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Strain Species Genotype
VC41017 C. elegans Show Description
Million Mutation Project strain. This strain was isolated after EMS+ENU mutagenesis of VC2010, propagated clonally through F10 to drive mutations to homozygosity, and subjected to whole-genome sequencing. It is homozygous for a large number of mutations determined from sequence data. It may also carry large copy number variations that are not homozygous. Alleles numbered between gk100000 and gk962522 are homozygous; those numbered from gk962523 up should be assumed to be non-homozygous. A graphical representation of these large copy number differences can be seen in the Plot section for each strain on the MMP web site ( http://genome.sfu.ca/mmp/). 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 WBPaper00042537
VC41018 C. elegans Show Description
Million Mutation Project strain. This strain was isolated after EMS+ENU mutagenesis of VC2010, propagated clonally through F10 to drive mutations to homozygosity, and subjected to whole-genome sequencing. It is homozygous for a large number of mutations determined from sequence data. It may also carry large copy number variations that are not homozygous. Alleles numbered between gk100000 and gk962522 are homozygous; those numbered from gk962523 up should be assumed to be non-homozygous. A graphical representation of these large copy number differences can be seen in the Plot section for each strain on the MMP web site ( http://genome.sfu.ca/mmp/). 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 WBPaper00042537
VC41019 C. elegans Show Description
Million Mutation Project strain. This strain was isolated after EMS+ENU mutagenesis of VC2010, propagated clonally through F10 to drive mutations to homozygosity, and subjected to whole-genome sequencing. It is homozygous for a large number of mutations determined from sequence data. It may also carry large copy number variations that are not homozygous. Alleles numbered between gk100000 and gk962522 are homozygous; those numbered from gk962523 up should be assumed to be non-homozygous. A graphical representation of these large copy number differences can be seen in the Plot section for each strain on the MMP web site ( http://genome.sfu.ca/mmp/). 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 WBPaper00042537
VC41020 C. elegans Show Description
Million Mutation Project strain. This strain was isolated after EMS+ENU mutagenesis of VC2010, propagated clonally through F10 to drive mutations to homozygosity, and subjected to whole-genome sequencing. It is homozygous for a large number of mutations determined from sequence data. It may also carry large copy number variations that are not homozygous. Alleles numbered between gk100000 and gk962522 are homozygous; those numbered from gk962523 up should be assumed to be non-homozygous. A graphical representation of these large copy number differences can be seen in the Plot section for each strain on the MMP web site ( http://genome.sfu.ca/mmp/). 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 WBPaper00042537
VC41021 C. elegans Show Description
Million Mutation Project strain. This strain was isolated after EMS+ENU mutagenesis of VC2010, propagated clonally through F10 to drive mutations to homozygosity, and subjected to whole-genome sequencing. It is homozygous for a large number of mutations determined from sequence data. It may also carry large copy number variations that are not homozygous. Alleles numbered between gk100000 and gk962522 are homozygous; those numbered from gk962523 up should be assumed to be non-homozygous. A graphical representation of these large copy number differences can be seen in the Plot section for each strain on the MMP web site ( http://genome.sfu.ca/mmp/). 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 WBPaper00042537
VC41022 C. elegans Show Description
Million Mutation Project strain. This strain was isolated after EMS+ENU mutagenesis of VC2010, propagated clonally through F10 to drive mutations to homozygosity, and subjected to whole-genome sequencing. It is homozygous for a large number of mutations determined from sequence data. It may also carry large copy number variations that are not homozygous. Alleles numbered between gk100000 and gk962522 are homozygous; those numbered from gk962523 up should be assumed to be non-homozygous. A graphical representation of these large copy number differences can be seen in the Plot section for each strain on the MMP web site ( http://genome.sfu.ca/mmp/). 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 WBPaper00042537
VC41023 C. elegans Show Description
Million Mutation Project strain. This strain was isolated after EMS+ENU mutagenesis of VC2010, propagated clonally through F10 to drive mutations to homozygosity, and subjected to whole-genome sequencing. It is homozygous for a large number of mutations determined from sequence data. It may also carry large copy number variations that are not homozygous. Alleles numbered between gk100000 and gk962522 are homozygous; those numbered from gk962523 up should be assumed to be non-homozygous. A graphical representation of these large copy number differences can be seen in the Plot section for each strain on the MMP web site ( http://genome.sfu.ca/mmp/). 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 WBPaper00042537
