Gene Information: sep-1

Namesep-1 View on WormBase
Species C. elegans
SequenceY47G6A.12
Genetic positionI:-3.71 +/- 0.046 cM
Genomic positionI: 3433158..3438543

Strains carrying this gene

Strain Genotype Description
JK3447 fog-1(q250)/sep-1(e2406) I; fbf-1(ok91) fbf-2(q704)/mIn1 [mIs14 dpy-10(e128)] II. To maintain, check individual fertile worms for both Sep and Fog offspring. sep-1 homozygotes are sterile at 20C and 25C (Sterile and Unc at 25C), and mostly normal at 15C. fog-1; fbf-1 fbf-2 homozygotes have small germ lines and are often Muv. Best to maintain at 25C for scoring. Do not distribute this strain; other labs should request it from the CGC. This strain cannot be distributed to commercial organizations. This strain cannot be used for any commercial purpose or for work on human subjects.
KR423 sep-1(h108) dpy-5(e61) unc-13(e450) I; sDp2 (I;f). Animals with the duplication are Unc. Animals which have lost the duplication are DpyUncLet.
VC1279 sep-1(ok1749) I/hT2 [bli-4(e937) let-?(q782) qIs48] (I;III). ok1749. Homozygous sterile deletion chromosome balanced by bli-4- let-?- and GFP-marked translocation. Heterozygotes are WT with pharyngeal GFP signal, and segregate WT GFP, arrested hT2 aneuploids, and non-GFP ok1749 homozygotes (sterile Unc adult, often with mid-body constriction). Homozygous hT2[qIs48] inviable. Pick WT GFP and check for correct segregation of progeny to maintain. External left primer: GGCGTTTTGTACGTCGATTT. External right primer: TCGGATCCTACTCGCTCATT. Internal left primer: AATCGCTCCCAACAGAATTG. Internal right primer: TTATTTCAGTTCCCGGATCG. Internal WT amplicon: 2960 bp. Deletion size: 1234 bp. Deletion left flank: TTTCTCAACTTTCGGACGACGTCCGAACGG. Deletion right flank: GGAAATTGATACGTTATTTTTAAGAATGTG. Attribution: This strain was provided by the C. elegans Reverse Genetics Core Facility at the University of British Columbia, which is part of the international C. elegans Gene Knockout Consortium, which should be acknowledged in any publications resulting from its use. Paper_evidence WBPaper00041807
WH216 sep-1(e2406) I/hT2 [bli-4(e937) let-?(q782) qIs48] (I;III). Heterozygotes have myo-2::GFP [qIs48] strongly expressed in the pharynx and are viable at 25C. 100% of sep-1 homozygotes are strongly Sterile Unc at 25C (at 20C, 100% are Sterile but no so Unc). Up to 30% of the homozygotes are Sterile at 16C. hT2[qIs48] homozygotes are dead. Note: qIs48 has been observed to recombine off hT2, typically leaving behind a functional homozygous viable hT2 with Bli-4 phenotype.
WH408 sep-1(e2406) I/hT2 [bli-4(e937) let-?(q782) qIs48] (I;III). Homozygous embryonic lethal mutation balanced by bli-4- and GFP-marked translocation. Maintain at 15 C. Heterozygotes are WT with pharyngeal GFP signal, and segregate WT GFP, arrested hT2 aneuploids, and non-GFP e2406 homozygotes (embryonic arrest). Homozygous hT2[bli-4 let-? qIs48] inviable. Pick WT GFP and check for correct segregation of progeny to maintain. Reference: Bembenek J, et al. Curr Biol (2010) Feb 9;20(3):259-64.
WH468 sep-1(e2406) I/hT2 (I;III); ruIs32 III/hT2 [bli-4(e937) let-?(q782) qIs48] (I;III). ruIs32 [pie-1p::GFP::H2B + unc-119(+)] III. Homozygous embryonic lethal mutation balanced by bli-4- and GFP-marked translocation. Maintain at 15 C. Heterozygotes are WT with pharyngeal GFP signal, and segregate WT GFP, arrested hT2 aneuploids, and non-GFP e2406 homozygotes (embryonic arrest). Homozygous hT2 [bli-4 let-? qIs48] inviable. Pick WT GFP and check for correct segregation of progeny to maintain. Reference: Bembenek J, et al. Curr Biol (2010) Feb 9;20(3):259-64.
WH485 sep-1(e2406) I/hT2 (I;III); ojIs58 III/hT2 [bli-4(e937) let-?(q782) qIs48] (I;III). ojIs58 [pie-1p::sep-1::GFP + unc-119(+)] III. Homozygous embryonic lethal mutation balanced by bli-4- and GFP-marked translocation. Maintain at 15 C. Heterozygotes are WT with pharyngeal GFP signal, and segregate WT GFP, arrested hT2 aneuploids, and non-GFP e2406 homozygotes (embryonic arrest). Homozygous hT2[bli-4 let-? qIs48] inviable. Pick WT GFP and check for correct segregation of progeny to maintain. Reference: Bembenek J, et al. Curr Biol (2010) Feb 9;20(3):259-64.