13.3: Bibliography

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Bibliography

[1] Daehyun Baek, Judit Vill ́en, Chanseok Shin, Fernando D Camargo, Steven P Gygi, and David P Bartel. The impact of microRNAs on protein output. Nature, 455(7209):64–71, September 2008.

[2] David P Bartel. MicroRNAs: genomics, biogenesis, mechanism, and function. Cell, 116(2):281–97, January 2004.

[3] M S Bartolomei, S Zemel, and S M Tilghman. Parental imprinting of the mouse H19 gene. Nature, 351(6322):153–5, May 1991.

[4] C J Brown, A Ballabio, J L Rupert, R G Lafreniere, M Grompe, R Tonlorenzi, and H F Willard. A gene from the region of the human X inactivation centre is expressed exclusively from the inactive X chromosome. Nature, 349(6304):38–44, January 1991.

[5] Richard W Carthew and Erik J Sontheimer. Origins and Mechanisms of miRNAs and siRNAs. Cell, 136(4):642–55, February 2009.

[6] Manel Esteller. Non-coding RNAs in human disease. Nature Reviews Genetics, 12(12):861–874, Novem- ber 2011.

[7] A Fire, S Xu, M K Montgomery, S A Kostas, S E Driver, and C C Mello. Potent and specific genetic interference by double-stranded RNA in Caenorhabditis elegans. Nature, 391(6669):806–11, February 1998.

[8] Ewan a Gibb, Carolyn J Brown, and Wan L Lam. The functional role of long non-coding RNA in human carcinomas. Molecular cancer, 10(1):38, January 2011.

[9] Daniel E Golden, Vincent R Gerbasi, and Erik J Sontheimer. An inside job for siRNAs. Molecular cell, 31(3):309–12, August 2008.

[10] S Guo and K J Kemphues. par-1, a gene required for establishing polarity in C. elegans embryos, encodes a putative Ser/Thr kinase that is asymmetrically distributed. Cell, 81(4):611–20, May 1995.

[11] Rajnish A Gupta, Nilay Shah, Kevin C Wang, Jeewon Kim, Hugo M Horlings, David J Wong, Miao- Chih Tsai, Tiffany Hung, Pedram Argani, John L Rinn, Yulei Wang, Pius Brzoska, Benjamin Kong, Rui Li, Robert B West, Marc J van de Vijver, Saraswati Sukumar, and Howard Y Chang. Long non-coding RNA HOTAIR reprograms chromatin state to promote cancer metastasis. Nature, 464(7291):1071–6, April 2010.

[12] Masahira Hattori. Finishing the euchromatic sequence of the human genome. Nature, 431(7011):931–45, October 2004.

[13] Christopher L Holley and Veli K Topkara. An introduction to small non-coding RNAs: miRNA and snoRNA. Cardiovascular Drugs and Therapy, 25(2):151–159, 2011.

[14] Nicholas T Ingolia, Sina Ghaemmaghami, John R S Newman, and Jonathan S Weissman. Genome-wide analysis in vivo of translation with nucleotide resolution using ribosome profiling. Science (New York, N.Y.), 324(5924):218–23, April 2009.

[15] R C Lee, R L Feinbaum, and V Ambros. The C. elegans heterochronic gene lin-4 encodes small RNAs with antisense complementarity to lin-14. Cell, 75(5):843–54, December 1993.

[16] Michael L Metzker. Sequencing technologies - the next generation. Nature Reviews Genetics, 11(1):31– 46, January 2010.

[17] C. Napoli, C. Lemieux, and R. Jorgensen. Introduction of a Chimeric Chalcone Synthase Gene into Petunia Results in Reversible Co-Suppression of Homologous Genes in trans. The Plant cell, 2(4):279– 289, April 1990.

[18] Laura Poliseno, Leonardo Salmena, Jiangwen Zhang, Brett Carver, William J Haveman, and Pier Paolo Pandolfi. A coding-independent function of gene and pseudogene mRNAs regulates tumour biology. Nature, 465(7301):1033–8, June 2010.

[19] Chris P Ponting, Peter L Oliver, and Wolf Reik. Evolution and functions of long noncoding RNAs. Cell, 136(4):629–41, February 2009.

[20] J. R. Prensner and A. M. Chinnaiyan. The Emergence of lncRNAs in Cancer Biology. Cancer Discovery, 1(5):391–407, October 2011.

[21] B J Reinhart, F J Slack, M Basson, A E Pasquinelli, J C Bettinger, A E Rougvie, H R Horvitz, and G Ruvkun. The 21-nucleotide let-7 RNA regulates developmental timing in Caenorhabditis elegans. Nature, 403(6772):901–6, February 2000.

[22] N Romano and G Macino. Quelling: transient inactivation of gene expression in Neurospora crassa by transformation with homologous sequences. Molecular microbiology, 6(22):3343–53, November 1992.

[23] G Ruvkun. Molecular biology. Glimpses of a tiny RNA world. Science, 294(5543):797–9, October 2001.

[24] Ryan J Taft, Ken C Pang, Timothy R Mercer, Marcel Dinger, and John S Mattick. Non-coding RNAs:

regulators of disease. The Journal of pathology, 220(2):126–39, January 2010.

[25] Jiayi Wang, Xiangfan Liu, Huacheng Wu, Peihua Ni, Zhidong Gu, Yongxia Qiao, Ning Chen, Fenyong Sun, and Qishi Fan. CREB up-regulates long non-coding RNA, HULC expression through interaction with microRNA-372 in liver cancer. Nucleic acids research, 38(16):5366–83, September 2010.

[26] Soraya Yekta, I-Hung Shih, and David P Bartel. MicroRNA-directed cleavage of HOXB8 mRNA. Science, 304(5670):594–6, April 2004.