Biology Reference
In-Depth Information
Boyerinas, B., Park, S. M., Hau, A., Murmann, A. E., and Peter, M. E. (2010). The role of
let-7 in cell differentiation and cancer.
Endocr. Relat. Cancer 17,
F19-F36.
Bracht, J., Hunter, S., Eachus, R., Weeks, P., and Pasquinelli, A. E. (2004). Trans-splicing
and polyadenylation of let-7 microRNA primary transcripts.
RNA
1586-1594.
Bracht, J. R., Van Wynsberghe, P. M., Mondol, V., and Pasquinelli, A. E. (2010). Regula-
tion of lin-4 miRNA expression, organismal growth and development by a conserved
RNA binding protein in C. elegans.
Dev. Biol. 348,
210-221.
Brennecke, J., Stark, A., Russell, R. B., and Cohen, S. M. (2005). Principles of microRNA-
target recognition.
PLoS Biol. 3,
e85.
Bussing, I., Yang, J.-S., Lai, E. C., and Grosshans, H. (2010). The nuclear export receptor
XPO-1 supports primary miRNA processing in C. elegans and Drosophila.
EMBO J. 29,
1830-1839.
B¨ ssing, I., Slack, F. J., and Großhans, H. (2008). let-7 microRNAs in development, stem
cells and cancer.
Trends Mol. Med. 14,
400-409.
Caygill, E. E., and Johnston, L. A. (2008). Temporal regulation of metamorphic processes in
Drosophila by the let-7 and miR-125 heterochronic microRNAs.
Curr. Biol.
10,
18,
943-950.
Chalfie, M., Horvitz, H. R., and Sulston, J. E. (1981). Mutations that lead to reiterations in
the cell lineages of C. elegans.
Cell 24,
59-69.
Chan, S. P., and Slack, F. J. (2009). Ribosomal protein RPS-14 modulates let-7 microRNA
function in Caenorhabditis elegans.
Dev. Biol. 334,
152-160.
Chatterjee, S., and Groszhans, H. (2009). Active turnover modulates mature microRNA
activity in Caenorhabditis elegans.
Nature 461,
546-549.
Chatterjee, S., Fasler, M., B¨ ssing, I., and Großhans, H. (2011). Target-mediated protection
of endogenous microRNAs in C. elegans.
Dev. Cell 20,
388-396.
Chi, S. W., Zang, J. B., Mele, A., and Darnell, R. B. (2009). Argonaute HITS-CLIP
decodes microRNA-mRNA interaction maps.
Nature 460,
479-486.
Chiang, H. R., Schoenfeld, L. W., Ruby, J. G., Auyeung, V. C., Spies, N., Baek, D.,
Johnston, W. K., Russ, C., Luo, S., Babiarz, J. E., Blelloch, R., Schroth, G. P.,
et al
.
(2010). Mammalian microRNAs: Experimental evaluation of novel and previously
annotated genes.
Genes Dev.
992-1009.
Chung, W. J., Agius, P., Westholm, J. O., Chen, M., Okamura, K., Robine, N., Leslie, C. S.,
and Lai, E. C. (2011). Computational and experimental identification of mirtrons in
Drosophila melanogaster and Caenorhabditis elegans.
Genome Res. 21,
286-300.
Czech, B., and Hannon, G. J. (2011). Small RNA sorting: Matchmaking for Argonautes.
Nat. Rev. Genet. 12,
19-31.
Ding, X. C., and Groszhans, H. (2009). Repression of C. elegans microRNA targets at the
initiation level of translation requires GW182 proteins.
EMBO J. 28,
213-222.
Djuranovic, S., Nahvi, A., and Green, R. (2011). A parsimonious model for gene regulation
by miRNAs.
Science 331,
550-553.
Doench, J. G., and Sharp, P. A. (2004). Specificity of microRNA target selection in
translational repression.
Genes Dev. 18,
504-511.
Doench, J. G., Petersen, C. P., and Sharp, P. A. (2003). siRNAs can function as miRNAs.
Genes Dev. 17,
438-442.
Easow, G., Teleman, A. A., and Cohen, S. M. (2007). Isolation of microRNA targets by
miRNP immunopurification.
RNA 13,
1198-1204.
Enright, A., John, B., Gaul, U., Tuschl, T., Sander, C., and Marks, D. (2003). MicroRNA
targets in Drosophila.
Genome Biol. 5,
R1.
Esquela-Kerscher, A., Johnson, S. M., Bai, L., Saito, K., Partridge, J., Reinert, K. L., and
Slack, F. J. (2005). Post-embryonic expression of C. elegans microRNAs belonging to
the lin-4 and let-7 families in the hypodermis and the reproductive system.
Dev. Dyn.
234,
868-877.
24,
