nog has 12 expression phenotype(s)
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Images Sources Experiment + Assay Phenotypes Human Diseases
Fig. S 4 e f

Lee H et al. (2020) 		Xtr Wt + nog CRISPR

NF11 (in situ hybridization)
Expression Phenotype
increased amount szl expression in ventral marginal zone
increased amount ventx1.2 expression in dorsal marginal zone
Fig. S 4 e f

Lee H et al. (2020) 		Xtr Wt + nog CRISPR + rspo2 CRISPR

NF11 (in situ hybridization)
Expression Phenotype
increased amount szl expression in ventral marginal zone
increased amount ventx1.2 expression in dorsal marginal zone
fig.7.f

Rothe M et al. (2017) 		Xla Wt + nog + epha4 MO + animal cap explant

NF13 (real time PCR)
Expression Phenotype
increased amount axin2.L expression in animal cap
fig.7.f

Rothe M et al. (2017) 		Xla Wt + nog + sipa1l3 MO + animal cap explant

NF13 (real time PCR)
Expression Phenotype
increased amount axin2.L expression in animal cap
fig.1.e

Eroshkin FM et al. (2016) 		Xla Wt + nog

NF15 (in situ hybridization)
Expression Phenotype
increased amount foxg1.L expression in pre-chordal neural plate
fig.1.i

Eroshkin FM et al. (2016) 		Xla Wt + nog

NF15 (in situ hybridization)
Expression Phenotype
increased amount rax.L expression in pre-chordal neural plate
fig.1.m

Eroshkin FM et al. (2016) 		Xla Wt + nog

NF15 (in situ hybridization)
Expression Phenotype
decreased amount otx2.S expression in pre-chordal neural plate
increased amount otx2.S expression in pre-chordal neural plate border
fig.1.q

Eroshkin FM et al. (2016) 		Xla Wt + nog

NF15 (in situ hybridization)
Expression Phenotype
increased amount pax6.L expression in pre-chordal neural plate
fig.4.f

Steventon B and Mayor R (2012) 		Xla Wt + Hsa.NOG

neurula stage (in situ hybridization)
Expression Phenotype
mislocalised hes4.S expression in neural plate border
fig.4.g

Steventon B and Mayor R (2012) 		Xla Wt + Hsa.NOG

neurula stage (in situ hybridization)
Expression Phenotype
increased amount sox2.L expression in neural plate