Quicksearch Help

(Click the icon to keep this page displayed.)

EMAGE:14736

Axin2 axin2 ( MGI:1270862)
TS23 (14.5 dpc)
in situ hybridisation

Data Images
EMAGE:14736 EMAGE:14736 EMAGE:14736 EMAGE:14736 EMAGE:14736
"Pseudo-wholemount" of euxassay_005683. This image has been made by aligning and collapsing the constitutent sections. Information about the method. euxassay_005683_01 euxassay_005683_02 euxassay_005683_03 euxassay_005683_04
EMAGE:14736 EMAGE:14736 EMAGE:14736 EMAGE:14736 EMAGE:14736
euxassay_005683_05 euxassay_005683_06 euxassay_005683_07 euxassay_005683_08 euxassay_005683_09
EMAGE:14736 EMAGE:14736 EMAGE:14736 EMAGE:14736 EMAGE:14736
euxassay_005683_10 euxassay_005683_11 euxassay_005683_12 euxassay_005683_13 euxassay_005683_14
EMAGE:14736 EMAGE:14736 EMAGE:14736 EMAGE:14736 EMAGE:14736
euxassay_005683_15 euxassay_005683_16 euxassay_005683_17 euxassay_005683_18 euxassay_005683_19
EMAGE:14736 EMAGE:14736 EMAGE:14736 EMAGE:14736
euxassay_005683_20 euxassay_005683_21 euxassay_005683_22 euxassay_005683_23

View assay images: EMAGE genex expression entry
Expression pattern clarity: no stars
Find spatially similar wholemount expression patterns: Find spatially similar wholemount patterns
Expression Pattern Description
Spatial Annotation:
EMAGE:14736Annotation colour key:  
strong strong      
gene expression moderate moderate    
gene expression weak weak        
gene expression possible possible    
gene expression not detected not detected
wholemount mapping

Download individual expression domains:
14736_wholemount_strong.wlz
14736_wholemount_moderate.wlz
14736_wholemount_weak.wlz
14736_wholemount_possible.wlz
14736_wholemount_not_detected.wlz
(what is wlz format?)
Download all expression domains: EMAGE:14736_all_domains.zip
Find spatially similar wholemount expression patterns:  EMAGE spatially similar wholemount patterns
Morphological match to the template: one star
Text Annotation:
StructureLevelPatternNotes
hand skin
strong strong
regionalstrong expression: see section 07
adenohypophysis
strong strong
regionalstrong expression: see section 13 moderate expression: see section 09 11 12 14
skin
strong strong
regionalstrong expression: see section 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23
vibrissa
strong strong
regionalstrong expression: see section 22 moderate expression: see section 08 09 weak expression: see section 07
diencephalon lateral wall mantle layer
moderate moderate
regionalmoderate expression: see section 08 09 10 11 12 13 14 15 16 17 18
diencephalon lateral wall ventricular layer
moderate moderate
regionalmoderate expression: see section 12 13 14
diencephalon meninges
moderate moderate
regionalmoderate expression: see section 08 09 10 11 12 13 14 15 16 17 18 not examined expression: see section 04 05 06 07
thalamus
moderate moderate
regionalmoderate expression: see section 15
cerebral cortex mantle layer
moderate moderate
regionalmoderate expression: see section 15 16 17 not examined expression: see section 21
cerebral cortex ventricular layer
strong strong
regionalstrong expression: see section 07 08 09 10 11 12 13 14 17 18 19 20 moderate expression: see section 03 04 05 06 15 16 21
telencephalon meninges
moderate moderate
regionalmoderate expression: see section 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23
medulla oblongata basal plate ventricular layer
strong strong
regionalstrong expression: see section 01 02 03 04 07 12 14 15 16 17 18 19 moderate expression: see section 05 06 08 09 10 11
hindbrain meninges
strong strong
regionalstrong expression: see section 01 moderate expression: see section 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20
metencephalon rest of alar plate mantle layer
strong strong
regionalstrong expression: see section 13
metencephalon rest of alar plate ventricular layer
strong strong
regionalstrong expression: see section 01 02 03 04 10 11 12 14 15 16 17 18 19 moderate expression: see section 05 06 07 08 09
midbrain meninges
moderate moderate
regionalmoderate expression: see section 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18
midbrain mantle layer
strong strong
gradedstrong expression: see section 08 09 10 11 12 13 moderate expression: see section 14 15 16
spinal cord meninges
moderate moderate
regionalmoderate expression: see section 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19
inner ear
strong strong
regionalstrong expression: see section 01 moderate expression: see section 02 03 04 05 06 07 14 15 16 17 not examined expression: see section 20
pharyngo-tympanic tube
strong strong
regionalstrong expression: see section 01 moderate expression: see section 02 20 21 22 23
heart
moderate moderate
regionalmoderate expression: see section 07 08 09 10 11
tongue epithelium
strong strong
regionalstrong expression: see section 11 12 13 14 moderate expression: see section 15
lower jaw molar
moderate moderate
regionalmoderate expression: see section 07 08 19
oral epithelium
moderate moderate
regionalmoderate expression: see section 05 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21
upper jaw molar
moderate moderate
regionalmoderate expression: see section 07 08 19
metanephros
moderate moderate
regionalmoderate expression: see section 07 08 09 15 16 17
lung
strong strong
regionalstrong expression: see section 14 moderate expression: see section 02 03 04 05 06 07 08 09 10 11 12 13 15 16 17 18 19
Annotation Validation: spatial mapping by EMAGE editor, text annotation by author
Detection Reagent
Type:in situ hybridisation probe
Identifier:T9175
Entity Detected:Axin2, axin2 ( MGI:1270862)
Sequence:sense strand is shown