VC41024 C. elegans Show Description
Million Mutation Project strain. This strain was isolated after EMS+ENU mutagenesis of VC2010, propagated clonally through F10 to drive mutations to homozygosity, and subjected to whole-genome sequencing. It is homozygous for a large number of mutations determined from sequence data. It may also carry large copy number variations that are not homozygous. Alleles numbered between gk100000 and gk962522 are homozygous; those numbered from gk962523 up should be assumed to be non-homozygous. A graphical representation of these large copy number differences can be seen in the Plot section for each strain on the MMP web site ( http://genome.sfu.ca/mmp/). 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 WBPaper00042537
VC41025 C. elegans Show Description
Million Mutation Project strain. This strain was isolated after EMS+ENU mutagenesis of VC2010, propagated clonally through F10 to drive mutations to homozygosity, and subjected to whole-genome sequencing. It is homozygous for a large number of mutations determined from sequence data. It may also carry large copy number variations that are not homozygous. Alleles numbered between gk100000 and gk962522 are homozygous; those numbered from gk962523 up should be assumed to be non-homozygous. A graphical representation of these large copy number differences can be seen in the Plot section for each strain on the MMP web site ( http://genome.sfu.ca/mmp/). 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 WBPaper00042537
VC41026 C. elegans Show Description
Million Mutation Project strain. This strain was isolated after EMS+ENU mutagenesis of VC2010, propagated clonally through F10 to drive mutations to homozygosity, and subjected to whole-genome sequencing. It is homozygous for a large number of mutations determined from sequence data. It may also carry large copy number variations that are not homozygous. Alleles numbered between gk100000 and gk962522 are homozygous; those numbered from gk962523 up should be assumed to be non-homozygous. A graphical representation of these large copy number differences can be seen in the Plot section for each strain on the MMP web site ( http://genome.sfu.ca/mmp/). 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 WBPaper00042537
VC41028 C. elegans Show Description
Million Mutation Project strain. This strain was isolated after EMS+ENU mutagenesis of VC2010, propagated clonally through F10 to drive mutations to homozygosity, and subjected to whole-genome sequencing. It is homozygous for a large number of mutations determined from sequence data. It may also carry large copy number variations that are not homozygous. Alleles numbered between gk100000 and gk962522 are homozygous; those numbered from gk962523 up should be assumed to be non-homozygous. A graphical representation of these large copy number differences can be seen in the Plot section for each strain on the MMP web site ( http://genome.sfu.ca/mmp/). 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 WBPaper00042537
VC41029 C. elegans Show Description
Million Mutation Project strain. This strain was isolated after EMS+ENU mutagenesis of VC2010, propagated clonally through F10 to drive mutations to homozygosity, and subjected to whole-genome sequencing. It is homozygous for a large number of mutations determined from sequence data. It may also carry large copy number variations that are not homozygous. Alleles numbered between gk100000 and gk962522 are homozygous; those numbered from gk962523 up should be assumed to be non-homozygous. A graphical representation of these large copy number differences can be seen in the Plot section for each strain on the MMP web site ( http://genome.sfu.ca/mmp/). 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 WBPaper00042537
VC41030 C. elegans Show Description
Million Mutation Project strain. This strain was isolated after EMS+ENU mutagenesis of VC2010, propagated clonally through F10 to drive mutations to homozygosity, and subjected to whole-genome sequencing. It is homozygous for a large number of mutations determined from sequence data. It may also carry large copy number variations that are not homozygous. Alleles numbered between gk100000 and gk962522 are homozygous; those numbered from gk962523 up should be assumed to be non-homozygous. A graphical representation of these large copy number differences can be seen in the Plot section for each strain on the MMP web site ( http://genome.sfu.ca/mmp/). 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 WBPaper00042537
VC41031 C. elegans Show Description
