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Items: 1 to 20 of 90

1.

aMAZe-ing tools for mosaic analysis in zebrafish.

Blackburn JS, Langenau DM.

Nat Methods. 2010 Mar;7(3):188-90. doi: 10.1038/nmeth0310-188. No abstract available.

2.

Targeting neural circuitry in zebrafish using GAL4 enhancer trapping.

Scott EK, Mason L, Arrenberg AB, Ziv L, Gosse NJ, Xiao T, Chi NC, Asakawa K, Kawakami K, Baier H.

Nat Methods. 2007 Apr;4(4):323-6. Epub 2007 Mar 18.

PMID:
17369834
3.

MAZe: a tool for mosaic analysis of gene function in zebrafish.

Collins RT, Linker C, Lewis J.

Nat Methods. 2010 Mar;7(3):219-23. doi: 10.1038/nmeth.1423. Epub 2010 Feb 7.

PMID:
20139970
4.

Transgenesis in zebrafish with the tol2 transposon system.

Suster ML, Kikuta H, Urasaki A, Asakawa K, Kawakami K.

Methods Mol Biol. 2009;561:41-63. doi: 10.1007/978-1-60327-019-9_3.

PMID:
19504063
5.

Modern mosaic analysis in the zebrafish.

Carmany-Rampey A, Moens CB.

Methods. 2006 Jul;39(3):228-38.

PMID:
16829130
6.

Genetic dissection of neural circuits by Tol2 transposon-mediated Gal4 gene and enhancer trapping in zebrafish.

Asakawa K, Suster ML, Mizusawa K, Nagayoshi S, Kotani T, Urasaki A, Kishimoto Y, Hibi M, Kawakami K.

Proc Natl Acad Sci U S A. 2008 Jan 29;105(4):1255-60. doi: 10.1073/pnas.0704963105. Epub 2008 Jan 17.

7.

FGF3 and FGF8 mediate a rhombomere 4 signaling activity in the zebrafish hindbrain.

Maves L, Jackman W, Kimmel CB.

Development. 2002 Aug;129(16):3825-37.

8.

Promoter decoding of transcription factor dynamics.

Moody AD, Batchelor E.

Mol Syst Biol. 2013 Nov 5;9:703. doi: 10.1038/msb.2013.63. No abstract available.

9.

Screening pancreatic oncogenes in zebrafish using the Gal4/UAS system.

Liu S, Leach SD.

Methods Cell Biol. 2011;105:367-81. doi: 10.1016/B978-0-12-381320-6.00015-1.

10.

Genetic dissection of thymus development.

Schorpp M, Wiest W, Egger C, Hammerschmidt M, Schlake T, Boehm T.

Curr Top Microbiol Immunol. 2000;251:119-24. No abstract available.

PMID:
11036766
11.

Loss of structure-gain of function.

Korzhnev DM.

J Mol Biol. 2013 Jan 9;425(1):17-8. doi: 10.1016/j.jmb.2012.10.012. Epub 2012 Oct 22. No abstract available.

12.

Cell size control is sirtuin(ly) exciting.

Wright J, Schneider BL.

Mol Syst Biol. 2013 Nov 12;9:706. doi: 10.1038/msb.2013.64. No abstract available.

13.

Fluorescent tagged analysis of neural gene function using mosaics in zebrafish and Xenopus laevis.

Conway G, Torrejón M, Lin S, Reinsch S.

Brain Res. 2006 Jan 27;1070(1):150-9. Epub 2006 Jan 23.

PMID:
16430873
14.

Zebrafish homolog of the leukemia gene CBFB: its expression during embryogenesis and its relationship to scl and gata-1 in hematopoiesis.

Blake T, Adya N, Kim CH, Oates AC, Zon L, Chitnis A, Weinstein BM, Liu PP.

Blood. 2000 Dec 15;96(13):4178-84.

15.

Use of the Gal4-UAS technique for targeted gene expression in the zebrafish.

Scheer N, Campos-Ortega JA.

Mech Dev. 1999 Feb;80(2):153-8.

16.

Domains of retinoid signalling and neurectodermal expression of zebrafish otx1 and goosecoid are mutually exclusive.

Joore J, Timmermans A, van de Water S, Folkers GE, van der Saag PT, Zivkovic D.

Biochem Cell Biol. 1997;75(5):601-12.

PMID:
9551182
17.

vhnf1 integrates global RA patterning and local FGF signals to direct posterior hindbrain development in zebrafish.

Hernandez RE, Rikhof HA, Bachmann R, Moens CB.

Development. 2004 Sep;131(18):4511-20.

18.

Three zebrafish MEF2 genes delineate somitic and cardiac muscle development in wild-type and mutant embryos.

Ticho BS, Stainier DY, Fishman MC, Breitbart RE.

Mech Dev. 1996 Oct;59(2):205-18.

19.

Vectors for N- or C-terminal positioning of the yeast Gal4p DNA binding or activator domains.

Millson SH, Truman AW, Piper PW.

Biotechniques. 2003 Jul;35(1):60-4. No abstract available.

PMID:
12866406
20.

Spatially and temporally-restricted expression of two T-box genes during zebrafish embryogenesis.

Yonei-Tamura S, Tamura K, Tsukui T, Izpisúa Belmonte JC.

Mech Dev. 1999 Feb;80(2):219-21.

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