ZFIN ID: ZDB-FISH-150901-1235
Fish name: smob641/b641
Genotype: smob641/b641
Targeting Reagent: none

HUMAN DISEASE MODELED by smob641/b641
No data available
GENE EXPRESSION
Gene expression in smob641/b641
Expressed Gene Structure Conditions Figures
acta1b fast muscle cell standard conditions Fig. 1 with image from Hinits et al., 2007
acta2 (not) swim bladder smooth muscle cell standard conditions Fig. 4 with image from Winata et al., 2009
anxa5b swim bladder mesothelial cell standard conditions Fig. 4 with image from Winata et al., 2009
arxa ventral thalamus standard conditions Fig. 6 with image from Sanek et al., 2008
cdkn1ca adaxial cell standard conditions Fig. 3 with image from Osborn et al., 2011
cxcr4b brain, epithalamus control Fig. 8 with image from Chatterjee et al., 2014
disc1 diencephalon ventral region, hindbrain dorso-lateral region, (not) whole organism standard conditions Fig. 1 with imageFig. 3 with image from Boyd et al., 2015
dlx2a telencephalon, ventral thalamus control Fig. 5 with imageFig. 6 with image from Sanek et al., 2008
fgf10a (not) swim bladder standard conditions Fig. 4 with image from Winata et al., 2009
foxj1a (not) floor plate, (not) neural tube standard conditions Fig. 1 from Yu et al., 2008
hsp90aa1.1 adaxial cell, somite standard conditions Fig. 1 with image from Osborn et al., 2011
kif7 myotome cilium, neural tube cytoplasm, otic vesicle cilium standard conditions Fig. 10 with image from Maurya et al., 2013
mnx1 (not) swim bladder standard conditions Fig. 4 with image from Winata et al., 2009
myf5 adaxial cell, fast muscle myoblast, segmental plate (all 4) expand standard conditions Fig. 1 with image from Osborn et al., 2011
myhz1.1 fast muscle cell standard conditions Fig. 1 with image from Hinits et al., 2007
myod1 adaxial cell, fast muscle myoblast, somite (all 4) expand standard conditions Fig. 1 with image from Osborn et al., 2011
myog (not) adaxial cell standard conditions Fig. 1 with image from Osborn et al., 2011
neurod4 hindbrain control Fig. 2 with image from Ke et al., 2008
nkx2.2a (not) hindbrain standard conditions Fig. 6 with image from Ke et al., 2008
nkx2.4a hypothalamus standard conditions Fig. 2 from Manoli et al., 2014
notch1a hindbrain standard conditions Fig. 3 with image from Ke et al., 2008
olig2 cerebellum, (not) hindbrain, presumptive diencephalon ventral region (all 5) expand standard conditions Fig. 8 with image from Maurya et al., 2013
Fig. 4 with image from Ke et al., 2008
Fig. 3 with image from McFarland et al., 2008
Fig. 7 with image from Park et al., 2002
otx5 epiphysis control Fig. 8 with image from Chatterjee et al., 2014
pax2a optic cup control Fig. 9 with image from Sanek et al., 2009
pax3a somite standard conditions Fig. 3 with imageFig. 4 with image from Hammond et al., 2007
pax7a somite standard conditions Fig. 3 with imageFig. 4 with image from Hammond et al., 2007
pdzrn3b presumptive neural retina standard conditions Fig. 3 with image from Dente et al., 2011
plp1a (not) spinal cord standard conditions Fig. 7 with image from Park et al., 2002
prdm1a slow muscle cell standard conditions Fig. 7 with image from Elworthy et al., 2008
prox1a (not) slow muscle cell standard conditions Fig. 3 with image from Maurya et al., 2013
ptch2 (not) forebrain, (not) forebrain neural keel, (not) forebrain neural rod standard conditions Fig. 6 with imageFig. S5 with image from Sanek et al., 2008
six3b (not) diencephalon, (not) forebrain, optic cup (all 4) expand control Fig. 1 with imageFig. 3 with image from Sanek et al., 2009
smyhc1 (not) muscle, slow muscle cell standard conditions Fig. 5 with imageFig. 6 with image from Elworthy et al., 2008
smyhc2 caudal oblique, cephalic musculature, (not) infracarinalis standard conditions Fig. 5 with image from Elworthy et al., 2008
sox7 cranial vasculature, (not) dorsal aorta, hindbrain standard conditions Fig. 6 with imagetext only from Pendeville et al., 2008
sox18 dorsal aorta, intersegmental vessel, posterior cardinal vein standard conditions Fig. 6 with image from Pendeville et al., 2008
