Search Strains

No apparent phenotype. The chromodomain protein CEC-8 is phylogenetically similar to CEC-5 and CEC-4. fj63 is a 14-bp deletion located in the region of the gene corresponding to the N-terminus of CEC-8 (Y55B1BR.3). The fj63 deletion can be detected by PCR with the following primers: GCTGTATAATACTCACTATGTC and TCCAGCTCTGTAACCTTGAA. Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.

Maintain at 20C or lower. cec-8; cec-4 cec-5 triple mutants exhibit partial sterility and no significant defects in chromosome segregation. The chromodomain proteins CEC-5, CEC-4, and CEC-8 are phylogenetically similar to each other. The deletions can be detected by PCR with the following primers: cec-8(fj63): GCTGTATAATACTCACTATGTC and TCCAGCTCTGTAACCTTGAA; cec-4(ok3124): CAATTAAAATGCCAGTGCGA and TTTAGGATGCATTATGGGGC; cec-5(fj58): GCAAAGAAATCATCCGGTAGTG and CTTTGTAGCAACAGGCTCCTC. Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.

Maintain at 20C or lower. Him. The cec-8; cec-4 cec-5 him-8 quadruple mutant exhibits partial sterility. The intensity of histone H3K9me2 on meiotic chromosomes is reduced. The deletions can be detected by PCR with the following primers: cec-8(fj63): GCTGTATAATACTCACTATGTC and TCCAGCTCTGTAACCTTGAA; cec-4(ok3124): CAATTAAAATGCCAGTGCGA and TTTAGGATGCATTATGGGGC; cec-5(fj58): GCAAAGAAATCATCCGGTAGTG and CTTTGTAGCAACAGGCTCCTC. Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.

Heterozygotes are WT and GFP+ and segregate WT GFP+ heterozygotes, non-GFP ego-1 homozygotes (sterile with inaccurate homologous pairing of meiotic chromosomes), very rare GFP+ homozygous hT2, and dead eggs. Maintain by picking wild-type GFP+. Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.

Heterozygotes are wild-type with pharyngeal GFP signal, and segregate WT GFP, arrested nT1[qIs51] aneuploids, and non-GFP csr-1(fj67) homozygotes (sterile, but some animals lay a small number of dead eggs). Homozygous nT1[qIs51] inviable. Pick WT GFP and check for correct segregation of progeny to maintain. Intracellular localization of CSR-1 is abnormal in the csr-1(fj67) homozygotes. fj67 is a 60-bp in-frame deletion of the first lysine-rich region (KQKDNFILLDILLKQWAAKK) in CSR-1. The first lysine-rich region in the WT has a FokI site. The deletion can be checked by PCR with the following primers: CACCTGTGATTTTTCGGGGAAC and TGGATTCCTTTTGCTGCAACAG, followed by digestion with FokI. Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.

Heterozygotes are wild-type with pharyngeal GFP signal, and segregate WT GFP, arrested nT1[qIs51] aneuploids, and non-GFP csr-1(fj70) homozygotes (sterile, but some animals lay a small number of dead eggs). Homozygous nT1[qIs51] inviable. Pick WT GFP and check for correct segregation of progeny to maintain. fj70 is a D769L mutation that renders CSR-1 (an Argonaute protein) catalytically defective and generates a new SphI site. The fj70 mutation can be checked by PCR with the following primers: TACACGTGGATGATGAGAAG and TCGTCCGAAACTTCCTCATC, followed by digestion with SphI. Homozygous nT1[qIs51] inviable. Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.

Four amino-acid residues (G24–V27) near the N-terminus of EGO-1 were replaced with a PA-tag sequence (GVAMPGAEDDVV derived from human podoplanin) in the endogenous ego-1 gene. The PA-tag insertion can be checked by PCR with the following primers: TTCAAAATGCCGCTGCCTTC and GTCCTCTTCGCATCTTTATCAG, followed by digestion with Sau96I. The wild-type ego-1 gene contains a Sau96I site within its PCR region, while the PA-tagged ego-1 does not. This strain was used for immunofluorescence analysis of EGO-1. Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.

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.

