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Strain Species Genotype
CB1487 C. elegans xpf-1(e1487) II. Show Description
Recessive. M-MATING++++ >30%WT.
RB2245 C. elegans C47D12.8(ok3039) II. Show Description
C47D12.8 Homozygous. Outer Left Sequence: ctcaacgccttccaagactc. Outer Right Sequence: caggatcccataaaggctca. Inner Left Sequence: tttgtaccgcgaaaagaagc. Inner Right Sequence: tgaaaatggcgagaaaaacc. Inner Primer PCR Length: 1181. Deletion size: about 400 bp. Attribution: This strain was provided by the C. elegans Gene Knockout Project at the Oklahoma Medical Research Foundation, which was part of the International C. elegans Gene Knockout Consortium, which should be acknowledged in any publications resulting from its use. Paper_evidence WBPaper00041807
TG1660 C. elegans xpf-1(tm2842) II. Show Description
Reference: Agostinho A, et al. PLos Genetics 2013.
BC14006 C. elegans dpy-5(e907) I; sEx14006. Show Description
sEx14006 [rCesC47D12.8::GFP + pCeh361]. Maintain by picking WT. WT animals are GFP+. Strain construction supported by Genome British Columbia and Genome Canada. Please acknowledge McKay et al, Cold Spring Harbor Symposia on Quantitative Biology 68: 159-169 2004 (WBPaper00006525).
SP119 C. elegans xpf-1(e1487) II; dpy-11(e224) V. Show Description
Dpy. Throws males.
GE2001 C. elegans xpf-1(e1487) II; unc-24(e138) IV/nT1(IV;V); dpy-11(e224) ccz-1(t2070) V/nT1 (IV;V). Show Description
Him. Wild-type heterozygotes segregate WT heterozygotes and Dpy Unc ccz-1 homozygotes (produce only arrested embryos). ccz-1 embryos have spindle orientation defects, accumulate vesicles, and problems engulfing apoptotic corpses. Reference: Nieto C, et al. J Cell Sci. 2010 Jun 15;123(Pt 12):2001-7.
GE2516 C. elegans xpf-1(e1487) II; unc-24(e138) IV/nT1(IV;V); dpy-11(e224) ccz-1(t2071) V/nT1 (IV;V). Show Description
Him. Wild-type heterozygotes segregate WT heterozygotes and Dpy Unc ccz-1 homozygotes (produce only arrested embryos). ccz-1 embryos have spindle orientation defects, accumulate vesicles, and problems engulfing apoptotic corpses. Reference: Nieto C, et al. J Cell Sci. 2010 Jun 15;123(Pt 12):2001-7.
TG1890 C. elegans mus-81(tm1937) I/hT2 [bli-4(e937) let-?(q782) qIs48] (I;III); xpf-1(tm2842) II. Show Description
Segregates WT GFP+ heterozygotes, non-GFP mus-81; xpf-1 double homozygotes, very rare GFP+ homozygous hT2, and dead eggs. Maintain by picking wild-type GFP+ to retain balanced strain: 15-25% of mus-81; xpf-1 double homozygotes are viable. unc-119(ed3) has likely been lost through outcrossing, but could still be present in the background. Reference: Agostinho A, et al. PLos Genetics 2013.
TG1891 C. elegans slx-1(tm2644) I/hT2 [bli-4(e937) let-?(q782) qIs48] (I;III); xpf-1(tm2842) II. Show Description
Segregates WT GFP+ heterozygotes, non-GFP slx-1; xpf-1 double homozygotes, very rare GFP+ homozygous hT2, and dead eggs. Maintain by picking wild-type GFP+ to retain balanced strain: 15-25% of slx-1 xpf-1 double homozygotes are viable. Reference: Agostinho A, et al. PLos Genetics 2013.
TG2452 C. elegans mus-81(tm1937) I/hT2 [bli-4(e937) let-?(q782) qIs48] (I;III); xpf-1(tm2842) II; gtIs2512. Show Description
gtIs2512 [pie-1p::his-11::GFP + unc-119(+)]. Segregates WT GFP+ heterozygotes, non-GFP mus-81; xpf-1 double homozygotes, very rare GFP+ homozygous hT2, and dead eggs. Maintain by picking wild-type GFP+ to retain balanced strain: 15-25% of mus-81; xpf-1 double homozygotes are viable. unc-119(ed3) has likely been lost through outcrossing, but could still be present in the background. Reference: Agostinho A, et al. PLos Genetics 2013.
TG2454 C. elegans slx-1(tm2644) I/hT2 [bli-4(e937) let-?(q782) qIs48] (I;III); xpf-1(tm2842) II; gtIs2512. Show Description
gtIs2512 [pie-1p::his-11::GFP + unc-119(+)]. Segregates WT GFP+ heterozygotes, non-GFP slx-1; xpf-1 double homozygotes, very rare GFP+ homozygous hT2, and dead eggs. Maintain by picking wild-type GFP+ to retain balanced strain: 15-25% of slx-1; xpf-1 double homozygotes are viable. unc-119(ed3) has likely been lost through outcrossing, but could still be present in the background. Reference: Agostinho A, et al. PLos Genetics 2013.