Million Mutation Project strain. This strain was isolated after EMS+ENU mutagenesis of VC2010, propagated clonally through F10 to drive mutations to homozygosity, and subjected to whole-genome sequencing. It is homozygous for a large number of mutations determined from sequence data. It may also carry large copy number variations that are not homozygous. Alleles numbered between gk100000 and gk962522 are homozygous; those numbered from gk962523 up should be assumed to be non-homozygous. A graphical representation of these large copy number differences can be seen in the Plot section for each strain on the MMP web site ( http://genome.sfu.ca/mmp/). 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 WBPaper00042537
VC41032 C. elegans Show Description
Million Mutation Project strain. This strain was isolated after EMS+ENU mutagenesis of VC2010, propagated clonally through F10 to drive mutations to homozygosity, and subjected to whole-genome sequencing. It is homozygous for a large number of mutations determined from sequence data. It may also carry large copy number variations that are not homozygous. Alleles numbered between gk100000 and gk962522 are homozygous; those numbered from gk962523 up should be assumed to be non-homozygous. A graphical representation of these large copy number differences can be seen in the Plot section for each strain on the MMP web site ( http://genome.sfu.ca/mmp/). 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 WBPaper00042537
VC41033 C. elegans Show Description
Million Mutation Project strain. This strain was isolated after EMS+ENU mutagenesis of VC2010, propagated clonally through F10 to drive mutations to homozygosity, and subjected to whole-genome sequencing. It is homozygous for a large number of mutations determined from sequence data. It may also carry large copy number variations that are not homozygous. Alleles numbered between gk100000 and gk962522 are homozygous; those numbered from gk962523 up should be assumed to be non-homozygous. A graphical representation of these large copy number differences can be seen in the Plot section for each strain on the MMP web site ( http://genome.sfu.ca/mmp/). 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 WBPaper00042537
VS21 C. elegans hjSi20 IV. Show Description
hjSi20 [myo-2p::mCherry::unc-54 3'UTR]. Targeting construct derived from pCFJ90. Single copy transgene by MosSCI, inserted into cxTi10882.
WBM1119 C. elegans wbmIs60 III. Show Description
wbmIs60 [pie-1p::3XFLAG::dpy-10 crRNA::unc-54 3'UTR] (III:7007600). Superficially wild-type. SKI LODGE system allows for CRISPR knock-in of single-copy transcripts downstream of a tissue-specific promoter. wbmIs60 can be used to direct germline-specific gene expression from the pie-1 promoter through CRISPR-mediated insertion of transcripts downstream of tissue-specific pie-1 promoter inserted as a single copy into the C. elegans genome. Reference: Silva-García CG, et al. G3 (Bethesda). 2019 Jul 9;9(7):2195-2198.
WBM1126 C. elegans wbmIs61 I. Show Description
wbmIs61 [myo-3p::3XFLAG::dpy-10 crRNA::unc-54 3'UTR] (I:2851000). Superficially wild-type. SKI LODGE system allows for CRISPR knock-in of single-copy transcripts downstream of a tissue-specific promoter. wbmIs61 can be used to direct muscle-specific gene expression from the myo-3 promoter through CRISPR-mediated insertion of transcripts downstream of tissue-specific myo-3 promoter inserted as a single copy into the C. elegans genome. Reference: Silva-García CG, et al. G3 (Bethesda). 2019 Jul 9;9(7):2195-2198.
WBM1133 C. elegans wbmIs63 I. Show Description
wbmIs63 [myo-3p::3XFLAG::wrmScarlet::unc-54 3'UTR *wbmIs61] (I:2851000). Superficially wild-type. SKI LODGE system allows for CRISPR knock-in of single-copy transcripts downstream of a tissue-specific promoter. wbmIs63 exhibits muscle-specific wrmScarlet expression driven the myo-3 promoter. Derived from parental strain WBM1126 by CRISPR-mediated insertion of wrmScarlet downstream of tissue-specific myo-3 promoter inserted as a single copy into the C. elegans genome (wbmIs61). Reference: Silva-García CG, et al. G3 (Bethesda). 2019 Jul 9;9(7):2195-2198.
WBM1140 C. elegans wbmIs65 V. Show Description
wbmIs65 [eft-3p::3XFLAG::dpy-10 crRNA::unc-54 3'UTR] (V:8645000). Superficially wild-type. SKI LODGE system allows for CRISPR knock-in of single-copy transcripts downstream of a tissue-specific promoter. wbmIs65 can be used to direct soma-specific gene expression from the eft-3 promoter through CRISPR-mediated insertion of transcripts downstream of tissue-specific eft-3 promoter inserted as a single copy into the C. elegans genome. Reference: Silva-García CG, et al. G3 (Bethesda). 2019 Jul 9;9(7):2195-2198.
WBM1141 C. elegans wbmIs66 IV. Show Description
wbmIs66 [rab-3p::3XFLAG::dpy-10 crRNA::rab-3 3'UTR] (IV:5015000). Superficially wild-type. SKI LODGE system allows for CRISPR knock-in of single-copy transcripts downstream of a tissue-specific promoter. wbmIs66 can be used to direct neuron-specific gene expression from the rab-3 promoter through CRISPR-mediated insertion of transcripts downstream of tissue-specific rab-3 promoter inserted as a single copy into the C. elegans genome. Reference: Silva-García CG, et al. G3 (Bethesda). 2019 Jul 9;9(7):2195-2198.
