Abstract
Small nucleolar RNAs (snoRNAs) are one of the most abundant and well-studied groups of non-coding RNAs. snoRNAs are mostly engaged in processing of rRNA. However, recent data indicate that snoRNAs are also involved in other processes including regulation of alternative splicing, translation and oxidative stress. snoRNAs are also involved in pathogenesis of some hereditary diseases and cancer. Therefore, the range of snoRNAs’ functions is significantly wider than it has been assumed earlier.
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Abbreviations
- IRES:
-
internal ribosome entry site
- miRNAs:
-
microRNAs
- ncRNAs:
-
noncoding RNAs
- RNPs:
-
ribonucleo-proteins
- scaRNAs:
-
small Cajal body-specific RNAs
- sdRNAs:
-
sno-derived RNAs
- snoRNAs:
-
small nucleolar RNAs
- snRNAs:
-
small nuclear RNAs
- vRNAs:
-
vault RNAs
- Ψ:
-
pseudouridine
References
Rinn, J. L., and Chang, H. Y. (2012) Annu. Rev. Biochem., 81, 145–166.
Tuck, A. C., and Tollervey, D. (2011) Trends Genet., 27, 422–432.
Siomi, M. C., Sato, K., Pezic, D., and Aravin, A. A. (2011) Nat. Rev. Mol. Cell. Biol., 12, 246–258.
Wang, Z., Gerstein, M., and Snyder, M. (2009) Nat. Rev. Genet., 10, 57–63.
Metzker, M. L. (2010) Nat. Rev. Genet., 11, 31–46.
Rother, S., and Meister, G. (2011) Biochimie, 93, 1905–1915.
Kawaji, H., Nakamura, M., Takahashi, Y., Sandelin, A., Katayama, S., Fukuda, S., Daub, C. O., Kai, C., Kawai, J., Yasuda, J., Carninci, P., and Hayashizaki, Y. (2008) BMC Genomics, 9, 157.
Persson, H., Kvist, A., Vallon-Christersson, J., Medstrand, P., Borg, A., and Rovira, C. (2009) Nat. Cell Biol., 11, 1268–1271.
Nicolas, F. E., Hall, A. E., Csorba, T., Turnbull, C., and Dalmay, T. (2012) FEBS Lett., 586, 1226–1230.
Ren, Y. F., Li, G., Wu, J., Xue, Y. F., Song, Y. J., Lv, L., Zhang, X. J., and Tang, K. F. (2012) PLoS One, 7, e40705.
Sobala, A., and Hutvagner, G. (2011) Wiley Interdiscip. Rev. RNA, 2, 853–862.
Panse, V. G., and Johnson, A. W. (2010) Trends Biochem. Sci., 35, 260–266.
Maden, B. E. (1990) Prog. Nucleic Acids Res. Mol. Biol., 39, 241–303.
Kiss-Laszlo, Z., Henry, Y., Bachellerie, J. P., Caizergues-Ferrer, M., and Kiss, T. (1996) Cell, 85, 1077–1088.
Cavaille, J., Nicoloso, M., and Bachellerie, J. P. (1996) Nature, 383, 732–735.
Ganot, P., Bortolin, M. L., and Kiss, T. (1997) Cell, 89, 799–809.
Samarsky, D. A., Fournier, M. J., Singer, R. H., and Bertrand, E. (1998) EMBO J., 17, 3747–3757.
Kiss-Laszlo, Z., Henry, Y., and Kiss, T. (1998) EMBO J., 17, 797–807.
Watkins, N. J., and Bohnsack, M. T. (2012) Wiley Interdiscip. Rev. RNA, 3, 397–414.
Borovjagin, A. V., and Gerbi, S. A. (1999) J. Mol. Biol., 286, 1347–1363.
Enright, C. A., Maxwell, E. S., Eliceiri, G. L., and Sollner-Webb, B. (1996) RNA, 2, 1094–1099.
Tycowski, K. T., Shu, M. D., and Steitz, J. A. (1994) Science, 266, 1558–1561.
Peculis, B. A., and Steitz, J. A. (1993) Cell, 73, 1233–1245.
