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Current issues in mouse genome engineering

被引:123
作者
Glaser, S [1 ]
Anastassiadis, K [1 ]
Stewart, AF [1 ]
机构
[1] Tech Univ Dresden, Bioinnovat Zentrum, D-01307 Dresden, Germany
来源
NATURE GENETICS | 2005年 / 37卷 / 11期
关键词
D O I
10.1038/ng1668
中图分类号
Q3 [遗传学];
学科分类号
071007 ; 090102 ;
摘要
The mouse is the foremost vertebrate experimental model because its genome can be precisely and variously engineered. Now that the mouse genome has been sequenced and annotated, the task of mutating each gene is feasible, and an international cooperation is providing mutated embryonic stem cells and mice as readily available resources. Because these resources will change biomedical research, decisions about their nature will have far-reaching effects. It is therefore timely to consider topical issues for mouse genome engineering, such as the background genotype; homologous, site-specific and transpositional recombination; conditional mutagenesis; RNA-mediated interference; and functional genomics with embryonic stem cells.
引用
收藏
页码:1187 / 1193
页数:7
相关论文
共 75 条
[1]   Mutagenic insertion and chromosome engineering resource (MICER) [J].
Adams, DJ ;
Biggs, PJ ;
Cox, T ;
Davies, R ;
van der Weyden, L ;
Jonkers, J ;
Smith, J ;
Plumb, B ;
Taylor, R ;
Nishijima, I ;
Yu, YJ ;
Rogers, J ;
Bradley, A .
NATURE GENETICS, 2004, 36 (08) :867-871
[2]   SITE-SPECIFIC INTEGRATION OF DNA INTO WILD-TYPE AND MUTANT LOX SITES PLACED IN THE PLANT GENOME [J].
ALBERT, H ;
DALE, EC ;
LEE, E ;
OW, DW .
PLANT JOURNAL, 1995, 7 (04) :649-659
[3]   The knockout mouse project [J].
Austin, CP ;
Battey, JF ;
Bradley, A ;
Bucan, M ;
Capecchi, M ;
Collins, FS ;
Dove, WF ;
Duyk, G ;
Dymecki, S ;
Eppig, JT ;
Grieder, FB ;
Heintz, N ;
Hicks, G ;
Insel, TR ;
Joyner, A ;
Koller, BH ;
Lloyd, KCK ;
Magnuson, T ;
Moore, MW ;
Nagy, A ;
Pollock, JD ;
Roses, AD ;
Sands, AT ;
Seed, B ;
Skarnes, WC ;
Snoddy, J ;
Soriano, P ;
Stewart, DJ ;
Stewart, F ;
Stillman, B ;
Varmus, H ;
Varticovski, L ;
Verma, IM ;
Vogt, TF ;
von Melchner, H ;
Witkowski, J ;
Woychik, RP ;
Wurst, W ;
Yancopoulos, GD ;
Young, SG ;
Zambrowicz, B .
NATURE GENETICS, 2004, 36 (09) :921-924
[4]   The European dimension for the mouse genome mutagenesis program [J].
Auwerx, J ;
Avner, P ;
Baldock, R ;
Ballabio, A ;
Balling, R ;
Barbacid, M ;
Berns, A ;
Bradley, A ;
Brown, S ;
Carmeliet, P ;
Chambon, P ;
Cox, R ;
Davidson, D ;
Davies, K ;
Duboule, D ;
Forejt, J ;
Granucci, F ;
Hastie, N ;
de Angelis, MH ;
Jackson, I ;
Kioussis, D ;
Kollias, G ;
Lathrop, M ;
Lendahl, U ;
Malumbres, M ;
von Melchner, H ;
Müller, W ;
Partanen, J ;
Ricciardi-Castagnoli, P ;
Rigby, P ;
Rosen, B ;
Rosenthal, N ;
Skarnes, B ;
Stewart, AF ;
Thornton, J ;
Tocchini-Valentini, G ;
Wagner, E ;
Wahli, W ;
Wurst, W .
NATURE GENETICS, 2004, 36 (09) :925-927
[5]   Coping with kinetic and thermodynamic barriers: RMCE, an efficient strategy for the targeted integration of transgenes [J].
Baer, A ;
Bode, J .
CURRENT OPINION IN BIOTECHNOLOGY, 2001, 12 (05) :473-480
[6]   Site-specific cassette exchange and germline transmission with mouse ES cells expressing φC31 integrase [J].
Belteki, G ;
Gertsenstein, M ;
Ow, DW ;
Nagy, A .
NATURE BIOTECHNOLOGY, 2003, 21 (03) :321-324
[7]   A large-scale RNAi screen in human cells identifies new components of the p53 pathway [J].
Berns, K ;
Hijmans, EM ;
Mullenders, J ;
Brummelkamp, TR ;
Velds, A ;
Heimerikx, M ;
Kerkhoven, RM ;
Madiredjo, M ;
Nijkamp, W ;
Weigelt, B ;
Agami, R ;
Ge, W ;
Cavet, G ;
Linsley, PS ;
Beijersbergen, RL ;
Bernards, R .
NATURE, 2004, 428 (6981) :431-437
[8]   Transposons reanimated in mice [J].
Bestor, TH .
CELL, 2005, 122 (03) :322-325
[9]   Talking about a revolution: The impact of site-specific recombinases on genetic analyses in mice [J].
Branda, CS ;
Dymecki, SM .
DEVELOPMENTAL CELL, 2004, 6 (01) :7-28
[10]   Genesis of embryonic stem cells [J].
Buehr, M ;
Smith, A .
PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES, 2003, 358 (1436) :1397-1402
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