WBM1143 C. elegans wbmIs67 V. Show Description
wbmIs67 [eft-3p::3XFLAG::wrmScarlet::unc-54 3'UTR *wbmIs65] (V:8645000). Superficially wild-type. SKI LODGE system allows for CRISPR knock-in of single-copy transcripts downstream of a tissue-specific promoter. wbmIs67 exhibits soma-specific wrmScarlet expression driven the eft-3 promoter. Derived from parental strain WBM1140 by CRISPR-mediated insertion of wrmScarlet downstream of tissue-specific eft-3 promoter inserted as a single copy into the C. elegans genome (wbmIs65). Reference: Silva-García CG, et al. G3 (Bethesda). 2019 Jul 9;9(7):2195-2198.
WBM1144 C.elegans wbmIs68 IV. Show Description
wbmIs68 [rab-3p::3XFLAG::wrmScarlet::unc-54 3'UTR *wbmIs66] (IV:5015000). Superficially wild-type. SKI LODGE system allows for CRISPR knock-in of single-copy transcripts downstream of a tissue-specific promoter. wbmIs68 exhibits neuron-specific wrmScarlet expression driven the rab-3 promoter. Derived from parental strain WBM1141 by CRISPR-mediated insertion of wrmScarlet downstream of tissue-specific rab-3 promoter inserted as a single copy into the C. elegans genome (wbmIs66). Reference: Silva-García CG, et al. G3 (Bethesda). 2019 Jul 9;9(7):2195-2198.
WBM1153 C. elegans wbmIs72 III. Show Description
wbmIs72 [pie-1p::3XFLAG::GFP::unc-54 3'UTR *wbmIs60] (III:7007600). Superficially wild-type. SKI LODGE system allows for CRISPR knock-in of single-copy transcripts downstream of a tissue-specific promoter. wbmIs72 exhibits germline-specific GFP expression driven the pie-1 promoter. Derived from parental strain WBM1119 by CRISPR-mediated insertion of GFP downstream of tissue-specific pie-1 promoter inserted as a single copy into the C. elegans genome (wbmIs60). Reference: Silva-García CG, et al. G3 (Bethesda). 2019 Jul 9;9(7):2195-2198.
WBM1177 C. elegans wbmIs81. Show Description
wbmIs81 [eft-3p::3XFLAG::GFP::SKL::unc-54 3'UTR *wbmIs65] (V:8645000). Ubiquitous expression of peroxisome-targeted GFP. SKI LODGE system allows for CRISPR knock-in of single-copy transcripts downstream of a tissue-specific promoter. Derived from parental strain WBM1140 by CRISPR-mediated insertion of peroxisome-targeted GFP downstream of tissue-specific eft-3 promoter inserted as a single copy into the C. elegans genome (wbmIs65). Outcrossed six times to WBM lab stock of N2. Reference: Papsdorf K, et al. Nat Cell Biol. 2023 May;25(5):672-684. doi: 10.1038/s41556-023-01136-6. 2023. PMID 37127715.
WBM1179 C. elegans wbmIs76 IV. Show Description
wbmIs76 [eft-3p::3XFLAG::dpy-10 crRNA::unc-54 3'UTR] (IV:5015000). Superficially wild-type. SKI LODGE system allows for CRISPR knock-in of single-copy transcripts downstream of a tissue-specific promoter. wbmIs76 can be used to direct soma-specific gene expression from the eft-3 promoter through CRISPR-mediated insertion of transcripts downstream of tissue-specific eft-3 promoter inserted as a single copy into the C. elegans genome. Reference: Silva-García CG, et al. G3 (Bethesda). 2019 Jul 9;9(7):2195-2198.
WBM1214 C. elegans wbmIs88 V. Show Description
wbmIs88 [eft-3p::3XFLAG::dpy-10::SL2::wrmScarlet::unc-54 3'UTR, *wbmIs67]. (V:8645000). Superficially wild-type. SKI LODGE system allows for CRISPR knock-in of single-copy transcripts downstream of the soma-specific eft-3 promoter. wbmIs88 exhibits soma-specific dpy-10 and wrmScarlet expression driven the eft-3 promoter. Derived from parental strain WBM1143 by CRISPR-mediated modification of tissue-specific transgene. Reference: Silva-García CG, et al. G3 (Bethesda). 2019 Jul 9;9(7):2195-2198.