Cavaille, J., Hadjiolov, A. A., and Bachellerie, J. P. (1996) Eur. J. Biochem., 242, 206–213.
Kiss, T., Fayet-Lebaron, E., and Jady, B. E. (2010) Mol. Cell, 37, 597–606.
Morrissey, J. P., and Tollervey, D. (1993) Mol. Cell Biol., 13, 2469–2477.
Makarova, J. A., and Kramerov, D. A. (2007) Mol. Biol. (Moscow), 41, 246–259.
Hamma, T., and Ferre-D’Amare, A. R. (2010) J. Biol. Chem., 285, 805–809.
Baxter-Roshek, J. L., Petrov, A. N., and Dinman, J. D. (2007) PLoS One, 2, e174.
Blanchard, S. C., and Puglisi, J. D. (2001) Proc. Natl. Acad. Sci. USA, 98, 3720–3725.
Liu, B., Liang, X. H., Piekna-Przybylska, D., Liu, Q., and Fournier, M. J. (2008) RNA Biol., 5, 249–254.
Basu, A., Das, P., Chaudhuri, S., Bevilacqua, E., Andrews, J., Barik, S., Hatzoglou, M., Komar, A. A., and Mazumder, B. (2011) Mol. Cell Biol., 31, 4482–4499.
Mitchell, J. R., Cheng, J., and Collins, K. (1999) Mol. Cell Biol., 19, 567–576.
Tycowski, K. T., You, Z. H., Graham, P. J., and Steitz, J. A. (1998) Mol. Cell, 2, 629–638.
Nizami, Z., Deryusheva, S., and Gall, J. G. (2010) Cold Spring Harb. Perspect. Biol., 2, a000653.
Darzacq, X., Jady, B. E., Verheggen, C., Kiss, A. M., Bertrand, E., and Kiss, T. (2002) EMBO J., 21, 2746–2756.
Lestrade, L., and Weber, M. J. (2006) Nucleic Acids Res., 34, D158–162.
Makarova, J. A., and Kramerov, D. A. (2007) Genetika, 43, 149–158.
Makarova, J. A., and Kramerov, D. A. (2005) Gene, 363, 51–60.
Tycowski, K. T., Shu, M. D., and Steitz, J. A. (1996) Nature, 379, 464–466.
Jady, B. E., Ketele, A., and Kiss, T. (2012) Genes Dev., 26, 1897–1910.
Shadel, G. S., and Clayton, D. A. (1997) Annu. Rev. Biochem., 66, 409–435.
Mattijssen, S., Welting, T. J., and Pruijn, G. J. (2010) Wiley Interdiscip. Rev. RNA, 1, 102–116.
Martin, A. N., and Li, Y. (2007) Cell Res., 17, 219–226.
Ender, C., Krek, A., Friedlander, M. R., Beitzinger, M., Weinmann, L., Chen, W., Pfeffer, S., Rajewsky, N., and Meister, G. (2008) Mol. Cell, 32, 519–528.
Burroughs, A. M., Ando, Y., de Hoon, M. J., Tomaru, Y., Suzuki, H., Hayashizaki, Y., and Daub, C. O. (2011) RNA Biol., 8, 158–177.
Brameier, M., Herwig, A., Reinhardt, R., Walter, L., and Gruber, J. (2011) Nucleic Acids Res., 39, 675–686.
Scott, M. S., Ono, M., Yamada, K., Endo, A., Barton, G. J., and Lamond, A. I. (2012) Nucleic Acids Res., 40, 3676–3688.
Taft, R. J., Glazov, E. A., Lassmann, T., Hayashizaki, Y., Carninci, P., and Mattick, J. S. (2009) RNA, 15, 1233–1240.
Saraiya, A. A., and Wang, C. C. (2008) PLoS Pathog., 4, e1000224.
Starega-Roslan, J., Krol, J., Koscianska, E., Kozlowski, P., Szlachcic, W. J., Sobczak, K., and Krzyzosiak, W. J. (2011) Nucleic Acids Res., 39, 257–268.
Langenberger, D., Bermudez-Santana, C. I., Stadler, P. F., and Hoffmann, S. (2010) Pac. Symp. Biocomput., 80–87.
