GEISHA - A Chicken Embryo Gene Expression Database
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ADAM33
ADAM metallopeptidase domain 33

Gene
Official SymbolADAM33
Official Full NameADAM metallopeptidase domain 33
CGNC ID11979
also known asADAM13, disintegrin and metalloproteinase domain-containing protein 33|a disintegrin and metalloprotease 13, A disintegrin and metalloprotease 13, ADAM13, ADAM33
gene typeprotein-coding
Genomic Map
 Ensembl
NCBI
UCSC
Gallus-Browse
Sequence Information
Genomic
RNANM_001082418
PolypeptideNP_001075887
Sequence Clusters/ESTsUnigene
Gene Expression
In Situ HybridizationGEISHA
EST ProfileGga.39591
Orthology
Entrez GeneEnsembl GeneGenetic PhenotypesMOD
Fruit Fly
Human80332ENSG00000149451MIM:607114
Mouse110751ENSMUSG00000027318All phenotypic alleles (7):Targeted, knock-out(3) Targeted, other(4) MGI:1341813
Xenopus677728, 386623988106
Zebrafish
Gene Ontology
Molecular Function
Biological Process
Cellular Component
Links to other databases
Entrez Gene422948
Ensembl GeneENSGALG00000016038
KEGGgga:422948

Entry 1

GEISHA IdADAM33.UApcrData SourceGEISHA ISH Analysis
Forward cDNA Template PrimerTGCGGTGAGCAGCAATGATAC
Reverse cDNA Template PrimerATTAACCCTCACTAAAGGCCTCTCCATCTTCCAGAAAGCCcDNA Template Length866
Forward cDNA Template Probeshow
ATTTCGTCCACCACCAGGGTCCTTGGTGTCGGGCAGGTTGAAGAGACACATGCCACCTCCCTTCTGGAAGTAGTTCTCC
AACTGCCTCTTGCTGCAGGAGCTGAAGACACGTGGGAAGGGGTGCCCGGTGGCCGCTGCCATCACACAGCCTCCTTGTT
CCGGGGTGGCCTCCACGCAGCAGCCTTGGCTGTCGTGGCTCATGCCGAAGTTGTGGCCAATCTCATGGGCCATGGTGGC
TGCTGCTCCAATGGGAAGCTCCGAGTGGTCCACGCTGACCCCTCCGGAGTTGTCTGCACTGCACATTCCCTCCAGTGGG
GCCATGCCAATGGTCGTCCCCCGGAATGTCTTCCCGGTCAGCAGCTGCGCGTTGTCGTGCTTCTTGCGAGCCCTCAGAG
CCTTCTTCCACTGCAGGAAGGCCCAGAGCGTGGCGTTGGCATCGCTGGTGACAGTGCACTGGTCCCGCTCCGTCCACAC
CTCCAGTCCAATCAGGGCCACCTTGATGTTCAGCAACCTGTAGAACTTGTCCACGTAGTTGGCGATCTCCACGATTCGC
TGCTTGGTGAGGCCCAGGTTGAGGTTCTGGTTCCTGAACAGCGTGTGGTCAGCAACGATGAAGAGCTCCATGTACTTCA
TGGTCCTCCAGGCATCTCTCTTCACCCGCCGGTCCACCAGCTGGAAGAGCCGGGTGATGTCATCAATAGTGTTCCCAAA
GTCACTGCCGTGGGCACAGGTGCCACCAGGGATGTGCAGGTGCTCTGCTCTGTGGATGAAGTGGTGGTTCGGCTCAGGT
GTCCCCACAGGGTGCAGGTAGTAGGTATCATTGCTGCNNCNACCGCAA
StageImage (click image to view full size)Location (click to highlight)Comments (click to highlight)
4-6
stage 6
Unlabeled
 
7-12
stage 8
stage 8
stage 8
stage 8
stage 8
stage 9
stage 11
Ectoderm
Head Mesenchyme
Neural Crest
Neural Plate/Tube
Notochord
Sclerotome
Somatic Mesoderm
Somites
Splanchnic Mesoderm
extraembryonic endoderm
extraembryonic mesoderm
 