Heterozygotes are wild-type with pharyngeal GFP signal, and segregate WT GFP, arrested nT1[qIs51] aneuploids, and non-GFP csr-1(fj126) homozygotes (sterile, but some animals lay a small number of dead eggs). Homozygous nT1[qIs51] inviable. Pick WT GFP and check for correct segregation of progeny to maintain. fj126 was generated by the insertion of a synthetic nuclear export signal (NES). Instead of six amino-acid residues (R8–I13) near the N-terminus of CSR-1b, an NES sequence (LNELALKLAGLDI) from the cAMP-dependent protein kinase inhibitor alpha in mammals was inserted into the endogenous csr-1 gene. The DNA sequence encoding the NES has a HindIII site. The fj126 mutation can be checked by PCR with the following primers: AAGAAATACCAATGCGGAGGCA and CCGCTGAGGAACGAGATGG, followed by digestion with HindIII. Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.

CeRep55 quadruple deletion: fjDf1 (also known as fj115); fjDf2 (aka fj85); fjDf3 (aka fj123); fjDf4 (aka fj120) X. This strain lacks four major clusters of CeRep55 repeats on the X chromosome. The condensation of unpaired X chromosomes in male testes is insufficient. CeRep55 is a class of minisatellite sequences consisting of a 27-nt tandem repeat that is present on all chromosomes. Some CeRep55 clusters express long non-coding RNAs and small RNAs. Each of the four deletion sites was designed to acquire a sequence tag (TGTACAGGAAACAGCTATGACC; similar to M13 reverse) instead of the CeRep55 tandem repeats. The deletions of CeRep55 clusters can be checked by PCR with the following primers: fjDf1 in Y73B3A, AGTAGTTACAAAGCGATATACGAAC and TTCGCCGACTCATAGACATCTG; fjDf2 in Y75D11A, CAAGTGCCAAACTAGACTGCTC and TTCAAAACGCTACGCGATACCAG; fjDf3 in Y81B9A, AAATGCCCCTATCTCACAGTGG and GACTGCTAGAATCTGACTCGTC; fjDf4 in Y49A10A, CTCTTCCATTTCCAGTACAACCAG and GTTTCTATGGCTAGAGTCGTATGGTTAC. The PCR check can also be performed with the M13 reverse primer and the right-side primer. Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.

Sterile csr-1 allele balanced over tmC5 labelled with Venus. Heterozygotes are wild-type with somewhat dimmer Venus signal and segregate WT Venus(+) heterozygotes, Mec Unc Venus(+) tmC5 homozygotes, and non-Venus csr-1(fj54) homozygotes (sterile, but some animals lay a small number of dead eggs). Pick wild-type Venus(+) and check for proper segregation of progeny to maintain. Homologous pairing and unpaired silencing of meiotic chromosomes are inaccurate in this csr-1 null-mutant homozygotes. The fj54 deletion causes a frame-shift to stop the translation of both PAZ and Piwi domains. The deletion can be checked by PCR with the following primers: AAGAAATACCAATGCGGAGGCA and TTCACGGCTCTTTGCAGTTTCA. The inversion-based balancer in ZT60 is more amenable to producing csr-1(fj54) homozygous males than a translocation-based balancer (ZT3). Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.

Sterile csr-1 allele balanced over tmC5 labelled with Venus. Heterozygotes are wild-type with somewhat dimmer Venus signal and segregate WT Venus(+) heterozygotes, Mec Unc Venus(+) tmC5 homozygotes, and non-Venus csr-1(fj54) homozygotes (sterile, but some animals lay a small number of dead eggs). Pick wild-type Venus(+) and check for proper segregation of progeny to maintain. Homologous pairing and unpaired silencing of meiotic chromosomes are inaccurate in homozygous tm1637; fj54 double mutants. The vsra-1 mutation enhances the defects caused by the csr-1 mutation. The fj54 deletion causes a frame-shift to stop the translation of both PAZ and Piwi domains. tm1637 can be detected by PCR with the following primers: AAGCAGTTCTTCAAGACTGGTC and TTGTCCACTCGCACTTTGTG. The fj54 deletion can be checked by PCR with the following primers: AAGAAATACCAATGCGGAGGCA and TTCACGGCTCTTTGCAGTTTCA. 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.

