ZFIN ID: ZDB-FISH-150901-22104
Fish name: axin1tm213/tm213
Genotype: axin1tm213/tm213
Targeting Reagent: none

HUMAN DISEASE MODELED by axin1tm213/tm213
No data available
GENE EXPRESSION
Gene expression in axin1tm213/tm213
Expressed Gene Structure Conditions Figures
atp6v0ca forebrain standard conditions Fig. 4 from Wang et al., 2008
bzw1a forebrain standard conditions Fig. 4 from Wang et al., 2008
cntn2 parapineal organ standard conditions Fig. 4 with image from Carl et al., 2007
cryba1b (not) lens, (not) solid lens vesicle standard conditions Fig. 1 from Wang et al., 2008
cryba2b (not) lens, (not) solid lens vesicle standard conditions Fig. 1 from Wang et al., 2008
crygm2d3 (not) lens, (not) solid lens vesicle standard conditions Fig. 1 from Wang et al., 2008
cxcr4b parapineal organ standard conditions Fig. 4 with image from Carl et al., 2007
gfi1ab parapineal organ standard conditions Fig. 4 with image from Carl et al., 2007
hspa8 brain standard conditions Fig. 5 from Wang et al., 2008
kctd8 habenula, parapineal organ standard conditions Fig. 6 with image from Hüsken et al., 2014
Fig. 4 with image from Carl et al., 2007
kctd12.1 parapineal organ standard conditions Fig. 4 with image from Carl et al., 2007
kctd12.2 habenula standard conditions Fig. 6 with image from Hüsken et al., 2014
lft1 epithalamus right side standard conditions Fig. 1 with imageFig. 2 with image from Carl et al., 2007
opn1sw1 (not) eye, (not) retina standard conditions Fig. 1 from Wang et al., 2008
pcdh10b dorsal thalamus postero-medial region standard conditions Fig. 5 with image from Peukert et al., 2011
pitx2 epithalamus right side, lateral plate mesoderm standard conditions Fig. 1 with image from Carl et al., 2007
rpl7a brain standard conditions Fig. 5 from Wang et al., 2008
shha mid diencephalic organizer control Fig. 1 with image from Mattes et al., 2012
spaw lateral plate mesoderm standard conditions Fig. 1 with image from Carl et al., 2007
PHENOTYPE 
Phenotype in axin1tm213/tm213
Phenotype Conditions Figures
canonical Wnt signaling pathway increased occurrence, abnormal control Fig. 1 with image from Mattes et al., 2012
cell migration in diencephalon delayed, abnormal standard conditions Fig. 4 with image from Carl et al., 2007
determination of left/right symmetry disrupted, abnormal standard conditions Fig. 1 with imageFig. 2 with imageFig. 4 with image from Carl et al., 2007
dorsal thalamus cellular quality, abnormal standard conditions Fig. 5 with image from Peukert et al., 2011
embryonic eye morphogenesis disrupted, abnormal standard conditions Fig. 1Fig. 4Fig. 5Fig. S1 from Wang et al., 2008
epithalamus right side lft1 expression mislocalised, abnormal standard conditions Fig. 1 with image from Carl et al., 2007
epithalamus right side pitx2 expression mislocalised, abnormal standard conditions Fig. 1 with image from Carl et al., 2007
epithelial cell proliferation increased occurrence, abnormal bacterial treatment: Aeromonas veronii Fig. 4 with image from Cheesman et al., 2011
epithelial cell proliferation increased occurrence, abnormal germ free Fig. 4 with image from Cheesman et al., 2011
epithelial cell proliferation increased occurrence, abnormal standard conditions Fig. 3 with image from Neal et al., 2013
Fig. 3 with imageFig. 4 with image from Cheesman et al., 2011
eye absent, abnormal standard conditions Fig. 4 with image from Huysseune et al., 2014
eye aplastic, abnormal standard conditions Fig. 2 with image from Hao et al., 2013
Fig. 1Fig. 4Fig. 5Fig. S1 from Wang et al., 2008
eye aplastic, normal chemical treatment: pharmaceutical Fig. 2 with image from Hao et al., 2013
forebrain absent, abnormal standard conditions Fig. 4 with image from Huysseune et al., 2014
forebrain decreased size, abnormal standard conditions Fig. 4Fig. 5 from Wang et al., 2008
intestinal bulb epithelial cell increased amount, abnormal standard conditions Fig. 3 with image from Cheesman et al., 2011
intestinal bulb epithelium cellular quality, abnormal control Fig. 4 with image from Cheesman et al., 2011
intestinal bulb epithelium cellular quality, abnormal bacterial treatment: Aeromonas veronii Fig. 4 with image from Cheesman et al., 2011
intestinal bulb epithelium cellular quality, abnormal germ free Fig. 4 with image from Cheesman et al., 2011
intestinal bulb epithelium disorganized, abnormal standard conditions Fig. 3 with image from Cheesman et al., 2011
intestinal bulb epithelium increased thickness, abnormal standard conditions Fig. 3 with image from Cheesman et al., 2011
intestinal epithelial cell proliferative, abnormal standard conditions Fig. 3 with image from Neal et al., 2013
intestine increased thickness, abnormal standard conditions Fig. S1 with image from Cheesman et al., 2011
intestine morphology, abnormal standard conditions Fig. S1 with image from Cheesman et al., 2011
mid diencephalic organizer cellular quality, abnormal control Fig. 1 with image from Mattes et al., 2012
mid diencephalic organizer increased thickness, abnormal control Fig. 1 with image from Mattes et al., 2012
parapineal organ position, abnormal standard conditions Fig. 4 with image from Carl et al., 2007
posterior intestine epithelial cell increased amount, abnormal standard conditions Fig. 3 with image from Cheesman et al., 2011
replacement tooth 4V immature, abnormal standard conditions Fig. 4 with image from Huysseune et al., 2014
replacement tooth 4V present, normal standard conditions Fig. 4 with image from Huysseune et al., 2014
telencephalon aplastic, abnormal standard conditions Fig. 2 with image from Hao et al., 2013
telencephalon aplastic, normal chemical treatment: pharmaceutical Fig. 2 with image from Hao et al., 2013
thalamus development decreased process quality, abnormal standard conditions Fig. 5 with image from Peukert et al., 2011
thalamus development process quality, abnormal control Fig. 1 with image from Mattes et al., 2012
tooth 3V present, normal standard conditions Fig. 4 with image from Huysseune et al., 2014
tooth 4V present, normal standard conditions Fig. 4 with image from Huysseune et al., 2014
tooth 5V present, normal standard conditions Fig. 4 with image from Huysseune et al., 2014

CITATIONS  (18)