Morpholino

MO1-snai1b

ID

ZDB-MRPHLNO-080310-1

Name

MO1-snai1b

Previous Names

None

Target

snai1b (1)

Sequence

5' - TGCAAATATCCCCTCGAAACTTCAG - 3'

Disclaimer

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

Note

translation-blocker corresponding to bases -28 to -4 relative to start codon

Genome Resources

None

Target Location

Genomic Features

No data available

Expression

Gene expression in Wild Types + MO1-snai1b

Expressed Gene	Anatomy	Figures
ackr3b	posterior lateral line primordium anterior region	Fig. 5 from Neelathi et al., 2018
cdh1	prechordal plate	Fig. 3 from Blanco et al., 2007
cdh2	posterior lateral line primordium posterior region	Fig. 4 from Neelathi et al., 2018
ctslb	polster prechordal plate	Fig. 3 , Fig. 7 from Blanco et al., 2007
cxcr4b	posterior lateral line primordium anterior region	Fig. 5 from Neelathi et al., 2018
dlx3b	neural plate	Fig. 3 from Blanco et al., 2007
epcam	posterior lateral line primordium posterior region	Fig. 4 from Neelathi et al., 2018
etv4	posterior lateral line primordium anterior region	Fig. 5 from Neelathi et al., 2018
itga5	anterior lateral plate mesoderm	Fig. 4 from Qiao et al., 2014
lef1	posterior lateral line primordium anterior region	Fig. 5 from Neelathi et al., 2018
myl7	heart heart tube myocardial precursor	Fig. 2 from Qiao et al., 2014
myod1	somite	Fig. 2 from Blanco et al., 2007
pcdh8	paraxial mesoderm	Fig. 2 from Blanco et al., 2007
snai1b	axial mesoderm	Fig. 7 from Blanco et al., 2007
tbx16	prechordal plate	Fig. 3 from Blanco et al., 2007
tbxta	axial chorda mesoderm axial mesoderm	Fig. 2 , Fig. 3 from Blanco et al., 2007