RNAi deficient (Rde). Him. Partially-inaccurate paring of meiotic chromosomes. fj150 is a mutation changing WK to FS and generating a new FspI site in the second K-rich region between the PAZ and Piwi domains. The fj150 mutation can be detected by PCR with the following primers: TCGGATGTTGACTACAACGC and GAAGGTAGAAACTTCATTCCAGCAC, followed by digestion with FspI. Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.

fj150 is a mutation changing WK to FS and generating a new FspI site in the second K-rich region between the PAZ and Piwi domains. fj150 is enhanced by the CeRep55 quadruple deletion. The fj150 mutation can be detected by PCR with the following primers: TCGGATGTTGACTACAACGC and GAAGGTAGAAACTTCATTCCAGCAC, followed by digestion with FspI. This strain lacks four major clusters of CeRep55 repeats on the X chromosome. The condensation of unpaired X chromosomes in male testes is insufficient. CeRep55 is a class of minisatellite sequences consisting of a 27-nt tandem repeat that is present on all chromosomes. Some CeRep55 clusters express long non-coding RNAs and small RNAs. Each of the four deletion sites was designed to acquire a sequence tag (TGTACAGGAAACAGCTATGACC; similar to M13 reverse) instead of the CeRep55 tandem repeats. The deletions of CeRep55 clusters can be checked by PCR with the following primers: fjDf1 in Y73B3A, AGTAGTTACAAAGCGATATACGAAC and TTCGCCGACTCATAGACATCTG; fjDf2 in Y75D11A, CAAGTGCCAAACTAGACTGCTC and TTCAAAACGCTACGCGATACCAG; fjDf3 in Y81B9A, AAATGCCCCTATCTCACAGTGG and GACTGCTAGAATCTGACTCGTC; fjDf4 in Y49A10A, CTCTTCCATTTCCAGTACAACCAG and GTTTCTATGGCTAGAGTCGTATGGTTAC. The PCR check can also be performed with the M13 reverse primer and the right-side primer. Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.

The CeRep55_X quadruple-deletion mutant does not exhibit a clear Him phenotype, but the Him phenotype of the him-1(e879) mutant is enhanced by the CeRep55_X quadruple deletions. CeRep55 quadruple deletion: fjDf1 (also known as fj115); fjDf2 (aka fj85); fjDf3 (aka fj123); fjDf4 (aka fj120) X. This strain lacks four major clusters of CeRep55 repeats on the X chromosome. The condensation of unpaired X chromosomes in male testes is insufficient. CeRep55 is a class of minisatellite sequences consisting of a 27-nt tandem repeat that is present on all chromosomes. Some CeRep55 clusters express long non-coding RNAs and small RNAs. Each of the four deletion sites was designed to acquire a sequence tag (TGTACAGGAAACAGCTATGACC; similar to M13 reverse) instead of the CeRep55 tandem repeats. The deletions of CeRep55 clusters can be checked by PCR with the following primers: fjDf1 in Y73B3A, AGTAGTTACAAAGCGATATACGAAC and TTCGCCGACTCATAGACATCTG; fjDf2 in Y75D11A, CAAGTGCCAAACTAGACTGCTC and TTCAAAACGCTACGCGATACCAG; fjDf3 in Y81B9A, AAATGCCCCTATCTCACAGTGG and GACTGCTAGAATCTGACTCGTC; fjDf4 in Y49A10A, CTCTTCCATTTCCAGTACAACCAG and GTTTCTATGGCTAGAGTCGTATGGTTAC. The PCR check can also be performed with the M13 reverse primer and the right-side primer. The e879 mutation can be checked by PCR with the following primers: AAATCAGGAGTGGGCATCAG and GGGAAGATTCCGATGAGTGA, followed by digestion with MvaI. The wild-type him-1 gene contains an MvaI site within its PCR region, while the e879 allele does not. Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.

RNAi deficient (Rde). High incidence of males (Him). fj162 at the second K-rich region is an in-frame duplication (comprising of a small duplication and a tiny inverted duplication) generating 61 extra amino acids. The fj162 mutation can be checked by PCR with the following primers: TCGGATGTTGACTACAACGC and GAAGGTAGAAACTTCATTCCAGCAC.

fj162 at the second K-rich region is an in-frame duplication (comprising of a small duplication and a tiny inverted duplication) generating 61 extra amino acids. The CeRep55_X quadruple-deletion mutant does not exhibit a clear Him phenotype, but the Him phenotype of the csr-1(fj162) mutant is enhanced by the CeRep55_X quadruple deletions. The fj162 mutation can be checked by PCR with the following primers: TCGGATGTTGACTACAACGC and GAAGGTAGAAACTTCATTCCAGCAC. This strain lacks four major clusters of CeRep55 repeats on the X chromosome. The condensation of unpaired X chromosomes in male testes is insufficient. CeRep55 is a class of minisatellite sequences consisting of a 27-nt tandem repeat that is present on all chromosomes. Some CeRep55 clusters express long non-coding RNAs and small RNAs. Each of the four deletion sites was designed to acquire a sequence tag (TGTACAGGAAACAGCTATGACC; similar to M13 reverse) instead of the CeRep55 tandem repeats. The deletions of CeRep55 clusters can be checked by PCR with the following primers: fjDf1 in Y73B3A, AGTAGTTACAAAGCGATATACGAAC and TTCGCCGACTCATAGACATCTG; fjDf2 in Y75D11A, CAAGTGCCAAACTAGACTGCTC and TTCAAAACGCTACGCGATACCAG; fjDf3 in Y81B9A, AAATGCCCCTATCTCACAGTGG and GACTGCTAGAATCTGACTCGTC; fjDf4 in Y49A10A, CTCTTCCATTTCCAGTACAACCAG and GTTTCTATGGCTAGAGTCGTATGGTTAC. The PCR check can also be performed with the M13 reverse primer and the right-side primer. Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.

