ZFIN ID: ZDB-FISH-150901-26590
Fish name: kca3Tg/+; kca4Tg/+
Genotype: kca3Tg/+; kca4Tg/+
Targeting Reagent: none
HUMAN DISEASE MODELED by kca3Tg/+; kca4Tg/+
No data available
GENE EXPRESSION
Gene expression in kca3Tg/+; kca4Tg/+
RNA expression
Expressed Gene Structure Conditions Figures
atoh1b heat shock Fig. 6 with image from Millimaki et al., 2007
atp6v0cb heat shock Fig. 4 with image from Chung et al., 2010
foxa2 control Fig. 4 from Porazzi et al., 2012
gcga heat shock Fig. 7 with image from Zecchin et al., 2007
her6 heat shock Fig. S4 from Aizawa et al., 2007
ins heat shock Fig. 7 with image from Zecchin et al., 2007
kctd12.1 heat shock Fig. 4 from Aizawa et al., 2007
kctd12.2 heat shock Fig. 4 from Aizawa et al., 2007
myb standard conditions Fig. 4 from Clements et al., 2011
neurod1 heat shock Fig. 1 from Mizoguchi et al., 2011
Fig. S5 with image from Zecchin et al., 2007
neurog1 heat shock Fig. 6 with image from Millimaki et al., 2007
nkx2.4b heat shock Fig. 1Fig. 2 from Porazzi et al., 2012
odf3b heat shock Fig. 8 with image from Liu et al., 2007
pax2a heat shock Fig. 1Fig. 2 from Porazzi et al., 2012
pax6b heat shock Fig. S5 with image from Zecchin et al., 2007
pdx1 heat shock Fig. 7 with image from Zecchin et al., 2007
pou4f1 heat shock Fig. 4 from Aizawa et al., 2007
prss1 heat shock Fig. 7 with image from Zecchin et al., 2007
ptf1a heat shock Fig. 7 with imageFig. S4 with image from Zecchin et al., 2007
sox2 heat shock Fig. 3 with image from Millimaki et al., 2010
sst2 heat shock Fig. 7 with image from Zecchin et al., 2007
tg heat shock Fig. 1Fig. 2 from Porazzi et al., 2012
Protein expression
Antibody Antigen Genes Structure Conditions Figures
Ab1-myt1 heat shock Fig. 5 from Kishimoto et al., 2013
Reporter gene expression No data available
PHENOTYPE
Phenotype in kca3Tg/+; kca4Tg/+
Phenotype Conditions Figures
apoptotic process occurrence, normal control Fig. 5 from Porazzi et al., 2012
cell differentiation involved in pronephros development disrupted, abnormal heat shock Fig. 8 with image from Liu et al., 2007
cell population proliferation occurrence, normal control Fig. 5 from Porazzi et al., 2012
determination of left/right symmetry disrupted, abnormal heat shock Fig. 4 from Aizawa et al., 2007
generation of neurons delayed, abnormal heat shock Fig. 4 from Aizawa et al., 2007
habenula cellular quality, abnormal heat shock Fig. 4 from Aizawa et al., 2007
habenula neuron morphology, abnormal heat shock Fig. 4 from Aizawa et al., 2007
habenula development disrupted, abnormal heat shock Fig. 4 from Aizawa et al., 2007
hair cell absent, abnormal heat shock text only from Millimaki et al., 2007
olfactory behavior decreased process quality, abnormal heat shock Fig. 5 from Kishimoto et al., 2013
pharyngeal endoderm morphology, normal control Fig. 4 from Porazzi et al., 2012
posterior lateral line ganglion neuron decreased amount, abnormal heat shock Fig. 1 from Mizoguchi et al., 2011
pronephros multi-ciliated epithelial cell decreased amount, abnormal heat shock Fig. 8 with image from Liu et al., 2007
thyroid gland development decreased process quality, abnormal heat shock Fig. 1Fig. 2 from Porazzi et al., 2012
thyroid primordium decreased volume, abnormal heat shock Fig. 2 from Porazzi et al., 2012
thyroid primordium physical object quality, abnormal heat shock Fig. 1 from Porazzi et al., 2012

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