>T9175
GCGCGGCGGGATCACTGGCTCCCCGAGCCCGGCCCGGGGGAGTCGGCTGGAGCCGGCTGCGCTTTGATAA
GGTCCTGGCAACTCAGTAACAGCCCAAGAACCGGGAAATAAAAATAAGCAGCCGTTCGCGATGGATTTCG
GGGCCACCCGGAGGCCGAGGCGTCCGCCTCCCCAAAGGAGAGCTTTGCTGTAAAAGAGAGGAGGCTCACA
TGAGCCCCTGCTGACTTAAGAGAGACCAAGCCGATTGCTGAGAGGAACTGGAAGAAGAAAAAGGAGGAGG
AGGGAAAAAAAGCAAAACAAAATCCAAACTCAGTGAGACGCTCTCCCTCACCATGAGTAGCGCCGTGTTA
GTGACTCTCCTTCCAGATCCCAGCAGCAGCTTCCGCGAGGATGCTCCGCGGCCCCCGGTTCCGGGAGAAG
AAGGGGAGACCCCACCGTGTCAGCCTAGTGTGGGCAAGGTCCAGTCCACCAAACCTATGCCCGTTTCCTC
TAATGCTAGGCGGAATGAAGATGGACTGGGGGAGCCCGAGGGGCGGGCCTCCCCCGATTCCCCTTTGACC
AGGTGGACCAAGTCTTTACACTCCTTGTTGGGTGACCAGGATGGTGCATACCTCTTCCGGACTTTCCTGG
AGAGGGAGAAATGTGTGGATACGCTGGACTTCTGGTTTGCTTGTAATGGGTTCAGGCAGATGAACCTGAA
GGATACCAAAACTTTGCGAGTGGCCAAAGCAATCTATAAGAGGTACATTGAGAACAACAGCGTTGTCTCC
AAGCAGCTGAAGCCCGCCACCAAGACCTACATACGAGATGGCATCAAGAAGCAACAGATCGGCTCGGTCA
TGTTTGACCAGGCACAGACCGAGATCCAGGCAGTGATGGAGGAAAATGCCTACCAGGTGTTCTTGACTTC
TGACATTTACCTGGAATATGTGAGGAGTGGGGGGGAAAACACAGCTTACATGAGTAACGGGGGACTGGGG
AGCCTAAAGGTCTTATGTGGCTACCTCCCCACCTTGAATGAAGAAGAGGAGTGGACGTGTGCCGACCTCA
AGTGCAAACTCTCACCCACCGTGGTTGGCTTGTCCAGCAAAACTCTTCGGGCCACCGCGAGTGTGAGATC
CACGGAAACAGCTGAAAACGGATTCAGGTCCTTCAAGAGAAGCGACCCAGTCAATCCTTATCACGTAGGT
TCCGGCTATGTCTTTGCACCAGCCACCAGCGCCAACGACAGCGAGTTATCCAGCGACGCACTGACCGACG
ATTCCATGTCCATGACGGACAGTAGCGTAGATGGAGTCCCTCCTTACCGCATGGGGAGTAAGAAACAGCT
CCAGAGAGAGATGCATCGCAGTGTGAAGGCCAATGGCCAAGTGTCTCTACCTCATTTTCCGAGAACCCAC
CGCCTGCCCAAGGAGATGACGCCTGTGGAACCTGCTGCCTTCGCCGCCGAGCTCATCTCCAGGCTGGAGA
AACTGAAACTGGAGCTGGAAAGCCGCCATAGTCTGGAGGAGCGGCTGCAGCAGATCCGGGAGGATGAAGA
AAAGGAGGGGTCTGAGCAGGCCCTGAGCTCACGGGATGGAGCACCGGTCCAGCACCCCCTGGCCCTCCTA
CCCTCCGGCAGCTATGAAGAGGACCCACAAACCATTTTGGACGACCACCTCTCCAGGGTCCTCAAGACCC
CCGGCTGTCAATCCCCTGGTGTGGGTCGCTATAGCCCACGGTCCCGCTCCCCCGACCACCACCACCAGCA
CCACCACCATCAGCAGTGTCATACCCTTCTTCCGACTGGGGGCAAGCTGCCCCCCGTGGCTGCTTGCCCC
CTCCTTGGAGGCAAGAGCTTCCTGACCAAACAGACGACGAAGCACGTTCACCACCACTACATCCACCACC
ACGCTGTCCCCAAGACCAAGGAGGAGATCGAGGCAGAAGCCACACAGAGAGTCCGCTGCCTCTGTCCTGG
GGGAACAGATTATTATTGCTACTCCAAATGCAAAAGCCACCCAAAGGCTCCAGAGCCCCTGCCTGGGGAG
CAGTTTTGTGGCAGCAGAGGTGGTACCTTGCCAAAACGGAATGCAAAGGGCACCGAACCGGGTCTTGCAC
