HUDSEN:1113

NR2F2 nuclear receptor subfamily 2 group F member 2(NM_001145155)
CS 12PCW
immunohistochemistry

Data Images
HUDSEN:1113 HUDSEN:1113 HUDSEN:1113 HUDSEN:1113 HUDSEN:1113
Fetus 11761, brain slice 1, slide 50, section 2. Fetus 11761, brain slice 2, slide 18, section 1. Fetus 11761, brain slice 3, slide 014, section 2. Fetus 11761, brain slice 3, slide 042, section 3. Fetus 11761, brain slice 3, slide 078, section 1.
HUDSEN:1113 HUDSEN:1113
Fetus 11761, brain slice 3, slide 087, section 2. Fetus 11761, brain slice 3, slide 101, section 2.
Expression pattern clarity: three stars
Notes
Strong expression is detected in the developing cortex and ganglionic eminences.
Detection Reagent
Type:antibody
Identifier:Human COUP-TF II/ NR2F2 Antibody
Entity Detected:NR2F2, nuclear receptor subfamily 2 group F member 2(NM_001145155)
Antigen:aa 43 - aa 64 of NM_001145155
Antibody Type:monoclonal
Raised In:mouse
Supplier:R&D Systems
Catalogue Number:H7147
Specimen
Organism:human
Carnegie Stage:12PCW
Preparation:section
Expression Pattern Description
Procedures
Specimen Fixation:4% paraformaldehyde
Embedding:paraffin
Visualisation method:DAB
General Information
Authors:Ayman Alzu'bi
Principal investigator:Dr Gavin Clowry, Institute of Neuroscience, Newcastle University, The Medical School, Framlington Place,, Newcastle upon Tyne, United Kingdom NE2 4HH
Submitted by:Janet Kerwin, Institute of Genetic Medicine, Newcastle University, International Centre for Life, Central Parkway, Newcastle upon Tyne, UK NE1 3BZ
Experiment type:non-screen
References:PMID:27905023 Alzu'bi A, Lindsay S, Kerwin J, Looi SJ, Khalil F, Clowry GJ. 2016 Distinct cortical and sub-cortical neurogenic domains for GABAergic interneuron precursor transcription factors NKX2.1, OLIG2 and COUP-TFII in early fetal telencephalon. Brain Struct Funct (Nov 30)
Links: EMAGE same gene
  Allen Brain Atlas same gene
  BioGPS same gene

The HuDSeN Gene Expression Spatial database currently contains data from CS12 to CS23. We are in the process of upgrading the database to include fetal gene expression patterns spatially mapped into 3D models. In the meantime the fetal gene expression images are available to view here.


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