Fabian, M. R., and Sonenberg, N. (2012) Nat. Struct. Mol. Biol., 19, 586–593.
Taft, R. J., Simons, C., Nahkuri, S., Oey, H., Korbie, D. J., Mercer, T. R., Holst, J., Ritchie, W., Wong, J. J., Rasko, J. E., Rokhsar, D. S., Degnan, B. M., and Mattick, J. S. (2010) Nat. Struct. Mol. Biol., 17, 1030–1034.
Okamura, K. (2012) Wiley Interdiscip. Rev. RNA, 3, 351–368.
Ruby, J. G., Jan, C. H., and Bartel, D. P. (2007) Nature, 448, 83–86.
Westholm, J. O., and Lai, E. C. (2011) Biochimie, 93, 1897–1904.
Babiarz, J. E., Ruby, J. G., Wang, Y., Bartel, D. P., and Blelloch, R. (2008) Genes Dev., 22, 2773–2785.
Kaneko, H., Dridi, S., Tarallo, V., Gelfand, B. D., Fowler, B. J., Cho, W. G., Kleinman, M. E., Ponicsan, S. L., Hauswirth, W. W., Chiodo, V. A., Kariko, K., Yoo, J. W., Lee, D. K., Hadziahmetovic, M., Song, Y., Misra, S., Chaudhuri, G., Buaas, F. W., Braun, R. E., Hinton, D. R., Zhang, Q., Grossniklaus, H. E., Provis, J. M., Madigan, M. C., Milam, A. H., Justice, N. L., Albuquerque, R. J., Blandford, A. D., Bogdanovich, S., Hirano, Y., Witta, J., Fuchs, E., Littman, D. R., Ambati, B. K., Rudin, C. M., Chong, M. M., Provost, P., Kugel, J. F., Goodrich, J. A., Dunaief, J. L., Baffi, J. Z., and Ambati, J. (2011) Nature, 471, 325–330.
Smalheiser, N. R. (2008) Biochim. Biophys. Acta, 1779, 678–681.
Liao, J. Y., Ma, L. M., Guo, Y. H., Zhang, Y. C., Zhou, H., Shao, P., Chen, Y. Q., and Qu, L. H. (2010) PLoS One, 5, e10563.
Ando, Y., Tomaru, Y., Morinaga, A., Burroughs, A. M., Kawaji, H., Kubosaki, A., Kimura, R., Tagata, M., Ino, Y., Hirano, H., Chiba, J., Suzuki, H., Carninci, P., and Hayashizaki, Y. (2011) PLoS One, 6, e23385.
Liang, X. H., and Crooke, S. T. (2011) Nucleic Acids Res., 39, 4875–4889.
Sinkkonen, L., Hugenschmidt, T., Filipowicz, W., and Svoboda, P. (2010) PLoS One, 5, e12175.
Ohrt, T., Muetze, J., Svoboda, P., and Schwille, P. (2012) Curr. Top. Med. Chem., 12, 79–88.
Macias, S., Plass, M., Stajuda, A., Michlewski, G., Eyras, E., and Caceres, J. F. (2012) Nat. Struct. Mol. Biol., 19, 760–766.
Kishore, S., and Stamm, S. (2006) Science, 311, 230–232.
Canton, H., Emeson, R. B., Barker, E. L., Backstrom, J. R., Lu, J. T., Chang, M. S., and Sanders-Bush, E. (1996) Mol. Pharmacol., 50, 799–807.
Khanna, A., and Stamm, S. (2010) RNA Biol., 7, 480–485.
Burns, C. M., Chu, H., Rueter, S. M., Hutchinson, L. K., Canton, H., Sanders-Bush, E., and Emeson, R. B. (1997) Nature, 387, 303–308.
Kishore, S., Khanna, A., Zhang, Z., Hui, J., Balwierz, P. J., Stefan, M., Beach, C., Nicholls, R. D., Zavolan, M., and Stamm, S. (2010) Hum. Mol. Genet., 19, 1153–1164.
Ge, J., Liu, H., and Yu, Y. T. (2010) RNA, 16, 1078–1085.
