal microRNAs. Nature, 2004, 431, 350-355 [Google Scholar]
  • Aravin A., Gaidatzis D., Pfeffer S., Lagos-Quintana M., Landgraf P., Iovino N., Morris P., Brownstein M. J., Kuramochi-Miyagawa S., Nakano T., Chien M., Russo J. J., Ju J., Sheridan R., Sander C., Zavolan M. & Tuschl T., A novel class of small RNAs bind to MILI protein in mouse testes. Nature, 2006, 442, 203-207 [Google Scholar]
  • Aravin A. A., Klenov M. S., Vagin V. V., Bantignies F., Cavalli G. & Gvozdev V. A., Dissection of a natural RNA silencing process in the Drosophila melanogaster germ line. Mol Cell Biol, 2004, 24, 6742-6750 [Google Scholar]
  • Aravin A. A., Lagos-Quintana M., Yalcin A., Zavolan M., Marks D., Snyder B., Gaasterland T., Meyer J. & Tuschl T., The small RNA profile during Drosophila melanogaster development. Dev Cell, 2003, 5, 337-3350 [Google Scholar]
  • Aravin A. A., Naumova N. M., Tulin A. V., Vagin V. V., Rozovsky Y. M. & Gvozdev V. A., Double-stranded RNA-mediated silencing of genomic tandem repeats and transposable elements in the D. melanogaster germline. Curr Biol, 2001, 11, 1017-1027 [Google Scholar]
  • Brennecke J., Aravin A. A., Stark A., Dus M., Kellis M., Sachidanandam R. & Hannon G. J., Discrete small RNA-generating loci as master regulators of transposon activity in Drosophila. Cell, 2007, 128, 1089-1103 [Google Scholar]
  • Carmell M. A., Girard A., van de Kant H. J., Bourc'his D., Bestor T. H., de Rooij D. G. & Hannon G. J., MIWI2 is essential for spermatogenesis and repression of transposons in the mouse male germline. Dev Cell, 2007, 12, 503-514 [Google Scholar]
  • Carmell M. A., Xuan Z., Zhang M. Q. & Hannon G. J., The Argonaute family: tentacles that reach into RNAi, developmental control, stem cell maintenance, and tumorigenesis. Genes Dev, 2002, 16, 2733-2742 [Google Scholar]
  • Cox D. N., Chao A., Baker J., Chang L., Qiao D. & Lin H., A novel class of evolutionarily conserved genes defined by piwi are essential for stem cell self-renewal. Genes Dev, 1998, 12, 3715-3727 [Google Scholar]
  • Cox D. N., Chao A. & Lin H., piwi encodes a nucleoplasmic factor whose activity modulates the number and division rate of germline stem cells. Development, 2000, 127, 503-514 [Google Scholar]
  • Cullen B. R., Is RNA interference involved in intrinsic antiviral immunity in mammals? Nat. Immunol., 2006, 7, 563-567 [Google Scholar]
  • Deng W. & Lin H., miwi, a murine homolog of piwi, encodes a cytoplasmic protein essential for spermatogenesis. Dev. Cell., 2002, 2, 819-830 [Google Scholar]
  • Desset S., Meignin C., Dastugue B. & Vaury C., COM, a heterochromatic locus governing the control of independent endogenous retroviruses from Drosophila melanogaster. Genetics, 2003, 164, 501-509 [Google Scholar]
  • Dimitri P. & Bucheton A., I element distribution in mitotic heterochromatin of Drosophila melanogaster reactive strains: identification of a specific site which is correlated with the reactivity levels. Cytogenet. Genome Res., 2005, 110, 160-164 [Google Scholar]
  • Girard A., Sachidanandam R., Hannon G. J. & Carmell M. A., A germline-specific class of small RNAs binds mammalian Piwi proteins. Nature, 2006, 442, 199-202 [Google Scholar]
  • Grivna S. T., Beyret E., Wang Z. & Lin H., A novel class of small RNAs in mouse spermatogenic cells. Genes Dev, 2006, 20, 1709-1714 [Google Scholar]
  • Hannon G. J., RNA interference. Nature, 2002, 418, 244-51 [Google Scholar]