19-24
stage 19
stage 20
stage 20
stage 20
stage 21
stage 21
stage 21
Aorta
Dermomyotome
Eye
Forebrain
Foregut
Head Mesenchyme
Heart
Hindbrain
Isthmus/MHB
Leg Mesenchyme
Mesonephros
Midbrain
Nephric Ducts
Oral Pharynx
Pharyngeal Arches and Clefts
Sclerotome
Somatic Mesoderm
Somites
Spinal Ganglia and Nerves
Trunk Mesenchyme
Widespread Expression
Wing Mesenchyme
 
25-26
stage 25
stage 25
stage 26
stage 26
stage 26
stage 26
stage 26
Allantois
Anterior/Second Heart Field
Aorta
Foregut
Head Mesenchyme
Heart
Hindgut
Leg Mesenchyme
Lung
Mesonephros
Midgut
Outflow Tract
Pharyngeal Arches and Clefts
Sclerotome
Somatic Mesoderm
Spinal Cord
Spinal Ganglia and Nerves
Wing Mesenchyme
dorsal mesentery

Entry 2

GEISHA IdADAM13.Lin.2007Data SourcePublication
Complete cDNA Template Probeshow
CGATGCCAACGCCACGCTCTGGGCCTTCCTGCAGTGGAAGAAGGCTCTGAGGGCTCGCAAGAAGCACGACAACGCGCAG
CTGCTGACCGGGAAGACGTTCCGGGGGACGACCATTGGCATGGCCCCACTGGAGGGGATGTGCAGTGCAGACAACTCTG
GAGGGGTCAGCGTGGACCACTCGGAGCTTCCCATTGGAGCAGCAGCCACCATGGCCCATGAGATTGGCCACAACTTCGG
CATGAGCCACGACAGCCAAGGCTGCTGCGTGGAGGCCACCCCGGAACAAGGAGGCTGTGTGATGGCAGCGGCCACCGGG
CACCCCTTCCCACGTGTCTTCAGCTCCTGCAGCAGGAGGCAGTTGGAGAACTACTTCCAGAAGGGAGGTGGCATGTGTC
TCTTCAACCTGCCCGACACCAAGGACCTGGTGGTGGGACGGAAATGTGGCAACGGCTTTCTGGAAGATGGAGAGGACTG
TGACTGTGGGGAGGTGGAGGAGTGCACCAACCCATGCTGCAATGCACACAACTGCACGCTGAAGATGGGGGCTCAGTGT
GCCCATGGTGACTGCTGCCAGAACTGCAGGCTGAAGGTGGCTGGGACCATCTGCAGGGAAGCAGCAGGATCCTGGGACC
TCCCTGAATACTGCACTGGTGCCTCACCCTACTGCCCAGCCAATGTGTACCTGCTGGATGGCTCGTCCTGTGCCTATGG
TGGGGCATACTGCAACAATGGCATGTGCATGACCCACCACCAACAGTGTGTCCAGCTCTGGGGACCAGGAGCCTGGCCA
GCCCCAGCTGCCTGTTTCCAAGATGTGAACATGGCTGGGAACACCTATGGCAACTGTGGCAAAGACAGCCAAGGGCGCT
ACGTGAAGTGCGACAAGAGAGATGCCATGTGTGGCAAGATCCAGTGCCAGAGCTCAGCCAAGAAGCCCCAGGGGACCAA
CACTGTCTCCATTGACACCACCATCCGCTTCAATGGACGGGAGGTGAAGTGCCGGGGCACCTACATGTACACTGCCAAG
GATGATGAAGAAGACCTCTCCGACCCTGGGCTGGTGATGACGGGGACGAAATGTGGAGATGGAATGGTTTGCAAAGACC
GCCGGTGCCAGAACGCCTCCCTTTTTGAGCTGGAGAAGTGCGTTTCCCGGTGCAACGGCCATGGGGTTTGCAACAGCAA
CAAGAACTGCCACTGCAACGCGGGTTGGGCTCCTCCATACTGCGAGAAGCCGGGCTTGGGAGGCAGCGTGGACAGTGGC
CCCGTGCAGCAT
CitationLin J, Redies C, Luo J. Regionalized expression of ADAM13 during chicken embryonic development. Dev Dyn. 2007 Mar;236(3):862-70.
CopyrightCopyright © 2007 Wiley-Liss, Inc.
CommentsSequence below was obtained from NCBI (NM_001082418) using the primers given in the publication: 5'-CGATGCCAACGCCACGCTCTG-3' as ADAM13-Forward and 5'-ATGCTGCACGGGGCCACTGTCC-3' as ADAM13-Reverse.
StageImage (click image to view full size)Location (click to highlight)Comments (click to highlight)
7-12
stage 10
Head Mesenchyme
 