Semenov, D. V., Vratskih, O. V., Kuligina, E. V., and Richter, V. A. (2008) Ann. N. Y. Acad. Sci., 1137, 119–124.
Stepanov, G. A., Semenov, D. V., Kuligina, E. V., Koval, O. A., Rabinov, I. V., Kit, Y. Y., and Richter, V. A. (2012) Acta Naturae, 4, 32–41.
Zhao, X., and Yu, Y. T. (2008) Nat. Methods, 5, 95–100.
Shen, M., Eyras, E., Wu, J., Khanna, A., Josiah, S., Rederstorff, M., Zhang, M. Q., and Stamm, S. (2011) Nucleic Acids Res., 39, 9720–9730.
Bortolin-Cavaille, M. L., and Cavaille, J. (2012) Nucleic Acids Res., 40, 6800–6807.
Ono, M., Yamada, K., Avolio, F., Scott, M. S., van Koningsbruggen, S., Barton, G. J., and Lamond, A. I. (2010) Mol. Biol. Cell, 21, 1569–1584.
Ono, M., Scott, M. S., Yamada, K., Avolio, F., Barton, G. J., and Lamond, A. I. (2011) Nucleic Acids Res., 39, 3879–3891.
Karijolich, J., and Yu, Y. T. (2011) Nature, 474, 395–398.
Bazeley, P. S., Shepelev, V., Talebizadeh, Z., Butler, M. G., Fedorova, L., Filatov, V., and Fedorov, A. (2008) Gene, 408, 172–179.
Suzuki, A., Kogo, R., Kawahara, K., Sasaki, M., Nishio, M., Maehama, T., Sasaki, T., Mimori, K., and Mori, M. (2012) Cancer Sci., 103, 632–637.
Liu, Z. H., Yang, G., Zhao, T., Cao, G. J., Xiong, L., Xia, W., Huang, X., Wu, L. Y., Wu, K., Fan, M., Shao, N. S., and Zhu, L. L. (2011) Cell. Mol. Neurobiol., 31, 1–5.
Michel, C. I., Holley, C. L., Scruggs, B. S., Sidhu, R., Brookheart, R. T., Listenberger, L. L., Behlke, M. A., Ory, D. S., and Schaffer, J. E. (2011) Cell Metab., 14, 33–44.
Nicoloso, M., Qu, L. H., Michot, B., and Bachellerie, J. P. (1996) J. Mol. Biol., 260, 178–195.
Chu, L., Su, M. Y., Maggi, L. B., Jr., Lu, L., Mullins, C., Crosby, S., Huang, G., Chng, W. J., Vij, R., and Tomasson, M. H. (2012) J. Clin. Invest., 122, 2793–2806.
Parker, R., Simmons, T., Shuster, E. O., Siliciano, P. G., and Guthrie, C. (1988) Mol. Cell Biol., 8, 3150–3159.
Li, S. G., Zhou, H., Luo, Y. P., Zhang, P., and Qu, L. H. (2005) J. Biol. Chem., 280, 16446–16455.
Lowe, T. M., and Eddy, S. R. (1999) Science, 283, 1168–1171.
Qu, L. H., Henras, A., Lu, Y. J., Zhou, H., Zhou, W. X., Zhu, Y. Q., Zhao, J., Henry, Y., Caizergues-Ferrer, M., and Bachellerie, J. P. (1999) Mol. Cell Biol., 19, 1144–1158.
Piekna-Przybylska, D., Decatur, W. A., and Fournier, M. J. (2007) RNA, 13, 305–312.
Liang, X. H., Liu, Q., and Fournier, M. J. (2007) Mol. Cell, 28, 965–977.
Esguerra, J., Warringer, J., and Blomberg, A. (2008) RNA, 14, 649–656.
Liang, X. H., Liu, Q., and Fournier, M. J. (2009) RNA, 15, 1716–1728.
King, T. H., Liu, B., McCully, R. R., and Fournier, M. J. (2003) Mol. Cell, 11, 425–435.
Badis, G., Fromont-Racine, M., and Jacquier, A. (2003) RNA, 9, 771–779.
