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Citations

Jun Fu, Silke C. Wenzel, Olena Perlova, Junping Wang, Frank Gross, Zhiru Tang, Yulong Yin, A. Francis Stewart, Rolf Muller and Youming Zhang (2008). Efficient transfer of two large secondary metabolite pathway gene clusters into heterologous hosts by transposition. Nucleic Acids Research 36:17

Stephan Braatsch, Søren Helmark, Harald Kranz, Brian Koebmann, and Peter Ruhdal Jensen (2008). Escherichia coli strains with promoter libraries constructed by Red/ET recombination pave the way for transcriptional fine-tuning. BioTechniques 45: 335-337

Ralf Heermann, Tim Zeppenfeld and Kirsten Jung (b2008/b). Simple generation of site-directed point mutations in the Escherichia coli chromosome using Red/ET Recombination. Microbial Cell Factories 7:14

Saskia Lösch, Stephan Braatsch and Harald Kranz (b2007/br). Red/ET Recombination. λ vs. Mu: base-precise modification of the E. coli genome. BIOspektrum, Translation from 05.07

Wang J, Sarov M, Rientjes J, Fu J, Hollak H, Kranz H, Xie W, Stewart AF, Zhang Y. (2006) An improved recombineering approach by adding RecA to lambda Red recombination. Mol Biotechnol. 32(1):43-53.

Wenzel SC, Gross F, Zhang Y, Fu J, Stewart AF, Muller R. (2005) Heterologous expression of a myxobacterial natural products assembly line in pseudomonads via red/ET recombineering. Chem Biol. 12(3):349-56.

Glaser S, Anastassiadis K, Stewart AF. (2005) Current issues in mouse genome engineering. Nat Genet. 37(11):1187-93. Review.

Vetcher L, Tian ZQ, McDaniel R, Rascher A, Revill WP, Hutchinson CR, Hu Z. (2005) Rapid engineering of the geldanamycin biosynthesis pathway by Red/ET recombination and gene complementation. Appl Environ Microbiol. 71(4):1829-35.

Ikeya M, Kawada M, Nakazawa Y, Sakuragi M, Sasai N, Ueno M, Kiyonari H, Nakao K, Sasai Y. (2005) Gene disruption/knock-in analysis of mONT3: vector construction by employing both in vivo and in vitro recombinations. Int J Dev Biol;49(7):807-23.

Testa G, Schaft J, van der Hoeven F, Glaser S, Anastassiadis K, Zhang Y, Hermann T, Stremmel W, Stewart AF. (2004) A reliable lacZ expression reporter cassette for multipurpose, knockout-first alleles. Genesis. 38(3):151-8.

Testa G, Zhang Y, Vintersten K, Benes V, Pijnappel WW, Chambers I, Smith AJ, Smith AG, Stewart AF. (2003) Engineering the mouse genome with bacterial artificial chromosomes to create multipurpose alleles. Nat Biotechnol. 21(4):443-7. Epub 2003 Mar 10.

Zhang, Y., Muyrers, J.P.P., Rientjes, J. and Stewart, A.F. (2003) Phage annealing proteins promote oligonucleotide-directed mutagenesis in Escherichia coli and mouse ES cells. BMC Mol Biol. 4(1):1. Print 2003 Jan 16.

Muyrers, J.P.P., Zhang, Y. and Stewart A.F. (2002) Introducing Red?/ET? Recombination: DNA Engineering for the 21st Century. Gene Cloning & Expression Technologies edited by Michael P. Weiner & Quinn Lu Biotechniques PRESS ?02.

Shimshek, D.R., Kim, J., Huebner, M.R., Spergel, D.J., Buchholz, F., Casanova, E., Stewart, A.F., Seeburg, P.H. and Sprengel, R. (2002) Codon-Improved Cre recombinase (iCre) expression in the mouse Genesis 32, 19-26.

Voziyanov Y, Stewart AF, Jayaram M. (2002) A dual reporter screening system identifies the amino acid at position 82 in Flp site-specific recombinase as a determinant for target specificity. Nucleic Acids Res. 30(7):1656-63.

Muyrers, J.P.P., Zhang, Y. and Stewart A.F. (2001) Recombinogenic Engineering: new options for manipulating DNA Trends in Biochemical Sciences, 26, 325-31.

Schaft, J, Ashery-Padan, R, van der Hoeven, F, Gruss, P and Stewart AF (2001) Efficient FLP recombination in mouse ES cells and oocytes Genesis. 31, 6-10.

Buchholz F, Bishop M. (2001) LoxP-directed cloning: use of Cre recombinase as a universal restriction enzyme. Biotechniques. 31, 906-8.