tnnc1b (not) fast muscle cell control Fig. 3 with image from von Hofsten et al., 2008
utrn muscle, pronephric duct standard conditions Fig. 1 with image from Böhm et al., 2008
vgll2b (not) adaxial cell, notochord standard conditions Fig. 3 with image from Mann et al., 2007
zic2a anterior neural plate, diencephalon, optic stalk (all 5) expand standard conditions Fig. 8 with image from Sanek et al., 2009
Fig. S5 with image from Sanek et al., 2008
PHENOTYPE 
Phenotype in smob641/b641
Phenotype Conditions Figures
cerebellum physical object quality, abnormal standard conditions Fig. 3 with image from McFarland et al., 2008
diencephalon ventral region disc1 expression decreased amount, abnormal standard conditions Fig. 1 with image from Boyd et al., 2015
diencephalon ventral region disc1 expression decreased distribution, abnormal standard conditions Fig. 1 with image from Boyd et al., 2015
diencephalon development disrupted, abnormal standard conditions Fig. 6 with image from Sanek et al., 2008
eye fused with eye, abnormal standard conditions Fig. 1 from Loucks et al., 2007
floor plate formation disrupted, abnormal standard conditions Fig. 6 with image from Ke et al., 2008
hindbrain axial region disc1 expression decreased amount, abnormal standard conditions Fig. 1 with image from Boyd et al., 2015
hindbrain dorso-lateral region disc1 expression decreased distribution, abnormal standard conditions Fig. 1 with image from Boyd et al., 2015
mesothelial cell decreased amount, abnormal standard conditions Fig. 4 with image from Winata et al., 2009
mesothelial cell distributed, abnormal standard conditions Fig. 4 with image from Winata et al., 2009
muscle pioneer ab1-eng labeling absent, abnormal standard conditions Fig. 3 with image from Maurya et al., 2013
muscle pioneer absent, abnormal standard conditions Fig. 3 with image from Maurya et al., 2013
oligodendrocyte development disrupted, abnormal standard conditions Fig. 7 with image from Park et al., 2002
oligodendrocyte differentiation disrupted, abnormal standard conditions Fig. 4 with image from Ke et al., 2008
post-vent region curved ventral, abnormal standard conditions Fig. 1 with image from Schwend et al., 2010
Fig. 1 from Loucks et al., 2007
segmental plate anterior region lacks all parts of type adaxial cell, abnormal standard conditions Fig. 1 with image from Osborn et al., 2011
skeletal muscle tissue development disrupted, abnormal standard conditions Fig. 1 with image from Osborn et al., 2011
slow muscle cell prox1a expression absent, abnormal standard conditions Fig. 3 with image from Maurya et al., 2013
slow muscle cell aplastic, abnormal standard conditions Fig. 1 with image from Osborn et al., 2011
slow muscle cell decreased size, abnormal standard conditions Fig. 7 with image from Elworthy et al., 2008
smooth muscle aplastic, abnormal standard conditions Fig. 4 with image from Winata et al., 2009
smoothened signaling pathway disrupted, abnormal standard conditions Fig. 1 with imageFig. 3 with image from Sanek et al., 2009
somite U-shaped, abnormal standard conditions Fig. 1 with image from Schwend et al., 2010
spinal cord lacks all parts of type oligodendrocyte, abnormal standard conditions Fig. 7 with image from Park et al., 2002
spinal cord molecular quality, abnormal standard conditions Fig. 7 with image from Park et al., 2002
spinal cord physical object quality, abnormal standard conditions Fig. 3 with image from McFarland et al., 2008
spinal cord ventral region olig2 expression absent, abnormal standard conditions Fig. 8 with image from Maurya et al., 2013
swim bladder aplastic, abnormal standard conditions Fig. 4 with image from Winata et al., 2009
swim bladder formation arrested, abnormal standard conditions Fig. 4 with image from Winata et al., 2009
vasculogenesis disrupted, abnormal standard conditions Fig. 6 with image from Pendeville et al., 2008
ventral thalamus decreased size, abnormal standard conditions Fig. 6 with image from Sanek et al., 2008
whole organism disc1 expression absent, abnormal standard conditions Fig. 3 with image from Boyd et al., 2015

CITATIONS  (35)