Baudin-Baillieu, A., Fabret, C., Liang, X. H., Piekna-Przybylska, D., Fournier, M. J., and Rousset, J. P. (2009) Nucleic Acids Res., 37, 7665–7677.
Cassidy, S. B., Schwartz, S., Miller, J. L., and Driscoll, D. J. (2012) Genet. Med., 14, 10–26.
Cavaille, J., Buiting, K., Kiefmann, M., Lalande, M., Brannan, C. I., Horsthemke, B., Bachellerie, J. P., Brosius, J., and Huttenhofer, A. (2000) Proc. Natl. Acad. Sci. USA, 97, 14311–14316.
Gray, T. A., Saitoh, S., and Nicholls, R. D. (1999) Proc. Natl. Acad. Sci. USA, 96, 5616–5621.
Runte, M., Huttenhofer, A., Gross, S., Kiefmann, M., Horsthemke, B., and Buiting, K. (2001) Hum. Mol. Genet., 10, 2687–2700.
Sahoo, T., del Gaudio, D., German, J. R., Shinawi, M., Peters, S. U., Person, R. E., Garnica, A., Cheung, S. W., and Beaudet, A. L. (2008) Nat. Genet., 40, 719–721.
Runte, M., Varon, R., Horn, D., Horsthemke, B., and Buiting, K. (2005) Hum. Genet., 116, 228–230.
Burger, J., Horn, D., Tonnies, H., Neitzel, H., and Reis, A. (2002) Am. J. Med. Genet., 111, 233–237.
Doe, C. M., Relkovic, D., Garfield, A. S., Dalley, J. W., Theobald, D. E., Humby, T., Wilkinson, L. S., and Isles, A. R. (2009) Hum. Mol. Genet., 18, 2140–2148.
Morabito, M. V., Abbas, A. I., Hood, J. L., Kesterson, R. A., Jacobs, M. M., Kump, D. S., Hachey, D. L., Roth, B. L., and Emeson, R. B. (2010) Neurobiol. Dis., 39, 169–180.
Nelson, N. D., and Bertuch, A. A. (2012) Mutat. Res., 730, 43–51.
Mason, P. J., and Bessler, M. (2011) Cancer Genet., 204, 635–645.
Vulliamy, T., Beswick, R., Kirwan, M., Marrone, A., Digweed, M., Walne, A., and Dokal, I. (2008) Proc. Natl. Acad. Sci. USA, 105, 8073–8078.
Mason, P. J., Wilson, D. B., and Bessler, M. (2005) Curr. Mol. Med., 5, 159–170.
Ruggero, D., Grisendi, S., Piazza, F., Rego, E., Mari, F., Rao, P. H., Cordon-Cardo, C., and Pandolfi, P. P. (2003) Science, 299, 259–262.
Pereboom, T. C., van Weele, L. J., Bondt, A., and MacInnes, A. W. (2011) Blood, 118, 5458–5465.
Zhang, Y., Morimoto, K., Danilova, N., Zhang, B., and Lin, S. (2012) PLoS One, 7, e30188.
Narla, A., and Ebert, B. L. (2010) Blood, 115, 3196–3205.
Chung, L., and Utz, P. J. (2004) Curr. Rheumatol. Rep., 6, 156–163.
Van Eenennaam, H., Vogelzangs, J. H., Bisschops, L., Te Boome, L. C., Seelig, H. P., Renz, M., De Rooij, D. J., Brouwer, R., Pluk, H., Pruijn, G. J., Van Venrooij, W. J., and Van Den Hoogen, F. H. (2002) Clin. Exp. Immunol., 130, 532–540.
Pollard, K. M., Hultman, P., and Kono, D. H. (2010) Chem. Res. Toxicol., 23, 455–466.
Yang, J. M., Baserga, S. J., Turley, S. J., and Pollard, K. M. (2001) Clin. Immunol., 101, 38–50.
Welting, T. J., Raijmakers, R., and Pruijn, G. J. (2003) Autoimmun. Rev., 2, 313–321.
Aggarwal, R., Lucas, M., Fertig, N., Oddis, C. V., and Medsger, T. A., Jr. (2009) Arthritis. Rheum., 60, 1112–1118.