  • Janowski B. A., Huffman K. E., Schwartz J. C., Ram R., Nordsell R., Shames D. S., Minna J. D. & Corey D. R., Involvement of AGO1 and AGO2 in mammalian transcriptional silencing. Nat Struct Mol Biol, 2006, 13, 787-792 [Google Scholar]
  • Kalmykova A. I., Klenov M. S. & Gvozdev V. A., Argonaute protein PIWI controls mobilization of retrotransposons in the Drosophila male germline. Nucleic Acids Res, 2005, 33, 2052-2059 [Google Scholar]
  • Kim D. H., Villeneuve L. M., Morris K. V. & Rossi J. J., Argonaute-1 directs siRNA-mediated transcriptional gene silencing in human cells. Nat Struct Mol Biol, 2006, 13, 793-797 [Google Scholar]
  • Kuramochi-Miyagawa S., Kimura T., Ijiri T. W., Isobe T., Asada N., Fujita Y., Ikawa M., Iwai N., Okabe M., Deng W., Lin H., Matsuda Y. & Nakano T., Mili, a mammalian member of piwi family gene, is essential for spermatogenesis. Development, 2004, 131, 839-849 [Google Scholar]
  • Kuramochi-Miyagawa S., Kimura T., Yomogida K., Kuroiwa A., Tadokoro Y., Fujita Y., Sato M., Matsuda Y. & Nakano T., Two mouse piwi-related genes: miwi and mili. Mech Dev, 2001, 108, 121-133 [Google Scholar]
  • Lau N. C., Seto A. G., Kim J., Kuramochi-Miyagawa S., Nakano T., Bartel D. P. & Kingston R. E., Characterization of the piRNA complex from rat testes. Science, 2006, 313, 363-367 [Google Scholar]
  • Lin H. & Spradling A. C., A novel group of pumilio mutations affects the asymmetric division of germline stem cells in the Drosophila ovary. Development, 1997, 124, 2463-2476 [Google Scholar]
  • Lippman Z. & Martienssen R., The role of RNA interference in heterochromatic silencing. Nature, 2004, 431, 364-370 [Google Scholar]
  • Marin L., Lehmann M., Nouaud D., Izaabel H., Anxolabehere D. & Ronsseray S., P-Element repression in Drosophila melanogaster by a naturally occurring defective telomeric P copy. Genetics, 2000, 155, 1841-1854 [Google Scholar]
  • Mevel-Ninio M., Pelisson A., Kinder J., Campos A. R. & Bucheton A., The flamenco locus controls the gypsy and ZAM retroviruses and is required for Drosophila oogenesis. Genetics, 2007, 175, 1615-1624 [Google Scholar]
  • Morita S., Horii T., Kimura M., Goto Y., Ochiya T. & Hatada I., One Argonaute family member, Eif2c2 (Ago2), is essential for development and appears not to be involved in DNA methylation. Genomics, 2007, 89, 687-696 [Google Scholar]
  • Pal-Bhadra M., Leibovitch B. A., Gandhi S. G., Rao M., Bhadra U., Birchler J. A. & Elgin S. C., Heterochromatic silencing and HP1 localization in Drosophila are dependent on the RNAi machinery. Science, 2004, 303, 669-672 [Google Scholar]
  • Pelisson A., Song S. U., Prud'homme N., Smith P. A., Bucheton A. & Corces V. G., Gypsy transposition correlates with the production of a retroviral envelope-like protein under the tissue-specific control of the Drosophila flamenco gene. Embo J, 1994, 13, 4401-4411 [Google Scholar]
  • Prud'homme N., Gans M., Masson M., Terzian C. & Bucheton A., Flamenco, a gene controlling the gypsy retrovirus of Drosophila melanogaster. Genetics, 1995, 139, 697-711 [Google Scholar]
  • Reiss D., Josse T., Anxolabehere D. & Ronsseray S., aubergine mutations in Drosophila melanogaster impair P cytotype determination by telomeric P elements inserted in heterochromatin. Mol Genet Genomics, 2004, 272, 336-343 [Google Scholar]
  • Robert V., Prud'homme N., Kim A., Bucheton A. & Pelisson A., Characterization of the flamenco region of the Drosophila melanogaster genome. Genetics, 2001, 158, 701-713 [Google Scholar]