13-18
stage 13
stage 13
stage 13
stage 13
stage 13
stage 17
Dermatome
Dermomyotome
Head Mesenchyme
Myotome
Pharyngeal Arches and Clefts
Sclerotome
Somites
 
19-24
stage 20
stage 20
stage 20
stage 20
stage 24
stage 24
stage 24
stage 24
stage 24
Aorta
Dermatome
Dermomyotome
Glomeruli
Head Mesenchyme
Mesoderm
Myotome
Nephric Ducts
Nephric Tubules
Pharyngeal Arches and Clefts
Renal
Sclerotome
Branchial Arch Arteries
Meninges
Mesonephros
Scleromyotome
25-30
stage 26
stage 28
stage 28
stage 28
stage 28
stage 28
stage 28
stage 28
stage 28
Aorta
Glomeruli
Head Mesenchyme
Hindgut
Intermediate Mesoderm
Leg Muscles
Myotome
Nephric Ducts
Nephric Tubules
Neural Crest
Pharyngeal Arches and Clefts
Sclerotome
Trunk Mesenchyme
Wing Muscles
Meninges
Mesonephros
Small Intestine
31-36
stage 36
stage 36
stage 36
stage 36
stage 36
stage 36
stage 36
stage 36
stage 36
stage 36
stage 36
Aorta
Arteries
Esophagus
Gizzard
Glomeruli
Hindgut
Leg Muscles
Mesoderm
Nephric Ducts
Nephric Tubules
Stomach
Trunk Mesenchyme
Wing Muscles
Carotid Arteries
Chondroblasts
Large Intestine
Meninges
Muscles of the Thorax and the Abdominal Wall
Proventriculus
Small Intestine

