CB101 |
unc-9(e101) X. |
Unc. |
CW129 |
unc-9(fc16) X. |
|
FH85 |
unc-9(ec27) X. |
Unc. Males are fertile. |
FX30186 |
tmC24 [F23D12.4(tmIs1233) unc-9(tm9718)] X. |
Break points: In(mec-10 Y7A5A.20 In(odr-7 F59F4.2)) X. Covered region (Mb) 7.4 (8.5..15.8) Balancer marked with myo-2p::mCherry. Unc Mec. Reference: Dejima K, et al. Cell Rep. 2018 Jan 2;22(1):232-241. |
FX30194 |
tmC24 [F23D12.4(tmIs1240) unc-9(tm9719)] X. |
Break points: In(mec-10 Y7A5A.20 In(odr-7 F59F4.2)) X. Covered region (Mb) 7.4 (8.5..15.8) Balancer marked with myo-2p::Venus. Unc Mec. Reference: Dejima K, et al. Cell Rep. 2018 Jan 2;22(1):232-241. |
FX30237 |
tmC24 [unc-9(tm9723)] X. |
Break points: In(mec-10 Y7A5A.20 In(odr-7 F59F4.2)) X. Covered region (Mb) 7.4 (8.5..15.8) Unc Mec. Reference: Dejima K, et al. Cell Rep. 2018 Jan 2;22(1):232-241. |
FX30252 |
tmC24 [F23D12.4(tmIs1240) unc-9(tm9719)] X; tmEx4950. |
tmIs1240 [myo-2p::Venus, X: F23D12.4] X. tmEx4950 [unc-9(+) + vha-6p::GFP]. Pick non-Unc with bright GFP+ in gut to maintain array. Balancer marked with myo-2p::Venus. Mec (Unc). Balancer break points: In(mec-10 Y7A5A.20 In(odr-7 F59F4.2)) X. Covered region (Mb) 7.4 (8.5..15.8) Males carrying the array (intestinal GFP) can mate. Reference: Dejima K, et al. Cell Rep. 2018 Jan 2;22(1):232-241. |
FX30253 |
tmC24 [F23D12.4(tmIs1233) unc-9(tm9718)] X; tmEx4950. |
tmIs1233 [myo-2p::mCherry, X: F23D12.4] X. tmEx4950 [unc-9(+) + vha-6p::GFP]. Pick non-Unc with bright GFP+ in gut to maintain array. Balancer marked with myo-2p::mCherry. Mec (Unc). Balancer break points: In(mec-10 Y7A5A.20 In(odr-7 F59F4.2)) X. Covered region (Mb) 7.4 (8.5..15.8) Males carrying the array (intestinal GFP) can mate. Reference: Dejima K, et al. Cell Rep. 2018 Jan 2;22(1):232-241. |
GR3055 |
suox-1(mg663)/tmC24 [F23D12.4(tmIs1240) unc-9(tm9719)] X |
Larval lethal mutation balanced by tmC24 [F23D12.4(tmIs1240) unc-9(tm9719)]. Balancer marked with myo-2p::Venus. Maintain by picking non-Unc GFP+ animals. Heterozygotes are wild-type GFP+ and segregate wild-type GFP+ heterozygotes, non-GFP mg663 homozygotes (lethal), and Unc GFP+ (homozygous tmC24). Reference: Warnhoff K & Ruvkun G. Nat Chem Biol. 2019 Mar 25. doi: 10.1038/s41589-019-0249-y. |
HH29 |
unc-9(hs6) X. |
Cold sensitive Unc. |
HH31 |
unc-9(hs7) X. |
Cold sensitive Unc. |
HH35 |
unc-9(hs8) X. |
Cold sensitive Unc. |
MLC613 |
unc-9(luc30) X. |
luc30 removes mir-791/mir-790 binding sites in the unc-9 3'UTR. Reference: Drexel T, et al. Genes Dev. 2016 Sep 15;30(18):2042-2047. |
MT2764 |
unc-9(e101) lin-15B&lin-15A(n765) X. |
Temperature-sensitive Lin. |
MT4578 |
lin-1(e1275) dpy-13(e184) IV; unc-9(e101) X. |
Temperature sensitive Muv. Semi-dominant Dpy. Unc-moves backward better than forward; slight kinker in forward movement; larvae more severly Unc. |
SP15 |
unc-9(e101) unc-3(e151) X. |
|
SP928 |
dpy-6(e14) unc-9(e101) X. |
DpyUnc. |
SV411 |
heDf1 maIs103/lon-2(e678) unc-9(e101) X. |