This strain carries a dpy-5 mutation to facilitate genome modification in CeRep55 quadruple deletion background: fjDf1 (also known as fj115); fjDf2 (aka fj85); fjDf3 (aka fj123); fjDf4 (aka fj120) X. This strain lacks four major clusters of CeRep55 repeats on the X chromosome. The condensation of unpaired X chromosomes in male testes is insufficient. CeRep55 is a class of minisatellite sequences consisting of a 27-nt tandem repeat that is present on all chromosomes. Some CeRep55 clusters express long non-coding RNAs and small RNAs. Each of the four deletion sites was designed to acquire a sequence tag (TGTACAGGAAACAGCTATGACC; similar to M13 reverse) instead of the CeRep55 tandem repeats. The deletions of CeRep55 clusters can be checked by PCR with the following primers: fjDf1 in Y73B3A, AGTAGTTACAAAGCGATATACGAAC and TTCGCCGACTCATAGACATCTG; fjDf2 in Y75D11A, CAAGTGCCAAACTAGACTGCTC and TTCAAAACGCTACGCGATACCAG; fjDf3 in Y81B9A, AAATGCCCCTATCTCACAGTGG and GACTGCTAGAATCTGACTCGTC; fjDf4 in Y49A10A, CTCTTCCATTTCCAGTACAACCAG and GTTTCTATGGCTAGAGTCGTATGGTTAC. The PCR check can also be performed with the M13 reverse primer and the right-side primer. Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.

Pick wild-type Venus+ animals to maintain. coh-4(tm1857) coh-3(gk112) homozygotes exhibit defects in synaptonemal complex formation on meiotic chromosomes. Many of the progeny from coh-4 coh-3 homozygotes exhibit embryonic lethality, likely due to aneuploidy, but only a few progeny hatch and exhibit the Him phenotype. The coh-3 and coh-4 genes encode nearly identical meiosis-specific kleisins. The deletion mutations can be checked by PCR with the following primers: coh-4(tm1857): TACGCGGCACACATGGGTCT and CAATTCCCCCTAGACATACGATTC; coh-3(gk112): CTCGCAGCGATCGAGCAAGC and AACTGAACATGAGAGCCACGAAG. tmC16 homozygotes are Unc Venus(+). [NOTE: ZT73 with the inversion-based balancer is more amenable to producing coh-4 coh-3 homozygous mutant males than TY5120 with a translocation-based balancer.] Reference: Tabara H, et al. (2023) A small RNA system ensures accurate homologous pairing and unpaired silencing of meiotic chromosomes. EMBO J, e105002.

czIs110 [mex-5p::GFP::KDEL::pie-1 3’UTR + unc-119(+)]. GFP::KDEL is a marker of the luminal ER in the embryo. Reference: Lee et al., J Cell Biol. 2016 Sep 12;214(6):665-76.

zwIs132 [myo-3p::GCamp2 + lin-15(+)]. Transgenic animals are GFP+ in body wall muscle. Maintain under normal conditions. Reference: Liu P, et al. J Physiol. 2011 Jan 1;589(Pt 1):101-17.

zxIs12 [F49H12.4P::ChR2(H134R)::mCherry + F49H12.4P::GFP]. Strain expresses Channelrhodopsin-2 (ChR2(H134R)::mCherry) and GFP (as marker) in PVD and AQR, as well as in a non-identified tail neuron, using the F49H12.4 promoter. When grown in the presence of all-trans retinal and illuminated with blue light, animals show strong forward locomotion escape behavior, which can be quantified using locomotion video tracking. The strain can be used to analyze function of PVD cells, and to estimate the role of specific genes in the function of this polymodal nociceptor, downstream of depolarization via ChR2. All-trans retinal needs to be added with OP50 bacteria when seeding plates to render ChR2 functional. References: Husson S, et al. Curr Biol. 2012 May 8;22(9):743-52. Smith CJ, et al. Neuron. 2013 Jul 24;79(2):266-80. Cohen E, et al. Molecular and Cellular Neuroscience 2104 59C: 85-96.

