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Strain Species Genotype
GS10037 C. elegans arSi159 [rps-27p::GFP(flexon)::H2B::unc-54 3'UTR + Cbr-unc-119(+)] II; unc-119(ed3) III. Show Description
arSi159 [rps-27p::GFP(flexon)::H2B::unc-54 3'UTR + Cbr-unc-119(+)] II. Inserted into ttTi5605 (II). The first intron of GFP was replaced with a Flexon containing two loxP sites. GFP::H2B is expressed at a high level in lineages where Cre is expressed with a second transgene. Flexon contains two loxP sites. Reference: Wittes J & Greenwald I. (2024). New Flexon-based reagents for tissue-specific Auxin-Inducible Degradation and for characterizing Cre and Flp drivers in C. elegans. microPublication Biology. 10.17912/micropub.biology.001315.
GS9402 C. elegans arTi362 [rps-27p::TIR1(lox2272-flexon-lox2272)::unc-54 3'UTR + HygroR] V. Show Description
arTi362 [rps-27p::TIR1(lox2272-flexon-lox2272)::unc-54 3'UTR + HygroR] V (-19.98). The first intron of TIR1 was replaced with a Flexon containing two lox2272 sites. TIR1 is expressed at a high level in lineages where Cre is expressed. Reference: Wittes J & Greenwald I. (2024). New Flexon-based reagents for tissue-specific Auxin-Inducible Degradation and for characterizing Cre and Flp drivers in C. elegans. microPublication Biology. 10.17912/micropub.biology.001315.
GS9407 C. elegans arTi361 [rps-27p::GFP(lox2272-flexon-lox2272)::H2B::unc-54 3'UTR + NeoR] I. Show Description
arTi361 [rps-27p::GFP(lox2272-flexon-lox2272)::H2B::unc-54 3'UTR + NeoR] I (-12.74). First intron of GFP is replaced with a Flexon containing two lox2272 sites. GFP::H2B is expressed at a high level in lineages where Cre is expressed with a second transgene. Transgene maps to -12.74 (I). Reference: Wittes J & Greenwald I. (2024). New Flexon-based reagents for tissue-specific Auxin-Inducible Degradation and for characterizing Cre and Flp drivers in C. elegans. microPublication Biology.
GS9801 C. elegans rde-1(ar660) V. Show Description
rde-1(ar660)[rde-1(lox2272-flexon-lox2272)]. 9th intron of rde-1 replaced with a flexon - an artificial exon flanked by artificial introns that each contain a lox2272 site (a flexon). Severely reduces rde-1 function, function can be restored upon excision of the flexon by Cre recombinase. Reference: Shaffer JM & Greenwald I. Proc Natl Acad Sci U S A. 2022 Jan 18;119(3):e2117451119. doi: 10.1073/pnas.2117451119. PMID: 35027456.
GS9820 C. elegans arTi443 [rps-27p::TIR1(F79G)(lox2272-flexon-lox2272)::unc-54 3'UTR + HygroR] V. Show Description
arTi443 [rps-27p::TIR1(F79G)(lox2272-flexon-lox2272)::unc-54 3'UTR + HygroR] V (+21.99). The first intron of TIR1(F79G) was replaced with a Flexon containing two lox2272 sites. TIR1(F79G) is expressed at a high level in lineages where Cre is expressed with a second transgene. Reference: Wittes J & Greenwald I. (2024). New Flexon-based reagents for tissue-specific Auxin-Inducible Degradation and for characterizing Cre and Flp drivers in C. elegans. microPublication Biology. 10.17912/micropub.biology.001315.
GS9847 C. elegans arTi452 [rps-27p::GFP(LoxP-flexon-LoxP)::H2B::unc-54 3'UTR + NeoR] I. Show Description
arTi452 [rps-27p::GFP(LoxP-flexon-LoxP)::H2B::unc-54 3'UTR + NeoR] I (-4.81). First intron of GFP is replaced with a Flexon containing two loxP sites. GFP::H2B is expressed at a high level in lineages where Cre is expressed with a second transgene. Reference: Wittes J & Greenwald I. (2024). New Flexon-based reagents for tissue-specific Auxin-Inducible Degradation and for characterizing Cre and Flp drivers in C. elegans. microPublication Biology. 10.17912/micropub.biology.001315.
GS9922 C. elegans arTi461 [rps-27p::GFP(FRT-flexon-FRT)::H2B::unc-54 3'UTR + NeoR] I. Show Description
arTi461 [rps-27p::GFP(FRT-flexon-FRT)::H2B::unc-54 3'UTR + NeoR] I (-3.80). The first intron of GFP was replaced with a Flexon containing two FRT sites. GFP::H2B is expressed at a high level in lineages where Flp recombiase is expressed with a second transgene. Flexon contains two FRT sites. Reference: Wittes J & Greenwald I. (2024). New Flexon-based reagents for tissue-specific Auxin-Inducible Degradation and for characterizing Cre and Flp drivers in C. elegans. microPublication Biology. 10.17912/micropub.biology.001315.