Morpholino

MO1-s1pr2

ID

ZDB-MRPHLNO-070911-3

Name

MO1-s1pr2

Previous Names

mil-MO (1)
MO1-edg5

Target

s1pr2 (1)

Sequence

5' - CCGCAAACAGACGGCAAGTAGTCAT - 3'

Disclaimer

Although ZFIN verifies reagent sequence data, we recommend that you conduct independent sequence analysis before ordering any reagent.

Note

None

Genome Resources

None

Target Location

Genomic Features

No data available

Expression

Gene expression in Wild Types + MO1-s1pr2

Expressed Gene	Anatomy	Figures
baxb	whole organism	Fig. 6 from Hu et al., 2013
ctslb	prechordal plate	Fig. 1 from Kai et al., 2008
dlx3b	anterior neural plate	Fig. 1 , Fig. S3 from Kai et al., 2008
fgf3	whole organism	Fig. 4 from Hu et al., 2013
fgf8a	whole organism	Fig. 4 from Hu et al., 2013
foxa2	endoderm notochord pharyngeal endoderm	Fig. 2 from Fukui et al., 2014
foxi1	whole organism	Fig. 4 from Hu et al., 2013
hlx1	prechordal plate	Fig. 1 from Kai et al., 2008
hmx2	whole organism	Fig. 4 from Hu et al., 2013
mcl1b	whole organism	Fig. 6 from Hu et al., 2013
myl7	cardiac muscle cell heart tube	Fig. 1 from Fukui et al., 2014 Fig. 2 from Ye et al., 2013
nkx2.4b	neural keel	Fig. S3 from Kai et al., 2008
otop1	whole organism	Fig. 4 from Hu et al., 2013
pax2a	midbrain hindbrain boundary neural keel whole organism	Fig. 4 from Hu et al., 2013 Fig. S3 from Kai et al., 2008
spry4	presumptive mesoderm	Fig. 1 from Kai et al., 2008
tbxta	notochord	Fig. 1 from Kai et al., 2008
tmie	whole organism	Fig. 4 from Hu et al., 2013