maIs103[rnr::GFP unc-36(+)] X. The heDf1 deletion includes cdk-4. Heterozygotes produce 1/4 thin, sterile, uncoordinated animals that fail to undergo postembryonic somatic cell divisions. heDf1 mutants are of L1 size, smaller than cdk-4 mutants. lon-2 and unc-9 do not exactly balance heDf1, but unc-9 is pretty close. It should also be possible to follow the heterozygotes by looking at the GFP. Despite trying, unable to separate the maIs integration from heDf1 or the other cdk-4 alleles. By maintaining animals with GFP (visible especially in early animals and in eggs) you should be able to maintain heDf1. rnr::GFP is expressed during S-phase in heterozygous animals. rnr::GFP expression is not detected in heDf1 animals. maIs103 is tightly linked to heDf1. Maintain by picking several single animals and scoring for 1/4 mutant progeny. |
TY1909 |
yDp4/+ (X;A); kynu-1(e1003) unc-9(e101) X. |
Animals heterozygous for yDp4 are Dpy non-Flu non-Unc. Animals which have lost yDp4 are FluUnc. Animals homozygous for yDp4 are dead (embryonic lethal). Low percentage of non-Dpy non-Unc progeny. These give a high percentage of Unc male self-progeny and are inferred to be yDp4 XO hermaphrodites. |
TY1910 |
yDp5 (X;A); lon-2(e678) unc-9(e101) X. |
Lon non-Unc hermaphrodite strain. yDp5 is homozygous viable. yDp5/+ XO animals are fertile males. |
TY1911 |
yDp6 (X;A); lon-2(e678) unc-9(e101) X. |
Lon non-Unc hermaphrodites. yDp6 is homozygous viable. yDp6/+ XO animals are fertile males. |
TY1912 |
yDp7/+ (X;A); lon-2(e678) unc-9(e101) X. |
Animals heterozygous for yDp7 are Lon non-Unc. Animals which have lost yDp7 are LonUnc. Animals homozygous for yDp7 are Dpy and sick hermaphrodites. yDp7/+ XO males are Dpy and infertile. yDp7 attached to an autosome. |
TY1913 |
yDp8/+ (X;A); lon-2(e678) unc-9(e101) X. |
Animals heterozygous for yDp8 are Lon non-Unc hermaphrodites. Animals which have lost yDp8 are LonUnc. Animals homozygous for yDp8 are Dpy and sick hermaphrodites. yDp8/+ XO males are Dpy and infertile. |
TY1914 |
yDp9 (X;A); lon-2(e678) unc-9(e101) X. |
Lon non-Unc hermaphrodite strain. yDp9 is homozygous viable. yDp9/+ XO animals are fertile males. |
TY1915 |
yDp10/+ (X;A); lon-2(e678) unc-9(e101) X. |
Animals heterozygous for yDp10 are Lon non-Unc hermaphrodites. Animals which have lost yDp10 are LonUnc. Animals homozygous for yDp10 are Dpy and sick hermaphrodites. yDp10/+ XO animals are Dpy and infertile males. |
TY1916 |
yDp11 (X;IV); lon-2(e678) unc-9(e101) X. |
Lon non-Unc hermaphrodite strain. yDp11 is homozygous viable. yDp11/+ XO animals are fertile males. |
TY1917 |
lon-2(e678) unc-9(e101) X; yDp12 (X;f). |
Free duplication. Animals with yDp12 are Lon non-Unc hermaphrodites. Animals which have lost yDp12 are LonUnc. yDp12/+ XO animals are fertile males. |
ZM3087 |
unc-9(fc16) unc-7(e5) X. |
Kinkers. References: Yeh E, et al. J Neurosci. 2009 Apr 22;29(16):5207-17. Kawano T, et al. Neuron. 2011 Nov 17;72(4):572-86. |