WBM1215 C. elegans wbmIs89 IV. Show Description
wbmIs89 [rab-3p::3xFLAG::dpy-10::SL2::wrmScarlet::rab-3 3'UTR, *wbmIs68] (IV:5015000). Superficially wild-type. SKI LODGE system allows for CRISPR knock-in of single-copy transcripts downstream of the neuron-specific rab-3 promoter. wbmIs68 exhibits neuron-specific dpy-10 and wrmScarlet expression driven the rab-3 promoter. Derived from parental strain WBM1144 by CRISPR-mediated modification of tissue-specific transgene. Reference: Silva-García CG, et al. G3 (Bethesda). 2019 Jul 9;9(7):2195-2198.
WBM1339 C. elegans wbmIs118 I. Show Description
wbmIs118 [myo-3p::3XFLAG::rpl-22::SL2::wrmScarlet::unc-54 3'UTR, *wbmIs114] I. N-terminal 3x flag tagged RPL-22 ribosomal subunit expressed in muscle. wrmScarlet expression in muscle. Can be used for Single-copy Knock-In Translating Ribosome Immunoprecipitation (SKI TRIP) experiments. Derived by modification of wbmIs114. Reference: Wester LE, et al. Cell Rep. Methods 2023 3, 100433. 10.1016/j.crmeth.2023.100433
WBM1340 C. elegans wbmIs99 IV. Show Description
wbmIs99 [rab-3p::3xFLAG::rpl-22::SL2::wrmScarlet::rab-3 3'UTR, *wbmIs89] IV. N-terminal 3x flag tagged RPL-22 ribosomal subunit expressed in the nervous system. wrmScarlet expression in nervous system. Can be used for Single-copy Knock-In Translating Ribosome Immunoprecipitation (SKI TRIP) experiments. Derived by modification of wbmIs89. Reference: Wester LE, et al. Cell Rep. Methods 2023 3, 100433. 10.1016/j.crmeth.2023.100433
WBM1344 C. elegans rpl-22(wbm58[3xFLAG::rpl-22]) II. Show Description
3xFlag tag inserted at N-temrinus of endogenous rpl-22 locus. Can be used for Single-copy Knock-In Translating Ribosome Immunoprecipitation (SKI TRIP) experiments.
WBM1364 C. elegans wbmIs119 V. Show Description
wbmIs119 [eft-3p::3XFLAG::rpl-22::SL2::wrmScarlet::unc-54 3'UTR, *wbmIs88] V. N-terminal 3x flag tagged RPL-22 ribosomal subunit expressed in soma. wrmScarlet expression in soma. Can be used for Single-copy Knock-In Translating Ribosome Immunoprecipitation (SKI TRIP) experiments. Derived by modification of wbmIs88. Reference: Wester LE, et al. Cell Rep. Methods 2023 3, 100433. 10.1016/j.crmeth.2023.100433
WBM1470 C. elegans wbmIs131 V. Show Description
wbmIs131 [nep-17p::3XFLAG::rpl-22::SL2::wrmScarlet::unc-54 3'UTR, *wbmIs119] V. N-terminal 3x flag tagged RPL-22 ribosomal subunit expressed in the intestine. wrmScarlet expression in the intestine. Can be used for Single-copy Knock-In Translating Ribosome Immunoprecipitation (SKI TRIP) experiments. Derived by modification of wbmIs119. Reference: Wester LE, et al. Cell Rep. Methods 2023 3, 100433. 10.1016/j.crmeth.2023.100433
WBM1471 C. elegans wbmIs133 V. Show Description
wbmIs133 [rab-3p::3XFLAG::rpl-22::SL2::scarlet::rab-3 3'UTR, *wbmIs127] (V:8645000). N-terminal 3x flag tagged RPL-22 ribosomal subunit expressed in the nervous system. wrmScarlet expression in nervous system. Can be used for Single-copy Knock-In Translating Ribosome Immunoprecipitation (SKI TRIP) experiments. Derived by modification of wbmIs127. Reference: Wester LE, et al. Cell Rep. Methods 2023 3, 100433. 10.1016/j.crmeth.2023.100433
WS1433 C. elegans hus-1(op241) I; unc-119(ed3) III; opIs34. Show Description
opIs34 [hus-1p::hus-1::GFP + unc-119(+)]. Low-copy integrated array of 1144 bp hus-1 promoter and genomic coding sequence fused to GFP. Nuclear expression of GFP in germ cells and embryos. Integrated GFP construct completely rescues DNA damage induced cell cycle arrest defect and partially rescues DNA damage induced apoptosis of hus-1(op241).