Phenotype

Phenotype resulting from MO1-snai1b

Phenotype	Fish	Figures
atrium position, abnormal	twu34Tg + MO1-snai1b	Fig. 1 from Qiao et al., 2014
cardiac muscle progenitor cell migration to the midline involved in heart field formation delayed, abnormal	AB + MO1-snai1b	Fig. 2 from Qiao et al., 2014
cardiac muscle progenitor cell migration to the midline involved in heart field formation process quality, abnormal	AB + MO1-snai1b	Fig. 2 from Qiao et al., 2014
cardiac ventricle decreased size, abnormal	twu34Tg + MO1-snai1b	Fig. 1 from Qiao et al., 2014
cardioblast cell midline fusion delayed, abnormal	AB + MO1-snai1b	Fig. 2 from Qiao et al., 2014
cell migration involved in gastrulation decreased rate, abnormal	WT + MO1-snai1b	Fig. 5 from Blanco et al., 2007
cell migration to the midline involved in heart development delayed, abnormal	AB + MO1-snai1b	Fig. 2 from Qiao et al., 2014
cell migration to the midline involved in heart development process quality, abnormal	AB + MO1-snai1b	Fig. 2 from Qiao et al., 2014
cell-cell adhesion increased occurrence, abnormal	WT + MO1-snai1b	Fig. 5 from Blanco et al., 2007
convergent extension involved in axis elongation disrupted, abnormal	WT + MO1-snai1b	Fig. 1 from Blanco et al., 2007
heart looping process quality, abnormal	twu34Tg + MO1-snai1b	Fig. 1 , Fig. 2 from Qiao et al., 2014
pericardium edematous, abnormal	AB + MO1-snai1b	Fig. 1 , Fig. 2 from Qiao et al., 2014
polster increased length, abnormal	WT + MO1-snai1b	Fig. 3 from Blanco et al., 2007
polster morphology, abnormal	WT + MO1-snai1b	Fig. 3 from Blanco et al., 2007
post-vent region decreased length, abnormal	WT + MO1-snai1b	Fig. 1 from Blanco et al., 2007
posterior lateral line has fewer parts of type posterior lateral line neuromast, abnormal	zf106Tg + MO1-snai1b	Fig. 3 from Neelathi et al., 2018
posterior lateral line primordium anterior region etv4 expression decreased amount, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium anterior region ackr3b expression decreased amount, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium anterior region ackr3b expression decreased distribution, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium anterior region lef1 expression increased amount, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium anterior region cxcr4b expression increased amount, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium anterior region ackr3b expression increased amount, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium anterior region lef1 expression mislocalised, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium anterior region cxcr4b expression mislocalised, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium anterior region ackr3b expression mislocalised, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium central region etv4 expression decreased amount, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium central region lef1 expression increased amount, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium central region cxcr4b expression increased amount, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium central region cxcr4b expression mislocalised, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium central region lef1 expression mislocalised, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium posterior lateral line neuromast deposition delayed, abnormal	zf106Tg + MO1-snai1b	Fig. 3 from Neelathi et al., 2018
posterior lateral line primordium posterior lateral line neuromast primordium migration decreased rate, abnormal	zf106Tg + MO1-snai1b	Fig. 3 , Fig. 4 from Neelathi et al., 2018
posterior lateral line primordium posterior region cdh2 expression decreased amount, abnormal	zf106Tg + MO1-snai1b	Fig. 4 from Neelathi et al., 2018
posterior lateral line primordium posterior region etv4 expression decreased amount, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium posterior region epcam expression increased amount, abnormal	zf106Tg + MO1-snai1b	Fig. 4 from Neelathi et al., 2018
posterior lateral line primordium posterior region lef1 expression increased amount, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium posterior region lef1 expression increased distribution, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium posterior region lef1 expression mislocalised, abnormal	zf106Tg + MO1-snai1b	Fig. 5 from Neelathi et al., 2018
prechordal plate elongated, abnormal	WT + MO1-snai1b	Fig. 7 from Blanco et al., 2007
prechordal plate increased size, abnormal	WT + MO1-snai1b	Fig. S3 from Blanco et al., 2007
prechordal plate shape, abnormal	WT + MO1-snai1b	Fig. S3 from Blanco et al., 2007
somite shape, abnormal	WT + MO1-snai1b	Fig. 2 from Blanco et al., 2007
somite border morphology, abnormal	AB + MO1-snai1b	Fig. S7 from Qiao et al., 2014
trunk decreased length, abnormal	WT + MO1-snai1b	Fig. 1 from Blanco et al., 2007
whole organism anterior-posterior axis decreased length, abnormal	WT + MO1-snai1b	Fig. 1 from Blanco et al., 2007