TGTCGGCCAGGGATGGAGGGATGTCCAGTGCAGCGGGGGCCCCCCAGCTTCCTGGGGAAGAAGGAGACCG
GTCACAGGATGTCTGGCAGTGGATGTTAGAGAGTGAGCGGCAGAGCAAGTCCAAGCCCCATAGTGCCCAA
AGCATAAGAAAGAGCTACCCATTGGAGTCTGCCTGTGCGGCCCCAGGAGAACGAGTCAGCCGGCACCATC
TGTTGGGGGCCAGCGGACACTCCCGCTCGGTGGCCCGGGCTCACCCATTTACCCAGGACCCTGCAATGCC
TCCCCTTACCCCACCCAACACTTTGGCACAGCTAGAGGAAGCCTGCCGCAGGCTGGCAGAGGTGTCGAAG
CCCCAGAAGCAGCGGTGCTGCGTGGCCAGTCAGCAGAGGGACAGGAACCACTCGGCTGCTGGTCAGGCAG
GAGCCTCACCCTTCGCCAACCCAAGCCTGGCTCCAGAAGATCACAAAGAGCCAAAGAAACTGGCAAGTGT
CCACGCGCTCCAGGCCAGTGAGCTGGTTGTCACCTACTTTTTCTGTGGAGAAGAAATTCCATACAGGAGG
ATGCTGAAGGCTCAAAGCTTGACCCTGGGCCACTTCAAGGAGCAGCTCAGCAAAAAGGGAAATTACAGGT
ATTATTTCAAGAAGGCGAGTGACGAATTTGCCTGCGGAGCAGTTTTTGAGGAGATCTGGGACGACGAGAC
AGTGCTCCCCATGTACGAAGGCAGGATCCTGGGCAAAGTGGAGAGGATCGACTGAGCCTTGGCCTCCTCG
GCGTGCAACCTGGGCAAGCACCTCGGCGTGCACCATGGAGCCGAAGCCCAGAGACCCTGTCTCAGGCCTA
CGCAACAGCCACGAAATATTCTGAAGGAAAATGAAACCAATTAAGAAGACAAAGCCTAGGGAGGGACTGG
CGCCTGGGCCTTCAGGAGGGCGGGGGTAGTTGATCTTCAGTCTCCAGGAGCCTGGGTACCGAGATGAGAA
AAGCCTGAACTATTTATTCAAAACATGACCACTCTGGGCTATAGAAGATGCTGAGTGTGTTTGAGAGACT
GACATACATAATAGATGACTTCCTAGGGTTCTGAAATTCATAGACTAAGAGAAAACTGTGTATAGCTTGC
CCGAACAGGAGTCCTTACTGATATTTATTGAACAGTCGATTCCCCTACCCGCCCTCCCTACCCCCAGCCC
CCAGTTTATGCTGCTTTTAAACCTGGAAGTGGGAGTGAGAAGTTTGGATTGCTGTCCACGCTTAGGAGCC
AAGCCGGGAATGCATTAATCATTTCTTCGTTAACAGAGGAATCTGCTCTGCATGGCATTTCTCCAAGTGA
AGACAGGCTTCTTTTTTTTTTTTTTAAATGGTGCCCGCCCCACCCATCGACACATGCAGAAATGGGTCAC
CCCCACCCCACCCCACCCCCCGCCATGCTGCTCTGCTTGTCACAGACGTCCTGTGGGTTGGTTGTGACAG
CATCTTCACCACTTTGGGGACCATCCAGAGTGGGGGAGTGGGGGAGACTTCACCCTGGAGCCAAAGGCTA
CACCGTACGTGTAGTCCCAGAGCCCGTCACAGCCCTTGTGGTTCAAGCTTCTTCTGCCTCTTTAGGAAGT
GAGGGTTTCTTGTTCTCCTTTAAAAATCAGTCTCTAGACTACGGCCATCAGGAATCTACCCTCGCCCACC
TGACCCTGCGAGGACACGGGCACCCAGCAGCACCTCTCCTCTGTTACCTTCCCCTTGGCGATCGCTCGGG
TTTGTGTTAAGTTAATCTGTATGTCCTGTCTGCCAGCGTTCCCTGTACTATAGGCCTGTGTATAGTGTAG
GGCAGAGCGTTGACCCACTGGCTAGTGCTTGACTTGGGAATCAGGACAGTACCTGTACAGGCACGGGGAC
CCGCTCCGTCCGTGCGCCGCCCTATATTGAGGGCTCCAGCTCTCCCTTGGTTTTTGAAAGGGGTTTATGT
ATAAATATATTTTATGCCTTTTTATTACAAGTCTTGTTACTCAATGACTTTTGTCATGGCAGTTTGTTCT
ACTTTAGACTGTAAATTATGCATTATAAAGAGTTCATTTAAAGAAAACTACTTGGTACAATAATTATTGT
AATTAAGAGATGTAGCCTTTATTAAAATTTTATATTTTTCAAAAAAAAAAAAAAAAAAAAAAA