WS1973 C. elegans opIs56. Show Description
opIs56 [egl-1p::2xNLS::GFP]. opIs56 is a low copy integrant of 3 kb 5' sequence from egl-1 fused to 2xNLS GFP. unc-119(ed3) should be outcrossed. Low basal GFP expression in embryos, meiotic germ cells and several neurons. GFP expression can be induced by ionizing radiation in all germ cells. Best viewed with dissected gonads.
XW18042 C. elegans qxIs722 II. Show Description
qxIs722 [dpy-7p::dpy-7::SfGFP (single copy)]. qxIs722 is a single copy insertion into ttTi5605 via CRISPR/Cas9. DPY-7::SfGFP expression in cuticle over hyp7. Reference: Miao R, et al. Dev Cell. 2020 Jan 6;52(1):21-37.e5.
ZM9474 C elegans flp-14(gk1055) III; hpSi38. Show Description
hpSi38 [flp-14(+) + NeoR]. Superficially wild-type. Neomycin-resistant. hpSi38 is a single copy miniMos insertion a wild-type genomic fragment containing flp-14 and fully rescues the flp-14 mutant phenotype. Reference: Lim MA, et al. Elife. 2016 Nov 18;5:e19887. doi: 10.7554/eLife.19887. PMID: 27855782
ZM9519 C. elegans flp-14(gk1055) III; hpSi38; hpIs201. Show Description
hpSi38 [flp-14(+) + NeoR]. hpIs201[ceh-10p::GFP + lin-15(+)]. GFP expression in RID neuron. Neomycin-resistant. hpSi38 is a single copy miniMos insertion a wild-type genomic fragment containing flp-14 and fully rescues the flp-14 mutant behavioral defects and RID axon defects. Reference: Lim MA, et al. Elife. 2016 Nov 18;5:e19887. doi: 10.7554/eLife.19887. PMID: 27855782
ZT22 C. elegans fjSi1 II; csr-1(fj54) IV. Show Description
fjSi1 [2×FLAG::csr-1 + Cbr-unc-119(+)] II. Single-copy insertion in the MosSCI locus ttTi5605 (LG II). The 2×FLAG::csr-1 transgene was designed to express proteins with a double FLAG tag instead of the N169 of CSR-1a and N6 of CSR-1b. The linker sequence between the two FLAG tags has a NotI site. The insertion can be checked by PCR with the following primers: CACACTCGATTCTACGCCAA (at the 3'-side of csr-1) and ATCGGGAGGCGAACCTAACTG (near ttTi5605 on LG II). Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.
ZT24 C. elegans vsra-1(tm1637) I; fjSi3 II. Show Description
fjSi3 [HA_2×FLAG::C04F12.1 + Cbr-unc-119(+)] II. Single-copy insertion in the MosSCI locus ttTi5605 (LG II). The HA_2×FLAG::C04F12.1 transgene was designed to express a protein with an HA tag and a double FLAG tag inserted after S21 of C04F12.1. The linker sequence between the HA tag and the double FLAG tag has a NotI site. The insertion can be checked by PCR with the following primers: GGAGCCGATTTGTTCCAGTC (at the 3'-side of C04F12.1) and ATCGGGAGGCGAACCTAACTG (near ttTi5605 on LG II). vsra-1 is also known as csr-2/C04F12.1. Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.
ZT56 C. elegans fjSi19 II; unc-119(ed3) III. Show Description
fjSi19 [rpl-21p::2×HA::C04F12.1 + Cbr-unc-119(+)] II. Single-copy insertion in the MosSCI locus ttTi5605 (LG II). The 2×HA::C04F12.1 transgene was designed to express a protein with a double HA tag at its N-terminus, using a strong ubiquitous promoter (rpl-21p). The linker sequence between the two HA tags has a NotI site. The insertion can be checked by PCR with the following primers: GGAGCCGATTTGTTCCAGTC (at the 3'-side of C04F12.1) and ATCGGGAGGCGAACCTAACTG (near ttTi5605 on LG II). vsra-1 is also known as csr-2/C04F12.1. Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.