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Items: 1 to 20 of 89

1.

A series of normal stages in the development of the chick embryo.

HAMBURGER V, HAMILTON HL.

J Morphol. 1951 Jan;88(1):49-92. No abstract available.

PMID:
24539719
2.

Two developmental modules establish 3D beak-shape variation in Darwin's finches.

Mallarino R, Grant PR, Grant BR, Herrel A, Kuo WP, Abzhanov A.

Proc Natl Acad Sci U S A. 2011 Mar 8;108(10):4057-62. doi: 10.1073/pnas.1011480108. Epub 2011 Feb 22.

3.

Dicer activity in neural crest cells is essential for craniofacial organogenesis and pharyngeal arch artery morphogenesis.

Nie X, Wang Q, Jiao K.

Mech Dev. 2011 Mar-Apr;128(3-4):200-7. doi: 10.1016/j.mod.2010.12.002. Epub 2011 Jan 21.

4.

The role of sensory organs and the forebrain for the development of the craniofacial shape as revealed by Foxg1-cre-mediated microRNA loss.

Kersigo J, D'Angelo A, Gray BD, Soukup GA, Fritzsch B.

Genesis. 2011 Apr;49(4):326-41. doi: 10.1002/dvg.20714. Epub 2011 Apr 1.

5.

Widespread regulatory activity of vertebrate microRNA* species.

Yang JS, Phillips MD, Betel D, Mu P, Ventura A, Siepel AC, Chen KC, Lai EC.

RNA. 2011 Feb;17(2):312-26. doi: 10.1261/rna.2537911. Epub 2010 Dec 22.

6.

Evolution of microRNAs and the diversification of species.

Loh YH, Yi SV, Streelman JT.

Genome Biol Evol. 2011;3:55-65. doi: 10.1093/gbe/evq085. Epub 2010 Dec 15.

7.

The miR-30 family microRNAs confer epithelial phenotype to human pancreatic cells.

Joglekar MV, Patil D, Joglekar VM, Rao GV, Reddy DN, Mitnala S, Shouche Y, Hardikar AA.

Islets. 2009 Sep-Oct;1(2):137-47. doi: 10.4161/isl.1.2.9578.

PMID:
21099261
8.

The neural crest-enriched microRNA miR-452 regulates epithelial-mesenchymal signaling in the first pharyngeal arch.

Sheehy NT, Cordes KR, White MP, Ivey KN, Srivastava D.

Development. 2010 Dec;137(24):4307-16. doi: 10.1242/dev.052647.

9.

Origin and evolution of a placental-specific microRNA family in the human genome.

Yuan Z, Sun X, Jiang D, Ding Y, Lu Z, Gong L, Liu H, Xie J.

BMC Evol Biol. 2010 Nov 10;10:346. doi: 10.1186/1471-2148-10-346.

10.

A network connecting Runx2, SATB2, and the miR-23a~27a~24-2 cluster regulates the osteoblast differentiation program.

Hassan MQ, Gordon JA, Beloti MM, Croce CM, van Wijnen AJ, Stein JL, Stein GS, Lian JB.

Proc Natl Acad Sci U S A. 2010 Nov 16;107(46):19879-84. doi: 10.1073/pnas.1007698107. Epub 2010 Oct 27.

11.

Differential expression analysis for sequence count data.

Anders S, Huber W.

Genome Biol. 2010;11(10):R106. doi: 10.1186/gb-2010-11-10-r106. Epub 2010 Oct 27.

12.

Next-generation sequencing identifies the natural killer cell microRNA transcriptome.

Fehniger TA, Wylie T, Germino E, Leong JW, Magrini VJ, Koul S, Keppel CR, Schneider SE, Koboldt DC, Sullivan RP, Heinz ME, Crosby SD, Nagarajan R, Ramsingh G, Link DC, Ley TJ, Mardis ER.

Genome Res. 2010 Nov;20(11):1590-604. doi: 10.1101/gr.107995.110. Epub 2010 Oct 8.

13.

Regulation of somatic cell reprogramming through inducible mir-302 expression.

Lin SL, Chang DC, Lin CH, Ying SY, Leu D, Wu DT.

Nucleic Acids Res. 2011 Feb;39(3):1054-65. doi: 10.1093/nar/gkq850. Epub 2010 Sep 24.

14.

miR-27 promotes osteoblast differentiation by modulating Wnt signaling.

Wang T, Xu Z.

Biochem Biophys Res Commun. 2010 Nov 12;402(2):186-9. doi: 10.1016/j.bbrc.2010.08.031. Epub 2010 Aug 12.

PMID:
20708603
15.

The ZEB/miR-200 feedback loop--a motor of cellular plasticity in development and cancer?

Brabletz S, Brabletz T.

EMBO Rep. 2010 Sep;11(9):670-7. doi: 10.1038/embor.2010.117. Epub 2010 Aug 13. Review.

16.

Developmental microRNA expression profiling of murine embryonic orofacial tissue.

Mukhopadhyay P, Brock G, Pihur V, Webb C, Pisano MM, Greene RM.

Birth Defects Res A Clin Mol Teratol. 2010 Jul;88(7):511-34. doi: 10.1002/bdra.20684.

17.

Downregulation of microRNAs directs the EMT and invasive potential of anaplastic thyroid carcinomas.

Braun J, Hoang-Vu C, Dralle H, Hüttelmaier S.

Oncogene. 2010 Jul 22;29(29):4237-44. doi: 10.1038/onc.2010.169. Epub 2010 May 24.

PMID:
20498632
18.

Wnt1-cre-mediated conditional loss of Dicer results in malformation of the midbrain and cerebellum and failure of neural crest and dopaminergic differentiation in mice.

Huang T, Liu Y, Huang M, Zhao X, Cheng L.

J Mol Cell Biol. 2010 Jun;2(3):152-63. doi: 10.1093/jmcb/mjq008. Epub 2010 May 10.

PMID:
20457670
19.

Epigenetic repression of microRNA-129-2 leads to overexpression of SOX4 in gastric cancer.

Shen R, Pan S, Qi S, Lin X, Cheng S.

Biochem Biophys Res Commun. 2010 Apr 16;394(4):1047-52. doi: 10.1016/j.bbrc.2010.03.121. Epub 2010 Mar 21.

PMID:
20331975
20.

Genome-wide comparative analysis of microRNAs in three non-human primates.

Brameier M.

BMC Res Notes. 2010 Mar 9;3:64. doi: 10.1186/1756-0500-3-64.

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