ZFIN ID: ZDB-FISH-150901-26305
Fish name: sud12Tg/+
Genotype: sud12Tg/+
Targeting Reagent: none
HUMAN DISEASE MODELED by sud12Tg/+
No data available
GENE EXPRESSION
Gene expression in sud12Tg/+
RNA expression
Expressed Gene Structure Conditions Figures
atoh1a heat shock Fig. 6 with image from Nakayama et al., 2017
bmp2b heat shock Fig. 3Fig. 4 from Wang et al., 2017
dlx2a heat shock Fig. 3Fig. 4 from Wang et al., 2017
elavl3 heat shock Fig. 6 with image from Nakayama et al., 2017
emx3 heat shock Fig. 3Fig. 4 from Wang et al., 2017
epha4a heat shock Fig. 6 with image from Nakayama et al., 2017
fgf8a heat shock Fig. 3Fig. 4 from Wang et al., 2017
foxi1 heat shock Fig. 2 from Nakayama et al., 2017
gbx1 heat shock Fig. 4 from Wang et al., 2017
gbx2 heat shock Fig. 4 from Wang et al., 2017
her5 heat shock Fig. 2Fig. 3 with image from Nakayama et al., 2017
hesx1 heat shock Fig. 3 with image from Nakayama et al., 2017
hoxa3a heat shock Fig. 2 from Nakayama et al., 2017
hoxb5b heat shock Fig. 2 from Nakayama et al., 2017
hoxc6b heat shock Fig. 2 from Nakayama et al., 2017
klf2a heat shock Fig. 3 with image from Nakayama et al., 2017
lhx8a heat shock Fig. 2 from Nakayama et al., 2017
msi2b heat shock Fig. 2 from Nakayama et al., 2017
neurog1 heat shock Fig. 2Fig. 6 with image from Nakayama et al., 2017
otx1 heat shock Fig. 2Fig. 3 with image from Nakayama et al., 2017
otx2b heat shock Fig. 2Fig. 3 with image from Nakayama et al., 2017
Fig. 3Fig. 4 from Wang et al., 2017
pax6a heat shock Fig. 4 from Wang et al., 2017
pou3f2b heat shock Fig. 2 from Nakayama et al., 2017
pou5f3 heat shock Fig. 2Fig. 3 with image from Nakayama et al., 2017
rorab heat shock Fig. 6 with image from Nakayama et al., 2017
shha heat shock Fig. 3Fig. 4 from Wang et al., 2017
six3b heat shock Fig. 3Fig. 4 from Wang et al., 2017
slc6a3 heat shock Fig. 2 from Nakayama et al., 2017
wnt1 heat shock Fig. 3Fig. 4 from Wang et al., 2017
wnt3 heat shock Fig. 3Fig. 4 from Wang et al., 2017
wnt3a heat shock Fig. 4 from Wang et al., 2017
Protein expression No data available
Reporter gene expression No data available
PHENOTYPE
Phenotype in sud12Tg/+
Phenotype Conditions Figures
cerebellum epha4a expression mislocalised, abnormal heat shock Fig. 6 with image from Nakayama et al., 2017
cerebellum atoh1a expression mislocalised, abnormal heat shock Fig. 6 with image from Nakayama et al., 2017
diencephalon wnt3 expression decreased amount, abnormal heat shock Fig. 3 from Wang et al., 2017
diencephalon otx2b expression decreased amount, abnormal heat shock Fig. 3 from Wang et al., 2017
diencephalon wnt1 expression decreased amount, abnormal heat shock Fig. 3 from Wang et al., 2017
diencephalon six3b expression decreased amount, abnormal heat shock Fig. 3 from Wang et al., 2017
diencephalon shha expression increased amount, abnormal heat shock Fig. 3 from Wang et al., 2017
diencephalon dorsal region atoh1a expression mislocalised, abnormal heat shock Fig. 6 with image from Nakayama et al., 2017
forebrain neurog1 expression spatial pattern, abnormal heat shock Fig. 6 with image from Nakayama et al., 2017
forebrain neural rod klf2a expression decreased amount, abnormal heat shock Fig. 3 with image from Nakayama et al., 2017
forebrain neural rod otx1 expression decreased amount, abnormal heat shock Fig. 3 with image from Nakayama et al., 2017
forebrain neural rod otx2b expression decreased amount, abnormal heat shock Fig. 3 with image from Nakayama et al., 2017
forebrain neural rod hesx1 expression decreased amount, abnormal heat shock Fig. 3 with image from Nakayama et al., 2017
midbrain otx2b expression decreased amount, abnormal heat shock Fig. 3 from Wang et al., 2017
midbrain wnt3 expression decreased amount, abnormal heat shock Fig. 3 from Wang et al., 2017
midbrain wnt1 expression decreased amount, abnormal heat shock Fig. 3 from Wang et al., 2017
midbrain elavl3 expression mislocalised, abnormal heat shock Fig. 6 with image from Nakayama et al., 2017
midbrain neurog1 expression spatial pattern, abnormal heat shock Fig. 6 with image from Nakayama et al., 2017