Phenotype

Phenotype resulting from MO1-s1pr2

Phenotype	Fish	Figures
anterior lateral line neuromast hair cell decreased amount, abnormal	WT + MO1-s1pr2	Fig. 3 from Hu et al., 2013
anterior lateral line neuromast hair cell development disrupted, abnormal	WT + MO1-s1pr2	Fig. 3 from Hu et al., 2013
cardiac muscle progenitor cell migration to the midline involved in heart field formation decreased occurrence, abnormal	ha01Tg; ncv11Tg + MO1-s1pr2	Fig. 1 , Fig. 2 , Fig. 3 from Fukui et al., 2014
cardioblast migration to the midline involved in heart rudiment formation decreased process quality, abnormal	ko07Tg + MO1-s1pr2	Fig. S1 from Hisano et al., 2013
cardioblast migration to the midline involved in heart rudiment formation disrupted, abnormal	ko07Tg + MO1-s1pr2	Fig. S1 from Hisano et al., 2013
caudal fin blistered, abnormal	WT + MO1-s1pr2	Fig. 1 from Ye et al., 2013 Fig. S4 from Kawahara et al., 2009
cell migration involved in gastrulation disrupted, abnormal	WT + MO1-s1pr2	Fig. 1 , Fig. S3 from Kai et al., 2008
embryonic heart tube morphogenesis disrupted, abnormal	AB/TU + MO1-s1pr2	Fig. 3 from Nakanaga et al., 2014
endocardium mislocalised, abnormal	is5Tg; ui6Tg + MO1-s1pr2	Fig. 1 from Xie et al., 2016
endoderm anterior region apoptotic, abnormal	ha01Tg + MO1-s1pr2	Fig. 3 from Fukui et al., 2014
endoderm anterior region increased width, abnormal	ha01Tg; twu34Tg + MO1-s1pr2	Fig. 7 from Ye et al., 2013
endoderm anterior region perforate, abnormal	ha01Tg; twu34Tg + MO1-s1pr2	Fig. 7 from Ye et al., 2013
endoderm antero-medial region decreased object quality, abnormal	ha01Tg; ncv11Tg + MO1-s1pr2	Fig. 2 from Fukui et al., 2014
endoderm apoptotic process increased occurrence, abnormal	ha01Tg + MO1-s1pr2	Fig. 3 from Fukui et al., 2014
epidermal cell aggregated, abnormal	WT + MO1-s1pr2	Fig. 7 from Gu et al., 2015
heart bifurcated, abnormal	WT + MO1-s1pr2	Fig. S4, Fig. S11 from Kawahara et al., 2009
heart duplicated, abnormal	twu34Tg + MO1-s1pr2	Fig. 1 , Fig. 2 , Fig. 7 from Ye et al., 2013
heart malformed, abnormal	ncv10Tg + MO1-s1pr2	Fig. 1 from Fukui et al., 2014
heart split bilaterally, abnormal	ncv10Tg + MO1-s1pr2	Fig. 1 from Fukui et al., 2014
heart morphogenesis decreased process quality, abnormal	ncv10Tg + MO1-s1pr2	Fig. 1 , Fig. 2 , Fig. 3 from Fukui et al., 2014
heart tube bifurcated, abnormal	WT + MO1-s1pr2	Fig. S3 from Hisano et al., 2013
heart tube increased amount, abnormal	ko07Tg + MO1-s1pr2	Fig. S1 from Hisano et al., 2013
heart tube mislocalised laterally, abnormal	ko07Tg + MO1-s1pr2	Fig. S1 from Hisano et al., 2013
heart tube split bilaterally, abnormal	ha01Tg; ncv11Tg + MO1-s1pr2	Fig. 1 , Fig. 2 , Fig. 3 from Fukui et al., 2014
hypoblast mesodermal cell spatial pattern, abnormal	WT + MO1-s1pr2	Fig. S4 from Kai et al., 2008
mesodermal cell migration increased rate, abnormal	WT + MO1-s1pr2	Fig. 1 from Kai et al., 2008
myocardial precursor mislocalised laterally, abnormal	AB + MO1-s1pr2	Fig. 1 , Fig. 2 from Fukui et al., 2014
neural keel increased length, abnormal	WT + MO1-s1pr2	Fig. S3 from Kai et al., 2008
neuromast hair cell apoptotic, abnormal	WT + MO1-s1pr2	Fig. 5 from Hu et al., 2013
otic vesicle morphogenesis disrupted, abnormal	WT + MO1-s1pr2	Fig. 2 from Hu et al., 2013
otolith increased size, abnormal	WT + MO1-s1pr2	Fig. 2 from Hu et al., 2013
otolith malformed, abnormal	WT + MO1-s1pr2	Fig. 2 from Hu et al., 2013
pericardium edematous, abnormal	WT + MO1-s1pr2	Fig. 1 from Ye et al., 2013
pharyngeal arch 1 decreased length, abnormal	WT + MO1-s1pr2	Fig. S1 from Hisano et al., 2013
pharyngeal arch 1 morphology, abnormal	WT + MO1-s1pr2	Fig. S1 from Hisano et al., 2013
pharyngeal endoderm mislocalised laterally, abnormal	AB + MO1-s1pr2	Fig. 2 from Fukui et al., 2014
posterior lateral line has fewer parts of type posterior lateral line neuromast, abnormal	WT + MO1-s1pr2	Fig. 3 from Hu et al., 2013
posterior lateral line neuromast decreased size, abnormal	WT + MO1-s1pr2	Fig. 3 from Hu et al., 2013
posterior lateral line neuromast hair cell development disrupted, abnormal	WT + MO1-s1pr2	Fig. 3 from Hu et al., 2013
prechordal plate flat, abnormal	WT + MO1-s1pr2	Fig. 1 from Kai et al., 2008
prechordal plate increased length, abnormal	WT + MO1-s1pr2	Fig. 1 from Kai et al., 2008
prechordal plate increased width, abnormal	WT + MO1-s1pr2	Fig. 1 from Kai et al., 2008
saccule decreased size, abnormal	WT + MO1-s1pr2	Fig. 2 from Hu et al., 2013
semicircular canal broken into two pieces, abnormal	WT + MO1-s1pr2	Fig. 2 from Hu et al., 2013
semicircular canal morphology, abnormal	WT + MO1-s1pr2	Fig. 2 from Hu et al., 2013
semicircular canal development disrupted, abnormal	WT + MO1-s1pr2	Fig. 2 from Hu et al., 2013
utricle increased size, abnormal	WT + MO1-s1pr2	Fig. 2 from Hu et al., 2013