Phenotype of all Fish created by or utilizing MO1-snai1b

Phenotype	Fish	Conditions	Figures
somite border morphology, abnormal	AB + MO1-snai1b	standard conditions	Fig. S7 from Qiao et al., 2014
heart looping process quality, abnormal	AB + MO1-snai1b	standard conditions	Fig. 1 , Fig. 2 from Qiao et al., 2014
cardioblast cell midline fusion delayed, abnormal	AB + MO1-snai1b	standard conditions	Fig. 2 from Qiao et al., 2014
cardiac muscle progenitor cell migration to the midline involved in heart field formation delayed, abnormal	AB + MO1-snai1b	standard conditions	Fig. 2 from Qiao et al., 2014
cell migration to the midline involved in heart development process quality, abnormal	AB + MO1-snai1b	standard conditions	Fig. 2 from Qiao et al., 2014
cardiac muscle progenitor cell migration to the midline involved in heart field formation process quality, abnormal	AB + MO1-snai1b	standard conditions	Fig. 2 from Qiao et al., 2014
pericardium edematous, abnormal	AB + MO1-snai1b	standard conditions	Fig. 1 , Fig. 2 from Qiao et al., 2014
cell migration to the midline involved in heart development delayed, abnormal	AB + MO1-snai1b	standard conditions	Fig. 2 from Qiao et al., 2014
prechordal plate increased size, abnormal	WT + MO1-snai1b	standard conditions	Fig. S3 from Blanco et al., 2007
whole organism anterior-posterior axis decreased length, abnormal	WT + MO1-snai1b	standard conditions	Fig. 1 from Blanco et al., 2007
post-vent region decreased length, abnormal	WT + MO1-snai1b	standard conditions	Fig. 1 from Blanco et al., 2007
polster morphology, abnormal	WT + MO1-snai1b	standard conditions	Fig. 3 from Blanco et al., 2007
polster increased length, abnormal	WT + MO1-snai1b	standard conditions	Fig. 3 from Blanco et al., 2007
cell-cell adhesion increased occurrence, abnormal	WT + MO1-snai1b	standard conditions	Fig. 5 from Blanco et al., 2007
somite shape, abnormal	WT + MO1-snai1b	standard conditions	Fig. 2 from Blanco et al., 2007
prechordal plate elongated, abnormal	WT + MO1-snai1b	standard conditions	Fig. 7 from Blanco et al., 2007
cell migration involved in gastrulation decreased rate, abnormal	WT + MO1-snai1b	standard conditions	Fig. 5 from Blanco et al., 2007
convergent extension involved in axis elongation disrupted, abnormal	WT + MO1-snai1b	standard conditions	Fig. 1 from Blanco et al., 2007
prechordal plate shape, abnormal	WT + MO1-snai1b	standard conditions	Fig. S3 from Blanco et al., 2007
trunk decreased length, abnormal	WT + MO1-snai1b	standard conditions	Fig. 1 from Blanco et al., 2007
cardiac ventricle decreased size, abnormal	twu34Tg + MO1-snai1b	standard conditions	Fig. 1 from Qiao et al., 2014
atrium position, abnormal	twu34Tg + MO1-snai1b	standard conditions	Fig. 1 from Qiao et al., 2014
heart looping process quality, abnormal	twu34Tg + MO1-snai1b	standard conditions	Fig. 1 from Qiao et al., 2014
posterior lateral line primordium posterior region etv4 expression decreased amount, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium anterior region cxcr4b expression increased amount, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium posterior lateral line neuromast primordium migration decreased rate, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 3 , Fig. 4 from Neelathi et al., 2018
posterior lateral line primordium posterior lateral line neuromast deposition delayed, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 3 from Neelathi et al., 2018
posterior lateral line primordium posterior region lef1 expression mislocalised, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium anterior region etv4 expression decreased amount, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium anterior region ackr3b expression increased amount, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium anterior region lef1 expression increased amount, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line has fewer parts of type posterior lateral line neuromast, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 3 from Neelathi et al., 2018
posterior lateral line primordium central region lef1 expression mislocalised, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium posterior region lef1 expression increased distribution, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium central region cxcr4b expression increased amount, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium posterior region lef1 expression increased amount, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium posterior region epcam expression increased amount, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 4 from Neelathi et al., 2018
posterior lateral line primordium anterior region ackr3b expression decreased amount, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium anterior region ackr3b expression mislocalised, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium central region cxcr4b expression mislocalised, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium central region lef1 expression increased amount, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium central region etv4 expression decreased amount, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium posterior region cdh2 expression decreased amount, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 4 from Neelathi et al., 2018
posterior lateral line primordium anterior region cxcr4b expression mislocalised, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium anterior region ackr3b expression decreased distribution, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
posterior lateral line primordium anterior region lef1 expression mislocalised, abnormal	zf106Tg + MO1-snai1b	standard conditions	Fig. 5 from Neelathi et al., 2018
prechordal plate mislocalised posteriorly, abnormal	WT + MO1-snai1b + MO2-snai1a + MO3-snai1a	standard conditions	Fig. 7 from Blanco et al., 2007
prechordal plate elongated, abnormal	WT + MO1-snai1b + MO2-snai1a + MO3-snai1a	standard conditions	Fig. 7 from Blanco et al., 2007
posterior lateral line primordium posterior lateral line neuromast primordium migration rate, ameliorated	zf106Tg + MO1-epcam + MO1-snai1b	standard conditions	Fig. 4 from Neelathi et al., 2018

Citations