Muyrers, J.P.P., Zhang, Y., Stewart, A.F. (2000) ET cloning: Think recombination first. Genetic Engineering, Principles and Methods (Ed. J.K. Setlow), 22, 77-98 Kluwer Academic/Plenum Publishers, NY.

Muyrers, J.P.P., Zhang, Y., Benes, V., Testa, G., Ansorge, W. and Stewart, A.F. (2000) Point mutation of bacterial artificial chromosomes by ET recombination. EMBO Reports 1, 239-243.

Hill, F., Benes, V., Thomasova, D., Stewart, A.F., Kafatos, F.C. and Ansorge, W. (2000) BAC trimming minimizing clone overlaps. Genomics, 64, 111-113.

Muyrers, J.P.P., Zhang, Y., Buchholz, F. and Stewart, A.F. (2000) RecE/RecT and Reda/Redb initiate double stranded break repair by specifically interacting with their respective partners Genes and Development, 14, 1971-1982.

Zhang, Y., Muyrers, J.P.P., Testa, G. and Stewart, A.F. (2000) DNA cloning by homologous recombination in Escherichia coli Nature Biotechnology 18, 1314 - 1317.

Rodriguez CI, Buchholz F, Galloway J, Sequerra R, Kasper J, Ayala R, Stewart AF, Dymecki SM. (2000) High-efficiency deleter mice show that FLPe is an alternative to Cre-loxP. Nat Genet. 25(2):139-40.

Testa, G. and Stewart A.F. (2000) Creating a transloxation: Interchromosomal translocations in mice EMBO Reports 1, 120-121.

Muyrers, J.P.P., Zhang, Y., Testa, G. and Stewart, A.F. (1999) Rapid modification of Bacterial Artificial Chromosomes by ET-recombination Nucleic Acids Res. 27, 1555-1557.

Angrand, P.-O., Daigle, N., van der Hoeven, F., Schoeler, H.R. and Stewart, A.F. (1999) Simplified generation of targeting constructs using ET recombination Nucleic Acids Res., 27, e16.

Narayanan K, Williamson R, Zhang Y, Stewart AF, Ioannou PA. (1999) Efficient and precise engineering of a 200 kb beta-globin human/bacterial artificial chromosome in E. coli DH10B using an inducible homologous recombination system. Gene Ther. 6(3):442-7.

Ringrose, L., Chabanis, S., Angrand, P.-O., Woodroofe, C. and Stewart, A.F. (1999) Quantitative comparison of DNA looping in vitro and in vivo: Chromatin increases effective DNA flexibility at short distances EMBO J., 23, 6630-6641.

Zhang, Y., Buchholz, F., Muyrers, J.P.P. and Stewart, A.F. (1998) A new logic for DNA engineering using recombination in E. coli Nature Genetics, 20, 123-128.

Schwenk, F., K?hn, R., Angrand, P.-O., Rajewsky, K. and Stewart A.F. (1998) Temporally and spatially regulated somatic mutagenesis in mice Nucleic Acids Res. 26, 1427-1432.

Angrand, P.-O., Woodroofe, C. W. and Stewart, A.F. (1998) Inducible transgene expression based on regulated recombination Nucleic Acids Res. 26, 3263-3269.

Ringrose, L.H., Lounas, V., Ehrlich, L., Buchholz, F., Wade, R. and Stewart, A.F. (1998) Comparative kinetic analysis of Flp and Cre recombinases: Mathematical models for DNA binding and recombination J. Mol. Biol. 284, 363-384.

Ringrose, L., Angrand, P.-O. and Stewart, A.F. (1997) The Kw recombinase, an integrase from Kluyveromyces waltii Eur. J. Biochem. 248, 903-912.

Buchholz, F., Angrand, P.-O. and Stewart, A.F. (1996) A simple assay to verify the functionality of Cre and FLP recombination targets in genomic manipulation constructs Nucleic Acids Res. 24, 3118-3119.

Buchholz, F., Ringrose, L., Angrand, P.-O., Rossi, F. and Stewart, A.F. (1996) Different thermostabilities of FLP and Cre recombinases: Implications for applied site specific recombination. Nucleic Acids Res. 24, 4256-4262.

Logie, C. and Stewart, A.F. (1995) Ligand-regulated site-specific recombination Proc. Natl. Acad. Sci. USA 92, 5940-5944.

Mullis K,Faloona F, Scharf S, Saiki R, Horn, G, Erlich, H. Specific enzymatic amplification of DNA in vitro: the polymerase chain reaction. Cold Spring Harb. Symp. Quant. Biol. 51 (1986) 263-273.

Cohen S.N, Chang A.C., Boyer, H.W, and Heiling , R.B. Construction of biologically functional bacterial plasmids in vitro. Proc. Natl. Acad. Sci. USA 70 (1973) 3240-3244.