Entry 3

GEISHA IdADAM13.Yan.2011Data SourcePublication
Complete cDNA Template Probeshow
GGCAGAGGCTGTGACAGCCCCGGGGAGTGCGGGCATGGCGAGGTTGGCCCCCCACGTGTCCCCTAAATGGAGGGGCTTC
GCTGTCATTTTTGGGGATCACGTCTTGCTGCTGGGGCTGCTGCTGCTCCCTGGGCACGGGGGTGCTGCTGGGACACGAG
GGCCGATGTCCCACGGAGAGCGGGTGACACCACACTGGCTCCTGGGGGGTCGCAGCCGGCGAGCCGTCAGCCTGGATGA
TGAGGTGCCAGCGCCGGCGCGGGCGGAGGTGGCTGTGATGGCTGAGGGCAGAGAGCTCATTCTGGTGCTGGAGAGGAAC
CAGCTGCTGGCACCAGGCTATACTGAGACGCACTACACCACAGATGGGCAGCCCGTGACGGTGACCCCCAACCACACGG
ACCACTGCCACTACCATGGGCACGTACGGGGCCGCAGGAACTCCTGGGTCGTCCTCAGCACCTGCTCAGGAATGCGGGG
CTTGATTGCGGTGAGCAGCAATGATACCTACTACCTGCACCCTGTGGGGACACCTGAGCCGAACCACCACCTCATCCAC
AGAGCAGAGCACCTGCACATCCCTGGTGGCACCTGTGCCCACGGCAGTGACTTTGGGAACACTATTGATGACATCACCC
GGCTCTTCCAGCTGGTGGACCGGCGGGCGAAGAGAGATGCCTGGAGGACCATGAAGTACATGGAGCTCTTCATCGTTGC
TGACCACACGCTGTTCAGGAACCAGAACCTCAACCTGGGCCTCACCAAGCAGCGAATCGTGGAGATCGCCAACTACGTG
GACAAGTTCTACAGGTTGCTGAACATCAAGGTGGCCCTGATTGGACTGGAGGTGTGGACGGAGCGGGACCAGTGCACTG
TCACCAGCGATGCCAACGCCACGCTCTGGGCCTTCCTGCAGTGGAAGAAGGCTCTGAGGGCTCGCAAGAAGCACGACAA
CGCGCAGCTGCTGACCGGGAAGACGTTCCGGGGGACGACCATTGGCATGGCCCCACTGGAGGGGATGTGCAGTGCAGAC
AACTCTGGAGGGGTCAGCGTGGACCACTCGGAGCTTCCCATTGGAGCAGCAGCCACCATGGCCCATGAGATTGGCCACA
ACTTCGGCATGAGCCACGACAGCCAAGGCTGCTGCGTGGAGGCCACCCCGGAACAAGGAGGCTGTGTGATGGCAGCGGC
CACCGGGCACCCCTTCCCACGTGTCTTCAGCTCCTGCAGCAGGAGGCAGTTGGAGAACTACTTCCAGAAGGGAGGTGGC
ATGTGTCTCTTCAACCTGCCCGACACCAAGGACCTGGTGGTGGGACGGAAATGTGGCAACGGCTTTCTGGAAGATGGAG
AGGACTGTGACTGTGGGGAGGTGGAGGAGTGCACCAACCCATGCTGCAATGCACACAACTGCACGCTGAAGATGGGGGC
TCAGTGTGCCCATGGTGACTGCTGCCAGAACTGCAGGCTGAAGGTGGCTGGGACCATCTGCAGGGAAGCAGCAGGATCC
TGGGACCTCCCTGAATACTGCACTGGTGCCTCACCCTACTGCCCAGCCAATGTGTACCTGCTGGATGGCTCGTCCTGTG
CCTATGGTGGGGCATACTGCAACAATGGCATGTGCATGACCCACCACCAACAGTGTGTCCAGCTCTGGGGACCAGGAGC
CTGGCCAGCCCCAGCTGCCTGTTTCCAAGATGTGAACATGGCTGGGAACACCTATGGCAACTGTGGCAAAGACAGCCAA
GGGCGCTACGTGAAGTGCGACAAGAGAGATGCCATGTGTGGCAAGATCCAGTGCCAGAGCTCAGCCAAGAAGCCCCAGG
GGACCAACACTGTCTCCATTGACACCACCATCCGCTTCAATGGACGGGAGGTGAAGTGCCGGGGCACCTACATGTACAC
TGCCAAGGATGATGAAGAAGACCTCTCCGACCCTGGGCTGGTGATGACGGGGACGAAATGTGGAGATGGAATGGTTTGC
AAAGACCGCCGGTGCCAGAACGCCTCCCTTTTTGAGCTGGAGAAGTGCGTTTCCCGGTGCAACGGCCATGGGGTTTGCA
ACAGCAACAAGAACTGCCACTGCAACGCGGGTTGGGCTCCTCCATACTGCGAGAAGCCGGGCTTGGGAGGCAGCGTGGA
CAGTGGCCCCGTGCAGCATGACAATCACGAAGCCATCTTGGTAACAATTCTGCTCATCTTCCTGCTCTTCCTCCCGGTC
CTGGTGGGGAGCATTTACTTCTGGTACCGGCGGGAGAACTCGCTTCTGAATAAGTGGATCAAGGAGGTGAGGAGGAGGA
GCCGGGAGACATACAGGAACACAACCTTCGGTCGGAAGGCAACCAGTGGCCATTCCAAAGCTGCTTTCACCTTACGGAA
CATTTCCACCTCCAGCCATGATAACAAAGCGGCGCGGGCTGCGTTCCCCCCCAAAACCTGCCCTCGCCAACCCGGCTTC
CAACCCGTCAACGTTGTTCATCCCTTTCGACCACCTCCTCACTCCATCCCTCCACGCCCAAGGGACCCCAAGCCTGCCA
GACCACCTCCTCCAGCCAGCAAGTCGCCCATGGTCCCCACCAAAACAGTCGTCTCTCAAGCAAAGCTGCCTCCTCCTAA
GAAACCTCTTCCCTCCAGCCCTGTGAGGACGCCAGTGGTGGGCCCAAAGCACCAGCCGCCACGTCGGCCACTGCCTGGA
TGTCCTTTTCTGGCCAAAGAGCTGCCTCCTGCACATGGACAGACCCTGCTGGTCACGGTCCCTCCTACCAACTTCAAGG
CCTTTGGTACAAGTGCCACGAGCCACTCGACGAGGCCATCCAAGCCGATGCCACTTCAAAGGCCAGTCCCAGCCATCAA
AGTCCAGTCAACCTCCTTCCCCTTGAAGAAGTGACAAACCAAAGGACACCTTAAGCCCATCCTTCCTGAGCTGGCTCTC
CTGATTTGCACTGCTGCTGGCGACAGGGGTCTTCTATTCCTCTCATTTTATTGTG
CitationYan X, Lin J, Rolfs A, Luo J. Differential expression of the ADAMs in developing chicken retina. Dev Growth Differ. 2011 Jun;53(5):726-39.
Copyrightcopyright 2011 The Authors
StageImage (click image to view full size)Location (click to highlight)Comments (click to highlight)
25-30
stage 27
stage 27
Retina
 