Phenotype of all Fish created by or utilizing MO1-s1pr2

Phenotype	Fish	Conditions	Figures
pharyngeal endoderm mislocalised laterally, abnormal	AB + MO1-s1pr2	standard conditions	Fig. 2 from Fukui et al., 2014
cardiac muscle progenitor cell migration to the midline involved in heart field formation decreased occurrence, abnormal	AB + MO1-s1pr2	standard conditions	Fig. 1 from Fukui et al., 2014
myocardial precursor mislocalised laterally, abnormal	AB + MO1-s1pr2	standard conditions	Fig. 1 from Fukui et al., 2014
heart tube split bilaterally, abnormal	AB + MO1-s1pr2	standard conditions	Fig. 1 from Fukui et al., 2014
embryonic heart tube morphogenesis disrupted, abnormal	AB/TU + MO1-s1pr2	standard conditions	Fig. 3 from Nakanaga et al., 2014
prechordal plate increased width, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 1 from Kai et al., 2008
pericardium edematous, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 1 from Ye et al., 2013
heart bifurcated, abnormal	WT + MO1-s1pr2	standard conditions	Fig. S4, Fig. S11 from Kawahara et al., 2009
epidermal cell cell aggregation decreased amount, abnormal	WT + MO1-s1pr2	chemical treatment: EC 2.7.10.2 (non-specific protein-tyrosine kinase) inhibitor	Fig. 7 from Gu et al., 2015
posterior lateral line has fewer parts of type posterior lateral line neuromast, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 3 from Hu et al., 2013
semicircular canal broken into two pieces, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 2 from Hu et al., 2013
hypoblast mesodermal cell spatial pattern, abnormal	WT + MO1-s1pr2	standard conditions	Fig. S4 from Kai et al., 2008
utricle increased size, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 2 from Hu et al., 2013
neuromast hair cell apoptotic, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 5 from Hu et al., 2013
pharyngeal arch 1 morphology, abnormal	WT + MO1-s1pr2	standard conditions	Fig. S1 from Hisano et al., 2013
heart tube bifurcated, abnormal	WT + MO1-s1pr2	standard conditions	Fig. S3 from Hisano et al., 2013
posterior lateral line neuromast hair cell development disrupted, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 3 from Hu et al., 2013
semicircular canal development disrupted, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 2 from Hu et al., 2013
heart duplicated, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 2 from Ye et al., 2013
anterior lateral line neuromast hair cell development disrupted, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 3 from Hu et al., 2013
posterior lateral line neuromast decreased size, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 3 from Hu et al., 2013
cell migration involved in gastrulation disrupted, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 1 , Fig. S3 from Kai et al., 2008
pharyngeal arch 1 decreased length, abnormal	WT + MO1-s1pr2	standard conditions	Fig. S1 from Hisano et al., 2013
epidermal cell aggregated, abnormal	WT + MO1-s1pr2	control	Fig. 7 from Gu et al., 2015
semicircular canal morphology, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 2 from Hu et al., 2013
prechordal plate flat, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 1 from Kai et al., 2008
otic vesicle morphogenesis disrupted, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 2 from Hu et al., 2013