Mannoor, K., Liao, J., and Jiang, F. (2012) Biochim. Biophys. Acta, 1826, 121–128.
Williams, G. T., and Farzaneh, F. (2012) Nat. Rev. Cancer, 12, 84–88.
Liao, J., Yu, L., Mei, Y., Guarnera, M., Shen, J., Li, R., Liu, Z., and Jiang, F. (2010) Mol. Cancer, 9, 198.
Mei, Y. P., Liao, J. P., Shen, J., Yu, L., Liu, B. L., Liu, L., Li, R. Y., Ji, L., Dorsey, S. G., Jiang, Z. R., Katz, R. L., Wang, J. Y., and Jiang, F. (2012) Oncogene, 31, 2794–2804.
Lopez-Corral, L., Mateos, M. V., Corchete, L. A., Sarasquete, M. E., de la Rubia, J., de Arriba, F., Lahuerta, J. J., Garcia-Sanz, R., San Miguel, J. F., and Gutierrez, N. C. (2012) Haematologica, 97, 1439–1443.
Gee, H. E., Buffa, F. M., Camps, C., Ramachandran, A., Leek, R., Taylor, M., Patil, M., Sheldon, H., Betts, G., Homer, J., West, C., Ragoussis, J., and Harris, A. L. (2011) Br. J. Cancer, 104, 1168–1177.
Schneider, C., King, R. M., and Philipson, L. (1988) Cell, 54, 787–793.
Smith, C. M., and Steitz, J. A. (1998) Mol. Cell Biol., 18, 6897–6909.
Mourtada-Maarabouni, M., Pickard, M. R., Hedge, V. L., Farzaneh, F., and Williams, G. T. (2009) Oncogene, 28, 195–208.
Nakamura, Y., Takahashi, N., Kakegawa, E., Yoshida, K., Ito, Y., Kayano, H., Niitsu, N., Jinnai, I., and Bessho, M. (2008) Cancer Genet. Cytogenet., 182, 144–149.
Dong, X. Y., Guo, P., Boyd, J., Sun, X., Li, Q., Zhou, W., and Dong, J. T. (2009) J. Genet. Genomics, 36, 447–454.
Dong, X. Y., Rodriguez, C., Guo, P., Sun, X., Talbot, J. T., Zhou, W., Petros, J., Li, Q., Vessella, R. L., Kibel, A. S., Stevens, V. L., Calle, E. E., and Dong, J. T. (2008) Hum. Mol. Genet., 17, 1031–1042.
Tanaka, R., Satoh, H., Moriyama, M., Satoh, K., Morishita, Y., Yoshida, S., Watanabe, T., Nakamura, Y., and Mori, S. (2000) Genes Cells, 5, 277–287.
Vaz, C., Ahmad, H. M., Sharma, P., Gupta, R., Kumar, L., Kulshreshtha, R., and Bhattacharya, A. (2010) BMC Genomics, 11, 288.
Huber-Keener, K. J., Liu, X., Wang, Z., Wang, Y., Freeman, W., Wu, S., Planas-Silva, M. D., Ren, X., Cheng, Y., Zhang, Y., Vrana, K., Liu, C. G., Yang, J. M., and Wu, R. (2012) PLoS One, 7, e41333.
Valleron, W., Laprevotte, E., Gautier, E. F., Quelen, C., Demur, C., Delabesse, E., Agirre, X., Prosper, F., Kiss, T., and Brousset, P. (2012) Leukemia, 26, 2052–2060.
Valleron, W., Ysebaert, L., Berquet, L., Fataccioli, V., Quelen, C., Martin, A., Parrens, M., Lamant, L., de Leval, L., Gisselbrecht, C., Gaulard, P., and Brousset, P. (2012) Blood, 120, 3997–4005.
Martens-Uzunova, E. S., Jalava, S. E., Dits, N. F., van Leenders, G. J., Moller, S., Trapman, J., Bangma, C. H., Litman, T., Visakorpi, T., and Jenster, G. (2012) Oncogene, 31, 978–991.