31-44
stage 31
stage 35
stage 38
stage 40
stage 40
stage 42
stage 44
Retina
Unlabeled
 

Entry 4

GEISHA IdADAM13.Lin.2010BData SourcePublication
Complete cDNA Template Probeshow
GGCAGAGGCTGTGACAGCCCCGGGGAGTGCGGGCATGGCGAGGTTGGCCCCCCACGTGTCCCCTAAATGGAGGGGCTTC
GCTGTCATTTTTGGGGATCACGTCTTGCTGCTGGGGCTGCTGCTGCTCCCTGGGCACGGGGGTGCTGCTGGGACACGAG
GGCCGATGTCCCACGGAGAGCGGGTGACACCACACTGGCTCCTGGGGGGTCGCAGCCGGCGAGCCGTCAGCCTGGATGA
TGAGGTGCCAGCGCCGGCGCGGGCGGAGGTGGCTGTGATGGCTGAGGGCAGAGAGCTCATTCTGGTGCTGGAGAGGAAC
CAGCTGCTGGCACCAGGCTATACTGAGACGCACTACACCACAGATGGGCAGCCCGTGACGGTGACCCCCAACCACACGG
ACCACTGCCACTACCATGGGCACGTACGGGGCCGCAGGAACTCCTGGGTCGTCCTCAGCACCTGCTCAGGAATGCGGGG
CTTGATTGCGGTGAGCAGCAATGATACCTACTACCTGCACCCTGTGGGGACACCTGAGCCGAACCACCACCTCATCCAC
AGAGCAGAGCACCTGCACATCCCTGGTGGCACCTGTGCCCACGGCAGTGACTTTGGGAACACTATTGATGACATCACCC
GGCTCTTCCAGCTGGTGGACCGGCGGGCGAAGAGAGATGCCTGGAGGACCATGAAGTACATGGAGCTCTTCATCGTTGC
TGACCACACGCTGTTCAGGAACCAGAACCTCAACCTGGGCCTCACCAAGCAGCGAATCGTGGAGATCGCCAACTACGTG
GACAAGTTCTACAGGTTGCTGAACATCAAGGTGGCCCTGATTGGACTGGAGGTGTGGACGGAGCGGGACCAGTGCACTG
TCACCAGCGATGCCAACGCCACGCTCTGGGCCTTCCTGCAGTGGAAGAAGGCTCTGAGGGCTCGCAAGAAGCACGACAA
CGCGCAGCTGCTGACCGGGAAGACGTTCCGGGGGACGACCATTGGCATGGCCCCACTGGAGGGGATGTGCAGTGCAGAC
AACTCTGGAGGGGTCAGCGTGGACCACTCGGAGCTTCCCATTGGAGCAGCAGCCACCATGGCCCATGAGATTGGCCACA
ACTTCGGCATGAGCCACGACAGCCAAGGCTGCTGCGTGGAGGCCACCCCGGAACAAGGAGGCTGTGTGATGGCAGCGGC
CACCGGGCACCCCTTCCCACGTGTCTTCAGCTCCTGCAGCAGGAGGCAGTTGGAGAACTACTTCCAGAAGGGAGGTGGC
ATGTGTCTCTTCAACCTGCCCGACACCAAGGACCTGGTGGTGGGACGGAAATGTGGCAACGGCTTTCTGGAAGATGGAG
AGGACTGTGACTGTGGGGAGGTGGAGGAGTGCACCAACCCATGCTGCAATGCACACAACTGCACGCTGAAGATGGGGGC
TCAGTGTGCCCATGGTGACTGCTGCCAGAACTGCAGGCTGAAGGTGGCTGGGACCATCTGCAGGGAAGCAGCAGGATCC
TGGGACCTCCCTGAATACTGCACTGGTGCCTCACCCTACTGCCCAGCCAATGTGTACCTGCTGGATGGCTCGTCCTGTG
CCTATGGTGGGGCATACTGCAACAATGGCATGTGCATGACCCACCACCAACAGTGTGTCCAGCTCTGGGGACCAGGAGC
CTGGCCAGCCCCAGCTGCCTGTTTCCAAGATGTGAACATGGCTGGGAACACCTATGGCAACTGTGGCAAAGACAGCCAA
