myc has 10 expression phenotype(s)

Images

Sources

Experiment + Assay

Phenotypes

Human Diseases

fig.4.c

Xue XY and Harris WA (2012)

Xla Wt + myc MO

NF15 (in situ hybridization)

Expression Phenotype
decreased amount pax6.L expression in neural fold

fig.4.d

Xue XY and Harris WA (2012)

Xla Wt + myc MO

NF15 (in situ hybridization)

Expression Phenotype
decreased amount rax.L expression in anterior neural fold

fig.4.a7, a8

Xue XY and Harris WA (2012)

Xla Wt + myc MO

NF18-28 (in situ hybridization)

Expression Phenotype
decreased amount mycn.L expression in brain

fig.4.j

Xue XY and Harris WA (2012)

Xla Wt + myc MO

NF18 (in situ hybridization)

Expression Phenotype
decreased amount ccnd1.L expression in brain decreased amount ccnd1.L expression in optic vesicle

fig.4.k

Xue XY and Harris WA (2012)

Xla Wt + myc MO

NF18 (in situ hybridization)

Expression Phenotype
decreased amount ccna2.L expression in brain decreased amount ccna2.L expression in optic vesicle

fig.4.a7

Xue XY and Harris WA (2012)

Xla Wt + myc MO

NF18 (in situ hybridization)

Expression Phenotype
decreased amount mycn.L expression in optic vesicle

fig.4.l

Xue XY and Harris WA (2012)

Xla Wt + myc MO

NF18 (in situ hybridization)

Expression Phenotype
decreased amount cdk1.L expression in brain decreased amount cdk1.L expression in optic vesicle

fig.4.a8

Xue XY and Harris WA (2012)

Xla Wt + myc MO

NF28 (in situ hybridization)

Expression Phenotype
decreased amount mycn.L expression in eye decreased amount mycn.L expression in midbrain-hindbrain boundary

fig.4.r

Xue XY and Harris WA (2012)

Xla Wt + myc MO

NF28 (in situ hybridization)

Expression Phenotype
decreased amount ascl1.L expression in eye decreased amount ascl1.L expression in midbrain-hindbrain boundary

fig.4.s

Xue XY and Harris WA (2012)

Xla Wt + myc MO

NF28 (in situ hybridization)

Expression Phenotype
decreased amount atoh7.L expression in eye