midbrain hindbrain boundary wnt1 expression decreased amount, abnormal heat shock Fig. 3 from Wang et al., 2017
midbrain neural rod pou5f3 expression decreased amount, abnormal heat shock Fig. 3 with image from Nakayama et al., 2017
midbrain neural rod otx2b expression decreased amount, abnormal heat shock Fig. 3 with image from Nakayama et al., 2017
midbrain neural rod otx1 expression decreased amount, abnormal heat shock Fig. 3 with image from Nakayama et al., 2017
midbrain neural rod her5 expression decreased amount, abnormal heat shock Fig. 3 with image from Nakayama et al., 2017
optic tectum rorab expression decreased amount, abnormal heat shock Fig. 6 with image from Nakayama et al., 2017
optic tectum ventricular zone epha4a expression decreased amount, abnormal heat shock Fig. 6 with image from Nakayama et al., 2017
optic vesicle six3b expression decreased amount, abnormal heat shock Fig. 3 from Wang et al., 2017
optic vesicle bmp2b expression decreased amount, abnormal heat shock Fig. 3 from Wang et al., 2017
presumptive rhombomere 2 pou5f3 expression decreased amount, abnormal heat shock Fig. 3 with image from Nakayama et al., 2017
pretectum otx2b expression decreased amount, abnormal heat shock Fig. 3 from Wang et al., 2017
rhombomere 1 epha4a expression increased distribution, abnormal heat shock Fig. 6 with image from Nakayama et al., 2017
ventral telencephalon six3b expression decreased amount, abnormal heat shock Fig. 3 from Wang et al., 2017
ventral telencephalon dlx2a expression decreased amount, abnormal heat shock Fig. 3 from Wang et al., 2017
ventral thalamus dlx2a expression decreased amount, abnormal heat shock Fig. 3 from Wang et al., 2017
whole organism hoxb5b expression decreased amount, abnormal heat shock Fig. 2 from Nakayama et al., 2017
whole organism wnt1 expression decreased amount, abnormal heat shock Fig. 4 from Wang et al., 2017
whole organism msi2b expression decreased amount, abnormal heat shock Fig. 2 from Nakayama et al., 2017
whole organism emx3 expression decreased amount, abnormal heat shock Fig. 4 from Wang et al., 2017
whole organism six3b expression decreased amount, abnormal heat shock Fig. 4 from Wang et al., 2017
whole organism wnt3a expression decreased amount, abnormal heat shock Fig. 4 from Wang et al., 2017
whole organism otx2b expression decreased amount, abnormal heat shock Fig. 2 from Nakayama et al., 2017
whole organism pou5f3 expression decreased amount, abnormal heat shock Fig. 2 from Nakayama et al., 2017
whole organism gbx1 expression decreased amount, abnormal heat shock Fig. 4 from Wang et al., 2017
whole organism neurog1 expression decreased amount, abnormal heat shock Fig. 2 from Nakayama et al., 2017
whole organism otx2b expression decreased amount, abnormal heat shock Fig. 4 from Wang et al., 2017
whole organism foxi1 expression decreased amount, abnormal heat shock Fig. 2 from Nakayama et al., 2017
whole organism otx1 expression decreased amount, abnormal heat shock Fig. 2 from Nakayama et al., 2017
whole organism her5 expression decreased amount, abnormal heat shock Fig. 2 from Nakayama et al., 2017
whole organism slc6a3 expression increased amount, abnormal heat shock Fig. 2 from Nakayama et al., 2017
whole organism bmp2b expression increased amount, abnormal heat shock Fig. 4 from Wang et al., 2017
whole organism neurog1 expression increased amount, abnormal heat shock Fig. 2 from Nakayama et al., 2017
whole organism pou3f2b expression increased amount, abnormal heat shock Fig. 2 from Nakayama et al., 2017
whole organism lhx8a expression increased amount, abnormal heat shock Fig. 2 from Nakayama et al., 2017
whole organism dlx2a expression increased amount, abnormal heat shock Fig. 4 from Wang et al., 2017
whole organism msi2b expression increased amount, abnormal heat shock Fig. 2 from Nakayama et al., 2017
whole organism hoxc6b expression increased amount, abnormal heat shock Fig. 2 from Nakayama et al., 2017
whole organism shha expression increased amount, abnormal heat shock Fig. 4 from Wang et al., 2017
whole organism hoxa3a expression increased amount, abnormal heat shock Fig. 2 from Nakayama et al., 2017

CITATIONS  (4)