GGGCGCTACGTGAAGTGCGACAAGAGAGATGCCATGTGTGGCAAGATCCAGTGCCAGAGCTCAGCCAAGAAGCCCCAGG
GGACCAACACTGTCTCCATTGACACCACCATCCGCTTCAATGGACGGGAGGTGAAGTGCCGGGGCACCTACATGTACAC
TGCCAAGGATGATGAAGAAGACCTCTCCGACCCTGGGCTGGTGATGACGGGGACGAAATGTGGAGATGGAATGGTTTGC
AAAGACCGCCGGTGCCAGAACGCCTCCCTTTTTGAGCTGGAGAAGTGCGTTTCCCGGTGCAACGGCCATGGGGTTTGCA
ACAGCAACAAGAACTGCCACTGCAACGCGGGTTGGGCTCCTCCATACTGCGAGAAGCCGGGCTTGGGAGGCAGCGTGGA
CAGTGGCCCCGTGCAGCATGACAATCACGAAGCCATCTTGGTAACAATTCTGCTCATCTTCCTGCTCTTCCTCCCGGTC
CTGGTGGGGAGCATTTACTTCTGGTACCGGCGGGAGAACTCGCTTCTGAATAAGTGGATCAAGGAGGTGAGGAGGAGGA
GCCGGGAGACATACAGGAACACAACCTTCGGTCGGAAGGCAACCAGTGGCCATTCCAAAGCTGCTTTCACCTTACGGAA
CATTTCCACCTCCAGCCATGATAACAAAGCGGCGCGGGCTGCGTTCCCCCCCAAAACCTGCCCTCGCCAACCCGGCTTC
CAACCCGTCAACGTTGTTCATCCCTTTCGACCACCTCCTCACTCCATCCCTCCACGCCCAAGGGACCCCAAGCCTGCCA
GACCACCTCCTCCAGCCAGCAAGTCGCCCATGGTCCCCACCAAAACAGTCGTCTCTCAAGCAAAGCTGCCTCCTCCTAA
GAAACCTCTTCCCTCCAGCCCTGTGAGGACGCCAGTGGTGGGCCCAAAGCACCAGCCGCCACGTCGGCCACTGCCTGGA
TGTCCTTTTCTGGCCAAAGAGCTGCCTCCTGCACATGGACAGACCCTGCTGGTCACGGTCCCTCCTACCAACTTCAAGG
CCTTTGGTACAAGTGCCACGAGCCACTCGACGAGGCCATCCAAGCCGATGCCACTTCAAAGGCCAGTCCCAGCCATCAA
AGTCCAGTCAACCTCCTTCCCCTTGAAGAAGTGACAAACCAAAGGACACCTTAAGCCCATCCTTCCTGAGCTGGCTCTC
CTGATTTGCACTGCTGCTGGCGACAGGGGTCTTCTATTCCTCTCATTTTATTGTG
CitationLin J, Yan X, Markus A, Redies C, Rolfs A, Luo J.Dev Expression of seven members of the ADAM family in developing chicken spinal cord. Dyn. 2010 Apr;239(4):1246-54.
CommentsInsufficient information provided in publication to verify exact sequence used to synthesize probe. Sequence below was obtained from NCBI (acc # NM_001082418).
StageImage (click image to view full size)Location (click to highlight)Comments (click to highlight)
19-24
stage 20
stage 20
stage 20
stage 24
Aorta
Dermomyotome
Myotome
Sclerotome
Spinal Cord
da, dorsal aorta
me, meninges
25-30
stage 29
stage 29
Myotome
Sclerotome
Spinal Cord
cc, condensed chondroblasts
me, meninges
31-37
stage 34
stage 37
stage 37
Sclerotome
Spinal Cord
cc, condensed chondroblasts
me, meninges