Cheung, H. H., Lee, T. L., Davis, A. J., Taft, D. H., Rennert, O. M., and Chan, W. Y. (2010) Br. J. Cancer, 102, 419–427.
Ferreira, H. J., Heyn, H., Moutinho, C., and Esteller, M. (2012) RNA Biol., 9, 881–890.
Sieron, P., Hader, C., Hatina, J., Engers, R., Wlazlinski, A., Muller, M., and Schulz, W. A. (2009) Br. J. Cancer, 101, 1410–1416.
Liu, B., Zhang, J., Huang, C., and Liu, H. (2012) PLoS One, 7, e43147.
Belin, S., Beghin, A., Solano-Gonzalez, E., Bezin, L., Brunet-Manquat, S., Textoris, J., Prats, A. C., Mertani, H. C., Dumontet, C., and Diaz, J. J. (2009) PLoS One, 4, e7147.
Yoon, A., Peng, G., Brandenburger, Y., Zollo, O., Xu, W., Rego, E., and Ruggero, D. (2006) Science, 312, 902–906.
Skreka, K., Schafferer, S., Nat, I. R., Zywicki, M., Salti, A., Apostolova, G., Griehl, M., Rederstorff, M., Dechant, G., and Huttenhofer, A. (2012) Nucleic Acids Res., 40, 6001–6015.
Skreka, K., Zywicki, M., Karbiener, M., Huttenhofer, A., Scheideler, M., and Rederstorff, M. (2012) J. Nucleic Acids, 2012, 283560.
O’Brien, J. E., Jr., Kibiryeva, N., Zhou, X. G., Marshall, J. A., Lofland, G. K., Artman, M., Chen, J., and Bittel, D. C. (2012) Circ. Cardiovasc. Genet., 5, 279–286.
Higa-Nakamine, S., Suzuki, T., Uechi, T., Chakraborty, A., Nakajima, Y., Nakamura, M., Hirano, N., and Kenmochi, N. (2012) Nucleic Acids Res., 40, 391–398.
Castle, J. C., Armour, C. D., Lower, M., Haynor, D., Biery, M., Bouzek, H., Chen, R., Jackson, S., Johnson, J. M., Rohl, C. A., and Raymond, C. K. (2010) PLoS One, 5, e11779.
Yan, D., He, D., He, S., Chen, X., Fan, Z., and Chen, R. (2011) PLoS One, 6, e21652.
Sakharov, D. A., Maltseva, D. V., Riabenko, E. A., Shkurnikov, M. U., Northoff, H., Tonevitsky, A. G., and Grigoriev, A. I. (2012) Eur. J. Appl. Physiol., 112, 963–972.
Hutzinger, R., Mrazek, J., Vorwerk, S., and Huttenhofer, A. (2010) RNA Biol., 7, 586–595.
Peng, X., Gralinski, L., Ferris, M. T., Frieman, M. B., Thomas, M. J., Proll, S., Korth, M. J., Tisoncik, J. R., Heise, M., Luo, S., Schroth, G. P., Tumpey, T. M., Li, C., Kawaoka, Y., Baric, R. S., and Katze, M. G. (2011) MBio, 2.
Tamboli, R. A., Hajri, T., Jiang, A., Marks-Shulman, P. A., Williams, D. B., Clements, R. H., Melvin, W., Bowen, B. P., Shyr, Y., Abumrad, N. N., and Flynn, C. R. (2011) PLoS One, 6, e28577.
Pasinetti, G. M., Ho, L., Dooley, C., Abbi, B., and Lange, G. (2012) Am. J. Neurodegener. Dis., 1, 88–98.
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Original Russian Text © J. A. Makarova, S. M. Ivanova, A. G. Tonevitsky, A. I. Grigoriev, 2013, published in Biokhimiya, 2013, Vol. 78, No. 6, pp. 825–839.
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Makarova, J.A., Ivanova, S.M., Tonevitsky, A.G. et al. New functions of small nucleolar RNAs. Biochemistry Moscow 78, 638–650 (2013). https://doi.org/10.1134/S0006297913060096
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DOI: https://doi.org/10.1134/S0006297913060096