caudal fin blistered, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 1 from Ye et al., 2013 Fig. S4 from Kawahara et al., 2009
otolith malformed, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 2 from Hu et al., 2013
anterior lateral line neuromast hair cell decreased amount, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 3 from Hu et al., 2013
mesodermal cell migration increased rate, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 1 from Kai et al., 2008
neural keel increased length, abnormal	WT + MO1-s1pr2	standard conditions	Fig. S3 from Kai et al., 2008
otolith increased size, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 2 from Hu et al., 2013
saccule decreased size, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 2 from Hu et al., 2013
prechordal plate increased length, abnormal	WT + MO1-s1pr2	standard conditions	Fig. 1 from Kai et al., 2008
heart tube split bilaterally, abnormal	ha01Tg + MO1-s1pr2	standard conditions	Fig. 3 from Fukui et al., 2014
cardiac muscle progenitor cell migration to the midline involved in heart field formation decreased occurrence, abnormal	ha01Tg + MO1-s1pr2	standard conditions	Fig. 3 from Fukui et al., 2014
endoderm anterior region apoptotic, abnormal	ha01Tg + MO1-s1pr2	standard conditions	Fig. 3 from Fukui et al., 2014
heart morphogenesis decreased process quality, abnormal	ha01Tg + MO1-s1pr2	standard conditions	Fig. 3 from Fukui et al., 2014
endoderm apoptotic process increased occurrence, abnormal	ha01Tg + MO1-s1pr2	standard conditions	Fig. 3 from Fukui et al., 2014
heart tube increased amount, abnormal	ko07Tg + MO1-s1pr2	standard conditions	Fig. S1 from Hisano et al., 2013
heart tube mislocalised laterally, abnormal	ko07Tg + MO1-s1pr2	standard conditions	Fig. S1 from Hisano et al., 2013
heart bifurcated, abnormal	ko07Tg + MO1-s1pr2	standard conditions	Fig. S4 from Kawahara et al., 2009
cardioblast migration to the midline involved in heart rudiment formation disrupted, abnormal	ko07Tg + MO1-s1pr2	standard conditions	Fig. S1 from Hisano et al., 2013
cardioblast migration to the midline involved in heart rudiment formation decreased process quality, abnormal	ko07Tg + MO1-s1pr2	standard conditions	Fig. S1 from Hisano et al., 2013
heart split bilaterally, abnormal	ncv10Tg + MO1-s1pr2	standard conditions	Fig. 1 from Fukui et al., 2014
heart malformed, abnormal	ncv10Tg + MO1-s1pr2	standard conditions	Fig. 1 from Fukui et al., 2014
heart morphogenesis decreased process quality, abnormal	ncv10Tg + MO1-s1pr2	standard conditions	Fig. 1 from Fukui et al., 2014
heart duplicated, abnormal	twu34Tg + MO1-s1pr2	standard conditions	Fig. 1 from Ye et al., 2013
myocardial precursor mislocalised laterally, abnormal	ha01Tg; ncv11Tg + MO1-s1pr2	standard conditions	Fig. 2 from Fukui et al., 2014
heart morphogenesis decreased process quality, abnormal	ha01Tg; ncv11Tg + MO1-s1pr2	standard conditions	Fig. 2 from Fukui et al., 2014
endoderm antero-medial region decreased object quality, abnormal	ha01Tg; ncv11Tg + MO1-s1pr2	standard conditions	Fig. 2 from Fukui et al., 2014
cardiac muscle progenitor cell migration to the midline involved in heart field formation decreased occurrence, abnormal	ha01Tg; ncv11Tg + MO1-s1pr2	standard conditions	Fig. 2 from Fukui et al., 2014
heart tube split bilaterally, abnormal	ha01Tg; ncv11Tg + MO1-s1pr2	standard conditions	Fig. 2 from Fukui et al., 2014
heart duplicated, abnormal	ha01Tg; twu34Tg + MO1-s1pr2	standard conditions	Fig. 7 from Ye et al., 2013