zxIs12 [F49H12.4P::ChR2(H134R)::mCherry + F49H12.4P::GFP]. Strain expresses Channelrhodopsin-2 (ChR2(H134R)::mCherry) and GFP (as marker) in PVD and AQR, as well as in a non-identified tail neuron, using the F49H12.4 promoter (see also ZX679). When grown in the presence of all-trans retinal and illuminated with blue light, animals show strong forward locomotion escape behavior, which can be quantified using locomotion video tracking. The strain can be used to analyze function of PVD cells, and to estimate the role of specific genes in the function of this polymodal nociceptor, downstream of depolarization via ChR2. All-trans retinal needs to be added with OP50 bacteria when seeding plates to render ChR2 functional. This strain is in lite-1(ce314) background, which eliminates the photophobic behavioral response that will be startled by blue light when longer light stimuli are used (>1s). To not confuse the photophobic behavior induced by LITE-1, with the PVD evoked escape behavior, this strain is needed for experiments with prolonged photostimulation. References: Husson S, et al. Curr Biol. 2012 May 8;22(9):743-52. Smith CJ, et al. Neuron. 2013 Jul 24;79(2):266-80. Cohen E, et al. Molecular and Cellular Neuroscience 2104 59C: 85-96.

zzyIs139 [his-72p::PH(PLC1delta1)::mCherry::pie-1 3' UTR + unc-119(+)] II. The membrane-specific PH(PLC1delta1) domain, labeled with mCherry, is expressed in all cell membranes.

zzyIs139 [his-72p::PH(PLC1delta1)::mCherry::pie-1 3' UTR + unc-119(+)] II. zuIs178 [his-72(1kb 5' UTR)::his-72::SRPVAT::GFP::his-72 (1KB 3' UTR) + 5.7 kb XbaI - HindIII unc-119(+)]. stIs10024 [pie-1::H2B::GFP::pie-1 3' UTR + unc-119(+)]. The membrane-specific PH(PLC1delta1) domain, labeled with mCherry, is expressed in all cell membranes. Derived by crossing parental strains carrying unc-119(ed3) and unc-119(tm4063). Unknown if either unc-119 mutation is still present in background. Reference: Cao J, et al. Nat Commun. 2020 Dec 7;11(1):6254. doi: 10.1038/s41467-020-19863-x. PMID: 33288755.

daf-d. Strong heterochronic phenotypes in seam, somatic gonad, intestine. Class I allele. Occasional abnormal dauers under exhausted conditions.

Weak heterochronic phenotypes in seam, intestine, somatic gonad. Class V allele.

dhIs26 [daf-12a::GFP + lin-15(+)]. DAF-12::GFP localized primarily in nucleus, except during mitosis. Expressed widely in most cells including tissues modified for dauer formation or by stage from embryo to adult, but most elevated and widespread during L2.

daf-d. Weak heterochronic phenotypes in seam, somatic gonad and intestine. Class III allele.

daf-d. Strong heterochronic phenotypes in seam, somatic gonad, intestine. Class I allele.

Precocious fusion of seam cells one stage earlier (prior to L3 molt); impenetrant gonadal migration defects; SynMig on daf-12 RNAi.

daf-d. Strong heterochronic phenotypes in seam, somatic gonad, intestine. Class I allele.

daf-d. Strong heterochronic phenotypes in seam and intestine. Weak heterochronic phenotypes in somatic gonad. Class II allele.

Strong heterochronic phenotypes in seam, somatic gonad, and intestine. Weakly daf-c at 15C. Class IV allele.

Daf-d, weak heterochronic phenotypes in seam, somatic gonad, intestine. Class III allele.

Daf-c, gonadal Mig, weak heterochronic phenotypes in intestine and seam. Class VI allele.

