CB404 |
C. elegans |
unc-53(e404) II. Show Description
Unc-cannot back. Males abnormal. Bursae abnormal. M-MATING-NO SUCCESS.
|
|
CB4567 |
C. elegans |
unc-53(e2432) II. Show Description
Unc-cannot back. Egl. Males abnormal. Multiple defects in neuronal outgrowth and branching, also defects in excretory canal extension and in sex muscles migration.
|
|
MT152 |
C. elegans |
unc-53(n152) II. Show Description
Unc-cannot back. Egl. Males abnormal. Multiple defects in neuronal outgrowth and branching, also defects in excretory canal extension and in sex muscles migration. See also WBPaper00005353.
|
|
RB2073 |
C. elegans |
unc-53(ok2736) II. Show Description
ok2736. Homozygous. Outer Left Sequence: TTCCACAATCGAATGAACCA. Outer Right Sequence: TCAATTTCCGGATCTCAAGG. Inner Left Sequence: TCACGGGATCCATCGACA. Inner Right Sequence: AGCAAGAGCTCAAAGAACGC. Inner Primer PCR Length: 1282 bp. Deletion Size: 301 bp. Deletion left flank: TGCGGCACCGTGCATGAACATTCGGATTGT. Deletion right flank: GAGTTGCAGCCAGAGGATCGTTTCGAAGAT. 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
|
|
DG1255 |
C. elegans |
unc-53(e404) sqt-1(e1350) II. Show Description
e1350 is a recessive Dpy, dominant Roller. Unc.
|
|
MT1580 |
C. elegans |
dpy-10(e128) unc-53(n569) II. Show Description
Dpy. Egl.
|
|
VC2036 |
C. elegans |
unc-53(gk3156) II; gkDf26 V; hlh-19(gk1069) X. Show Description
T04H1.1, F45E10.1, F57C12.3, T04H1.3, T04H1.2. The gk1069 allele was identified by PCR and validated by CGH, and can be detected with PCR using the following primers. External left primer: AAGGAACCTGCGGGATAACT. External right primer: CTTCCAGTAGGCAGTCAGGC. Internal left primer: CTGCTCCTCTTCCACGAGAC. Internal right primer: CCTTGTGTCCGAGTCCTCAT. Internal WT amplicon: 2234 bp. Deletion size: 716 bp. Deletion left flank: AATTGGTTTTTTTGATAAAGTTTGATTAGT. Deletion right flank: TTTCCAATATTTCATCAATTATTTGAACGC. Other lesions identified by CGH. 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
|
|
ST30 |
C. elegans |
spon-1(nc30) ncIs2/dpy-10(e128) unc-53(n569) II. Show Description
ncIs2 [pH20::GFP + pBlueScript]. Heterozygotes are WT and segregate WT, DpyUnc, and animals with muscle attachment defects and ventral cord displacement and detachment which arrest in larval development. Not well balanced. Neurons visualized with ncIs2.
|
|
ST13 |
C. elegans |
klf-3(nc13)/dpy-10(e128) unc-53(n569) II; him-8(e1489) IV. Show Description
Heterozygotes are WT and segregate WT, Dpy Uncs, and animals with muscle attachment defects and ventral cord displacement and detachment. Not well balanced. klf-3 was formerly known as mua-1.
|
|
AY191 |
C elegans |
acEx191. Show Description
acEx191 [odr-2p::CZ::ced-3(p17)::unc-54 3UTR+ unc-53p::ced-3(p15)::NZ::unc-54 3UTR + rol-6(su1006)]. Pick Rollers to maintain. PVP is ablated in animals carrying the array by employing a two-component system reconstituted caspase (recCaspase) using the odr-2 and unc-53 promoters. Strain viable at all temperatures. Reference Otarigho, B. and Aballay, A., 202. Cell reports, 35(8). PMID: 34038721.
|
|
NC2913 |
C. elegans |
hdIs1 X; ufIs26. Show Description
hdIs1 [unc-53p::GFP + rol-6(su1006)] X. ufIs26 [unc-4p::mCherry + lin-15(+)]. Rollers. DA neurons marked with unc-4::mCherry and unc-53::GFP. unc-53::GFP expression in DAs is dim during L1. Can be used to isolate DA neurons by FACS. Used by CeNGEN project for RNA-Seq (https://www.cengen.org/).
|
|
OH12389 |
C. elegans |
mab-9(ot788) II; hdIs1 X. Show Description
hdIs1 [unc-53p::GFP + rol-6(su1006)] X. Rollers. De-repression of ectopic effector genes in DA/DB class motor neurons. Reference: Kerk SY, et al. Neuron 2017 (in press).
|
|