endoderm anterior region perforate, abnormal	ha01Tg; twu34Tg + MO1-s1pr2	standard conditions	Fig. 7 from Ye et al., 2013
endoderm anterior region increased width, abnormal	ha01Tg; twu34Tg + MO1-s1pr2	standard conditions	Fig. 7 from Ye et al., 2013
endocardium mislocalised, abnormal	is5Tg; ui6Tg + MO1-s1pr2	standard conditions	Fig. 1 from Xie et al., 2016
pharyngeal arch 1 decreased length, abnormal	fn1a^kt259/kt259 + MO1-s1pr2	standard conditions	Fig. S1 from Hisano et al., 2013
pharyngeal arch 1 morphology, abnormal	fn1a^kt259/kt259 + MO1-s1pr2	standard conditions	Fig. S1 from Hisano et al., 2013
heart bifurcated, abnormal	spns2^ko157/ko157 + MO1-s1pr2	standard conditions	Fig. S11 from Kawahara et al., 2009
involution involved in gastrulation with mouth forming second disrupted, abnormal	wnt11f2^tx226/tx226 + MO1-s1pr2	standard conditions	Fig. 4 from Kai et al., 2008
mesodermal cell lamellipodium increased length, abnormal	wnt11f2^tx226/tx226 + MO1-s1pr2	standard conditions	Fig. 3 from Kai et al., 2008
mesodermal cell migration process quality, abnormal	wnt11f2^tx226/tx226 + MO1-s1pr2	standard conditions	Fig. 3 from Kai et al., 2008
hypoblast mesodermal cell cellular motility, abnormal	wnt11f2^tx226/tx226 + MO1-s1pr2	standard conditions	Fig. 2 from Kai et al., 2008
notochord decreased length, abnormal	wnt11f2^tx226/tx226 + MO1-s1pr2	standard conditions	Fig. 1 from Kai et al., 2008
hypoblast mesodermal cell spatial pattern, abnormal	wnt11f2^tx226/tx226 + MO1-s1pr2	standard conditions	Fig. 2 from Kai et al., 2008
notochord increased thickness, abnormal	wnt11f2^tx226/tx226 + MO1-s1pr2	standard conditions	Fig. 1 from Kai et al., 2008
hypoblast mesodermal cell increased speed, abnormal	wnt11f2^tx226/tx226 + MO1-s1pr2	standard conditions	Fig. 2 from Kai et al., 2008
cell migration involved in gastrulation disrupted, abnormal	wnt11f2^tx226/tx226 + MO1-s1pr2	standard conditions	Fig. 2 from Kai et al., 2008
convergent extension involved in gastrulation disrupted, abnormal	wnt11f2^tx226/tx226 + MO1-s1pr2	standard conditions	Fig. 1 from Kai et al., 2008
prechordal plate increased length, abnormal	wnt11f2^tx226/tx226 + MO1-s1pr2	standard conditions	Fig. 1 from Kai et al., 2008
mesodermal cell migration persistence, abnormal	wnt11f2^tx226/tx226 + MO1-s1pr2	standard conditions	Fig. 2 from Kai et al., 2008
intersegmental vessel shortened, abnormal	y1Tg + MO1-s1pr2 + MO2-s1pr1	standard conditions	Fig. 7 from Mendelson et al., 2013
intersegmental vessel morphology, abnormal	y1Tg + MO1-s1pr2 + MO2-s1pr1	standard conditions	Fig. 7 from Mendelson et al., 2013
heart tube increased amount, abnormal	fn1a^kt259/kt259; ko07Tg + MO1-s1pr2	standard conditions	Fig. S1 from Hisano et al., 2013
cardioblast migration to the midline involved in heart rudiment formation absent, abnormal	fn1a^kt259/kt259; ko07Tg + MO1-s1pr2	standard conditions	Fig. S1 from Hisano et al., 2013
heart tube mislocalised laterally, abnormal	fn1a^kt259/kt259; ko07Tg + MO1-s1pr2	standard conditions	Fig. S1 from Hisano et al., 2013
cardioblast migration to the midline involved in heart rudiment formation disrupted, abnormal	fn1a^kt259/kt259; ko07Tg + MO1-s1pr2	standard conditions	Fig. S1 from Hisano et al., 2013
heart bifurcated, abnormal	spns2^ko157/+; ko07Tg + MO1-s1pr2	standard conditions	Fig. 2 from Kawahara et al., 2009

Citations