  • Roche S. E. & Rio D. C., Trans-silencing by P elements inserted in subtelomeric heterochromatin involves the Drosophila Polycomb group gene, Enhancer of zeste. Genetics, 1998, 149, 1839-1855 [Google Scholar]
  • Ronsseray S., Boivin A. & Anxolabehere D., P-Element repression in Drosophila melanogaster by variegating clusters of P-lacZ-white transgenes. Genetics, 2001, 159, 1631-1642 [Google Scholar]
  • Ronsseray S., Lehmann M. & Anxolabehere D., Copy number and distribution of P and I mobile elements in Drosophila melanogaster populations. Chromosoma, 1989, 98, 207-214 [Google Scholar]
  • Ronsseray S., Marin L., Lehmann M. & Anxolabehere D., Repression of hybrid dysgenesis in Drosophila melanogaster by combinations of telomeric P-element reporters and naturally occurring P elements. Genetics, 1998, 149, 1857-1866 [Google Scholar]
  • Saito K., Nishida K. M., Mori T., Kawamura Y., Miyoshi K., Nagami T., Siomi H. & Siomi M. C., Specific association of Piwi with rasiRNAs derived from retrotransposon and heterochromatic regions in the Drosophila genome. Genes Dev, 2006, 20, 2214-2222 [Google Scholar]
  • Sarot E., Payen-Groschene G., Bucheton A. & Pelisson A., Evidence for a piwi-dependent RNA silencing of the gypsy endogenous retrovirus by the Drosophila melanogaster flamenco gene. Genetics, 2004, 166, 1313-1321 [Google Scholar]
  • Sasaki T., Shiohama A., Minoshima S. & Shimizu N., Identification of eight members of the Argonaute family in the human genome small star, filled. Genomics, 2003, 82, 323-330 [Google Scholar]
  • Savitsky M., Kwon D., Georgiev P., Kalmykova A. & Gvozdev V., Telomere elongation is under the control of the RNAi-based mechanism in the Drosophila germline. Genes Dev, 2006, 20, 345-354 [Google Scholar]
  • Schmidt A., Palumbo G., Bozzetti M. P., Tritto P., Pimpinelli S. & Schafer U., Genetic and molecular characterization of sting, a gene involved in crystal formation and meiotic drive in the male germ line of Drosophila melanogaster. Genetics, 1999, 151, 749-760 [Google Scholar]
  • Schupbach T. & Wieschaus E., Female sterile mutations on the second chromosome of Drosophila melanogaster. II. Mutations blocking oogenesis or altering egg morphology. Genetics, 1991, 129, 1119-1136 [Google Scholar]
  • Song J. J. & Joshua-Tor L., Argonaute and RNA–getting into the groove. Curr. Opin. Struct. Biol., 2006, 16, 5-11 [Google Scholar]
  • Stuart J. R., Haley K. J., Swedzinski D., Lockner S., Kocian P. E., Merriman P. J. & Simmons M. J., Telomeric P elements associated with cytotype regulation of the P transposon family in Drosophila melanogaster. Genetics, 2002, 162, 1641-1654 [Google Scholar]
  • Vagin V. V., Klenov M. S., Kalmykova A. I., Stolyarenko A. D., Kotelnikov R. N. & Gvozdev V. A., The RNA interference proteins and vasa locus are involved in the silencing of retrotransposons in the female germline of Drosophila melanogaster. RNA Biol., 2004, 1, 54-58 [Google Scholar]
  • Vagin V. V., Sigova A., Li C., Seitz H., Gvozdev V. & Zamore P. D., A distinct small RNA pathway silences selfish genetic elements in the germline. Science, 2006, 313, 320-324 [Google Scholar]
  • Watanabe T., Takeda A., Tsukiyama T., Mise K., Okuno T., Sasaki H., Minami N. & Imai H., Identification and characterization of two novel classes of small RNAs in the mouse germline: retrotransposon-derived siRNAs in oocytes and germline small RNAs in testes. Genes Dev, 2006, 20, 1732-1743 [Google Scholar]

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