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ZFIN ID: ZDB-FISH-150901-4824
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Fish name: pd1Tg/+
Genotype: pd1Tg/+
Targeting Reagent: none
HUMAN DISEASE MODELED by pd1Tg/+
No data available
GENE EXPRESSION
Gene expression in pd1Tg/+
RNA expression
Expressed Gene Structure Conditions Figures
axin2 heat shock Fig. S6 with image from Felber et al., 2015
calb2b heat shock Fig. 2 with image from Kapsimali et al., 2011
col1a2 control Fig. 1 with image from Felber et al., 2015
heat shock Fig. 1 with image from Felber et al., 2015
col10a1a control Fig. 1 with image from Felber et al., 2015
heat shock Fig. 1 with image from Felber et al., 2015
cp heat shock Fig. 6 with imageFig. 7 with image from Shin et al., 2007
dusp6 heat shock Fig. 4 with image from Wills et al., 2008
etv4 heat shock Fig. 6 with imageFig. S1 with image from Felber et al., 2015
etv5b heat shock Fig. S1 with image from Felber et al., 2015
fgf20a heat shock Fig. 5 with image from Wills et al., 2008
foxa3 heat shock Fig. 6 with image from Shin et al., 2007
foxi1 heat shock Fig. 1 with image from Nechiporuk et al., 2007
gata4 heat shock Fig. 6 with imageFig. S3 with image from Shin et al., 2007
gata6 heat shock Fig. 6 with imageFig. S3 with image from Shin et al., 2007
hhex heat shock Fig. 6 with imageFig. 7 with image from Shin et al., 2007
lef1 heat shock Fig. S6 with image from Felber et al., 2015
mir200a heat shock Fig. 2 with image from Kapsimali et al., 2011
msx1b heat shock Fig. 4 with image from Wills et al., 2008
myl7 resection: ventricular myocardium, heat shock Fig. 6 with image from Lepilina et al., 2006
pax2a heat shock Fig. 1 with image from Nechiporuk et al., 2007
phox2bb heat shock Fig. 1 with image from Nechiporuk et al., 2007
prox1a heat shock Fig. 6 with imageFig. 7 with image from Shin et al., 2007
runx2a heat shock Fig. 2 with image from Felber et al., 2015
runx2b heat shock Fig. 2 with image from Felber et al., 2015
sp7 heat shock Fig. 2 with image from Felber et al., 2015
tbx18 resection: ventricular myocardium, heat shock Fig. 6 with image from Lepilina et al., 2006
tbx20 resection: ventricular myocardium Fig. S5 with image from Lepilina et al., 2006
tcf7 heat shock Fig. S6 with image from Felber et al., 2015
ttk heat shock Fig. 5 with image from Wills et al., 2008
wif1 heat shock Fig. S6 with image from Felber et al., 2015
Reporter gene expression No data available
PHENOTYPE
Phenotype in pd1Tg/+
Phenotype Conditions Figures
anal fin decreased length, abnormal heat shock Fig. 1 with image from Wills et al., 2008
anatomical structure homeostasis disrupted, abnormal heat shock Fig. 1 with image from Wills et al., 2008
caudal fin decreased length, abnormal heat shock Fig. 1 with image from Wills et al., 2008
caudal fin decreased length, abnormal heat shock Fig. S1 with image from Wills et al., 2008
caudal fin length, normal heat shock Fig. S1 with image from Wills et al., 2008
caudal fin epidermis increased size, abnormal heat shock Fig. 1 with image from Wills et al., 2008
caudal fin lepidotrichium distal side misaligned with caudal fin lepidotrichium proximal side, abnormal heat shock Fig. 2 with image from Wills et al., 2008
caudal fin lepidotrichium joint dislocated caudal fin lepidotrichium, abnormal heat shock Fig. 2 with image from Wills et al., 2008
caudal fin lepidotrichium joint swollen, abnormal heat shock Fig. 2 with image from Wills et al., 2008
dorsal fin decreased length, abnormal heat shock Fig. 1 with image from Wills et al., 2008
epibranchial placode morphology, abnormal heat shock Fig. 1 with imageFig. 2 with image from Nechiporuk et al., 2007
facial placode morphology, abnormal heat shock Fig. 1 with imageFig. 2 with image from Nechiporuk et al., 2007
fibroblast growth factor receptor signaling pathway process quality, abnormal heat shock Fig. 2 with image from Kapsimali et al., 2011
fin regeneration disrupted, abnormal heat shock Fig. 1 with image from Wills et al., 2008
glossopharyngeal placode morphology, abnormal heat shock Fig. 1 with imageFig. 2 with image from Nechiporuk et al., 2007
mandibular arch skeleton morphology, abnormal heat shock Fig. 1 with image from Felber et al., 2015
midbrain hindbrain boundary morphology, abnormal heat shock Fig. 1 with image from Nechiporuk et al., 2007
midbrain-hindbrain boundary development disrupted, abnormal heat shock Fig. 1 with image from Nechiporuk et al., 2007
opercle col10a1a expression absent, abnormal heat shock Fig. 1 with image from Felber et al., 2015
opercle sp7 expression absent, abnormal heat shock Fig. 2 with image from Felber et al., 2015
opercle col1a2 expression decreased amount, abnormal heat shock Fig. 1 with image from Felber et al., 2015
opercle osteoblast col10a1a expression absent, abnormal heat shock Fig. 1 with image from Felber et al., 2015
opercle osteoblast col1a2 expression decreased amount, abnormal heat shock Fig. 1 with image from Felber et al., 2015
oral epithelium has fewer parts of type taste bud, abnormal heat shock Fig. 2 with image from Kapsimali et al., 2011
ossification arrested, abnormal heat shock Fig. 1 with image from Felber et al., 2015
ossification decreased occurrence, abnormal heat shock Fig. 1 with image from Felber et al., 2015
parasympathetic nervous system development disrupted, abnormal heat shock Fig. 1 with imageFig. 2 with image from Nechiporuk et al., 2007
pharyngeal arch 3-7 etv5b expression decreased amount, abnormal heat shock Fig. S1 with image from Felber et al., 2015
pharyngeal arch 3-7 etv4 expression decreased amount, abnormal heat shock Fig. S1 with image from Felber et al., 2015
pharyngeal arch 3-7 etv4 expression increased amount, abnormal heat shock Fig. 6 with image from Felber et al., 2015
taste bud formation decreased process quality, abnormal heat shock Fig. 2 with image from Kapsimali et al., 2011

CITATIONS  (13)