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Items: 1 to 20 of 125

1.
2.

Recombineering-based procedure for creating Cre/loxP conditional knockouts in the mouse.

Bouvier J, Cheng JG.

Curr Protoc Mol Biol. 2009 Jan;Chapter 23:Unit 23.13. doi: 10.1002/0471142727.mb2313s85.

PMID:
19170029
3.

Mutagenic insertion and chromosome engineering resource (MICER).

Adams DJ, Biggs PJ, Cox T, Davies R, van der Weyden L, Jonkers J, Smith J, Plumb B, Taylor R, Nishijima I, Yu Y, Rogers J, Bradley A.

Nat Genet. 2004 Aug;36(8):867-71. Epub 2004 Jul 4.

PMID:
15235602
5.

Efficient generation of long-distance conditional alleles using recombineering and a dual selection strategy in replicate plates.

Voehringer D, Wu D, Liang HE, Locksley RM.

BMC Biotechnol. 2009 Jul 28;9:69. doi: 10.1186/1472-6750-9-69.

6.

A site-directed chromosomal translocation induced in embryonic stem cells by Cre-loxP recombination.

Smith AJ, De Sousa MA, Kwabi-Addo B, Heppell-Parton A, Impey H, Rabbitts P.

Nat Genet. 1995 Apr;9(4):376-85. Erratum in: Nat Genet 1996 Jan;12(1):110.

PMID:
7795643
7.

Engineering chromosomal rearrangements in mice.

Yu Y, Bradley A.

Nat Rev Genet. 2001 Oct;2(10):780-90. Review.

PMID:
11584294
8.

Construction of engineered murine embryonic stem cells with conditional knockout of FGFR2 depending on Cre-loxP.

Jianmin W, Ruihua S, Lei C, Liangjun Y, Bo C, Jing S, Yuanbing G, Ling Z, Lin C.

Biocell. 2006 Aug;30(2):269-78.

PMID:
16972551
9.

Transposition-based method for the rapid generation of gene-targeting vectors to produce Cre/Flp-modifiable conditional knock-out mice.

Turakainen H, Saarimäki-Vire J, Sinjushina N, Partanen J, Savilahti H.

PLoS One. 2009;4(2):e4341. doi: 10.1371/journal.pone.0004341. Epub 2009 Feb 5.

10.

Visual genotyping of a coat color tagged p53 mutant mouse line.

Zheng B, Vogel H, Donehower LA, Bradley A.

Cancer Biol Ther. 2002 Jul-Aug;1(4):433-5.

PMID:
12432262
11.

Introducing defined chromosomal rearrangements into the mouse genome.

Zheng B, Mills AA, Bradley A.

Methods. 2001 May;24(1):81-94.

PMID:
11327806
12.
13.

A genome-wide, end-sequenced 129Sv BAC library resource for targeting vector construction.

Adams DJ, Quail MA, Cox T, van der Weyden L, Gorick BD, Su Q, Chan WI, Davies R, Bonfield JK, Law F, Humphray S, Plumb B, Liu P, Rogers J, Bradley A.

Genomics. 2005 Dec;86(6):753-8. Epub 2005 Oct 27.

14.

The loss-of-allele assay for ES cell screening and mouse genotyping.

Frendewey D, Chernomorsky R, Esau L, Om J, Xue Y, Murphy AJ, Yancopoulos GD, Valenzuela DM.

Methods Enzymol. 2010;476:295-307. doi: 10.1016/S0076-6879(10)76017-1.

PMID:
20691873
15.

Cre-mediated germline mosaicism: a method allowing rapid generation of several alleles of a target gene.

Holzenberger M, Lenzner C, Leneuve P, Zaoui R, Hamard G, Vaulont S, Bouc YL.

Nucleic Acids Res. 2000 Nov 1;28(21):E92.

16.

Dorsoventral patterning of the mouse coat by Tbx15.

Candille SI, Van Raamsdonk CD, Chen C, Kuijper S, Chen-Tsai Y, Russ A, Meijlink F, Barsh GS.

PLoS Biol. 2004 Jan;2(1):E3. Epub 2004 Jan 20.

17.

Gene trap and gene inversion methods for conditional gene inactivation in the mouse.

Xin HB, Deng KY, Shui B, Qu S, Sun Q, Lee J, Greene KS, Wilson J, Yu Y, Feldman M, Kotlikoff MI.

Nucleic Acids Res. 2005 Jan 19;33(2):e14.

18.

Genome engineering via homologous recombination in mouse embryonic stem (ES) cells: an amazingly versatile tool for the study of mammalian biology.

Babinet C, Cohen-Tannoudji M.

An Acad Bras Cienc. 2001 Sep;73(3):365-83. Review. Erratum in: An Acad Bras Cienc 2001 Dec;73(4):577-80.

19.

Engineering mouse chromosomes with Cre-loxP: range, efficiency, and somatic applications.

Zheng B, Sage M, Sheppeard EA, Jurecic V, Bradley A.

Mol Cell Biol. 2000 Jan;20(2):648-55.

20.

Yeast artificial chromosome targeting technology: an approach for the deletion of genes in the C57BL/6 mouse.

Wilson CJ, Guglielmo C, Moua ND, Tudor M, Grosveld G, Young RA, Murray PJ.

Anal Biochem. 2001 Sep 15;296(2):270-8.

PMID:
11554723
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