Notes:The probe template was PCR amplified from IMAGE:6827741 using vector (pYX-Asc) specific primers. Forward Primer - name:RZPD T3, sequence:ATTAACCCTCACTAAAGGGA; Reverse Primer - name:RZPD T7, sequence:TAATACGACTCACTATAGGG. Anti-sense probe was then transcribed from the PCR amplified template using T7 polymerase. EMAGE Editor's Note: the probe sequence indicated here was given by the EURExpress Consortium and has been checked using a computational method whereby a BLAST comparison was made against the full insert sequence of IMAGE:6827741 which was retrieved directly from NCBI.
Chemistry:RNA
Strand:antisense
Label:digoxigenin
Specimen
Organism:mouse
Strain:C57BL/6
Age:14.5 dpc
Theiler Stage:TS23
Mutations:none (wild-type)
Preparation:section
Procedures
Fixation:none
Embedding:cryosection (OCT)
Staining procedure:alkaline phosphatase + NBT/BCIP
General Information
Authors:Dr. Graciana Diez-Roux, Prof. Gregor Eichele, Prof. Richard Baldock, Dr. Duncan Davidson, Prof. Stylianos Antonarakis, Dr. Marie Laure Yaspo, Prof. Salvador Martinez Perez, Dr. Pascal Dolle, Dr. David Tannahill, Prof. Pier Paolo Di Fiore, Mr. Stefan Kruse, Mr. Paolo Sarmientos, Dr. Uwe Radelof, Prof. Andrea Ballabio.
Principal investigator:Professor Andrea Ballabio, Fondazione Telethon, TIGEM Instituto di Genetica e Medicina, Via Pietro Castellino 111 80131, Napoli, Italy 80131
Submitted by:EMAGE EDITOR, Institute of Genetics and Molecular Medicine, Western General Hospital, Crewe Road, Edinburgh, UK EH4 2XU
Experiment type:screen
References:[ doi:10.1371/journal.pbio.1000582] [ PMID:21267068] Diez-Roux G, Banfi S, Sultan M, Geffers L, Anand S, Rozado D, et al 2011 A High-Resolution Anatomical Atlas of the Transcriptome in the Mouse Embryo PLoS Biol (9)
Links:EMAGE:14737 same embryo
 EMAGE:14739 same embryo
 EMAGE:14738 same embryo
 EurExpress:euxassay_005683 same experiment
 MGI:4823366 same experiment
  Ensembl same gene
  Allen Brain Atlas same gene
  BioGPS same gene
  International Mouse Knockout Project Status same gene
  GEISHA Chicken ISH Database same gene
  EMBL-EBI Gene Expression Atlas same gene
  BrainStars same gene
  ViBrism same gene
Data SourceEUREXPRESS