Strong heterochronic phenotypes in seam, somatic gonad, and intestine. Heterochronic phenotypes less penetrant at 15C. Weakly daf-c at 25C. Class IV allele.

daf-c. Gonadal Mig. Weak heterochronic phenotypes in intestine. Class VI allele.

staEx1 [T20F7.6p + pha-1(+)]. Empty vector control strain. Maintain at 25 degrees. Superficially wild-type. Reference: Greer EL et al Curr Biol 2007 Oct 9;17(19):1646-56.

staEx4 [T20F7.6p(R81Q)::T20F7.6 + pha-1(+)]. Constitutively active T20f7.6 promoter construct (CA3). Maintain at 25 degrees. Superficially wild-type with increased lifespan and stress resistance. Reference: Greer EL et al Curr Biol 2007 Oct 9;17(19):1646-56.

staIs1 [pie-1p::GFP + unc-119(+)]. Superficially wild-type. Maintain under normal conditions. Reference: This strain was used as the empty vector control in Greer EL et al Nature 2010 doi: 10.1038/nature09195.

Superficially wild-type. Suppresses of aph-1(zu147). Reference: Hale VA, et al. Genetics. 2012 Mar; 190(3): 1043-1057.

Derived by outcrossing parental strain RB2429 six times to N2, followed by recombining flanking chromosome to the right and left by recombining on, and then off rol-4(sc8) and unc-76(e911). Reference: Hale VA, et al. Genetics. 2012 Mar; 190(3): 1043-1057.

Heterozygous. Homozygous lethal deletion chromosome balanced by bli-4- and GFP-marked translocation. Heterozygotes are WT with pharyngeal GFP signal, and segregate WT GFP, arrested hT2 aneuploids, and non-GFP tm4743 homozygotes (Egl, Mel, adult-onset sterility). Homozygous hT2[bli-4 let-? qIs48] inviable. Pick WT GFP and check for correct segregation of progeny to maintain. Only heterozygous animals should propagate. aph-1(tm4743) deletion allele was generated by the National BioResource Project of Japan, part of the International C. elegans Gene Knockout Consortium. Reference: Brinkley DM, et al. Genetics. 2024 Jul 8;227(3):iyae076. doi: 10.1093/genetics/iyae076. PMID: 38717968.

Heterozygous. Homozygous lethal deletion chromosome balanced by bli-4- and GFP-marked translocation. Heterozygotes are WT with pharyngeal GFP signal, and segregate WT GFP, arrested hT2 aneuploids, and non-GFP tm4743 homozygotes (Egl, Mel, but do not display adult-onset sterility). Homozygous hT2[bli-4 let-? qIs48] inviable. Pick WT GFP and check for correct segregation of progeny to maintain. Only heterozygous animals should propagate. aph-2(tm6471) deletion allele was generated by the National BioResource Project of Japan, part of the International C. elegans Gene Knockout Consortium. Reference: Brinkley DM, et al. Genetics. 2024 Jul 8;227(3):iyae076. doi: 10.1093/genetics/iyae076. PMID: 38717968.

asEx95 [T22B11.1(genomic) + myo-3p::GFP]. Pick GFP+ animals to maintain. as39 is a non-conditional allele of spe-51. Mutant hermaphrodites and males are severely subfertile due to a sperm defect. The extrachromosomal array asEx95 effectively rescues the fertility defect. Him. Reference: Mei X, et al. Curr Biol. 2023 Jul 3;S0960-9822(23)00780-7. doi: 10.1016/j.cub.2023.06.029. PMID: 37453427.

asEx98 [spe-21(+) + myo-3::GFP]. Pick GFP+ animals to maintain. syb(4299) is a non-conditional allele of spe-21. Mutant hermaphrodites and males are severly subfertile. Array carries a fragment (PCR product) of R13F6.5 containing a wild-type copy spe-21(+). spe-21/R13F6.5 formerly known as dhhc-5. The extrachromosomal array effectively rescues the fertility defect. Reference: Suryanarayanan S, et al. bioRxiv 2025.03.03.641263; doi: https://doi.org/10.1101/2025.03.03.641263.

mNeonGreen tag inserted at the C-terminus of the endogenous spe-21 locus by CRISPR. Expression in the membranous organelles of sperm. Reference: Suryanarayanan S, et al. bioRxiv 2025.03.03.641263; doi: https://doi.org/10.1101/2025.03.03.641263.

wrmScarlet-I tag inserted into endogenous spe-38 locus. Him. wrmScarlet-I expression labels membranous organelles (MOs) in the sperm. Reference: Zuo Y, et al. Biomolecules. 2023; 13(4):623. https://doi.org/10.3390/biom13040623

See WBG 7(1) 48. Isolated from soil in Ahmedabad, India. Previously called C. briggsae G16. For whole-genome sequence-verified wild strains, please request from the Caenorhabditis Natural Diversity Resource (www.caendr.org).