important Flashcards
1
Q
what organisms can be modified via “insertion mutagenesis
A
- plants (plasmid)
- worm (TE)
- fruitfly (TE)
- zebrafish (TE and retrovirus)
- mice (retrovirus in ES cells
2
Q
what organisms can be modified via “homologous recombination”
A
- yeast (KO, KI)
- fruitfly
- mice (cKO ES cells)
3
Q
what organisms can be modified via CRISPR
A
- yeast
- plant
- worm
- fruitfly
- zebrafish
- xenopus
- mice
4
Q
what organisms can be modified via “Inducible systems
A
- yeast (cre-LoxP, Tet on/off)
- plant (cre-LoxP, Tet on/off, FLP-FRT, UAS-GAL4, UAS-EART2-GAL4
- worm (Cre-LoxP, FLP-FRT)
- fruitfly (UAS-Gal4, FLP-FRT)
- zebrafish (UAS-EART2-GAL4)
- xenopus (Tet on/off)
- mice (Cre-LoxP, ERT2-Cre-LoxP, Tet on/off)
5
Q
what organisms can be modified via “RNAi”
A
- plant
- worm (feeding library)
- fruitfly (UAS-RNAi)
- mice (theoretical)
6
Q
how can yeast be modified
A
- HR (KO, KI)
- CRISPR
- Inducible systems (Cre-LoxP, Tet on/off)
7
Q
how can plants be modified
A
- insertion mutagenisis (plasmid)
- CRISPR
- inducible system (5 systems)
- RNAi
8
Q
how can worms be modified
A
- insertion mutagenesis (TE)
- HR (theoretical)
- CRISPR
- inducible systems (Cre-LoxP, FLP-FRT (theoretical))
- RNAi (feeding library)
9
Q
how can fruitflies be modified
A
- insertion mutagenesis (TE)
- HR
- CRISPR
- inducible systems (UAS-Gal4,FLP-FRT)
- RNAi (UAS-RNAi
10
Q
how can zebrafish be modified
A
- insertion mutations (TE, retrovirus)
- CRISPR
- Inducible systems (UAS-ERT2-GAL4)
11
Q
how can xenopus be modified
A
- insertion mutagenesis (theoretical)
- CRISPR
- inducible systems (Tet on/off)
12
Q
how can mice be modified
A
- insertion mutagenesis (retrovirus in ES cells)
- HR (cKO ES cells)
- CRISPR
- inducible systems (Cre-LoxP, ERT2-Cre-LoxP, Tet on/off)
- RNAi (theoretical)