Entry 5

GEISHA IdADAM13.Kee.2007Data SourcePublication
Complete cDNA Template Probeshow
GCAGAGGCTGTGACAGCCCCGGGGAGTGCGGGCATGGCGAGGTTGGCCCCCCACGTGTCCCCTAAATGGAGGGGCTTCG
CTGTCATTTTTGGGGATCACGTCTTGCTGCTGGGGCTGCTGCTGCTCCCTGGGCACGGGGGTGCTGCTGGGACACGAGG
GCCGATGTCCCACGGAGAGCGGGTGACACCACACTGGCTCCTGGGGGGTCGCAGCCGGCGAGCCGTCAGCCTGGATGAT
GAGGTGCCAGCGCCGGCGCGGGCGGAGGTGGCTGTGATGGCTGAGGGCAGAGAGCTCATTCTGGTGCTGGAGAGGAACC
AGCTGCTGGCACCAGGCTATACTGAGACGCACTACACCACAGATGGGCAGCCCGTGACGGTGACCCCCAACCACACGGA
CCACTGCCACTACCATGGGCACGTACGGGGCCGCAGGAACTCCTGGGTCGTCCTCAGCACCTGCTCAGGAATGCGGGGC
TTGATTGCGGTGAGCAGCAATGATACCTACTACCTGCACCCTGTGGGGACACCTGAGCCGAACCACCACCTCATCCACA
GAGCAGAGCACCTGCACATCCCTGGTGGCACCTGTGCCCACGGCAGTGACTTTGGGAACACTATTGATGACATCACCCG
GCTCTTCCAGCTGGTGGACCGGCGGGCGAAGAGAGATGCCTGGAGGACCATGAAGTACATGGAGCTCTTCATCGTTGCT
GACCACACGCTGTTCAGGAACCAGAACCTCAACCTGGGCCTCACCAAGCAGCGAATCGTGGAGATCGCCAACTACGTGG
ACAAGTTCTACAGGTTGCTGAACATCAAGGTGGCCCTGATTGGACTGGAGGTGTGGACGGAGCGGGACCAGTGCACTGT
CACCAGCGATGCCAACGCCACGCTCTGGGCCTTCCTGCAGTGGAAGAAGGCTCTGAGGGCTCGCAAGAAGCACGACAAC
GCGCAGCTGCTGACCGGGAAGACGTTCCGGGGGACGACCATTGGCATGGCCCCACTGGAGGGGATGTGCAGTGCAGACA
ACTCTGGAGGGGTCAGCGTGGACCACTCGGAGCTTCCCATTGGAGCAGCAGCCACCATGGCCCATGAGATTGGCCACAA
CTTCGGCATGAGCCACGACAGCCAAGGCTGCTGCGTGGAGGCCACCCCGGAACAAGGAGGCTGTGTGATGGCAGCGGCC
ACCGGGCACCCCTTCCCACGTGTCTTCAGCTCCTGCAGCAGGAGGCAGTTGGAGAACTACTTCCAGAAGGGAGGTGGCA
TGTGTCTCTTCAACCTGCCCGACACCAAGGACCTGGTGGTGGGACGGAAATGTGGCAACGGCTTTCTGGAAGATGGAGA
GGACTGTGACTGTGGGGAGGTGGAGGAGTGCACCAACCCATGCTGCAATGCACACAACTGCACGCTGAAGATGGGGGCT
CAGTGTGCCCATGGTGACTGCTGCCAGAACTGCAGGCTGAAGGTGGCTGGGACCATCTGCAGGGAAGCAGCAGGATCCT
GGGACCTCCCTGAATACTGCACTGGTGCCTCACCCTACTGCCCAGCCAATGTGTACCTGCTGGATGGCTCGTCCTGTGC
CTATGGTGGGGCATACTGCAACAATGGCATGTGCATGACCCACCACCAACAGTGTGTCCAGCTCTGGGGACCAGGAGCC
TGGCCAGCCCCAGCTGCCTGTTTCCAAGATGTGAACATGGCTGGGAACACCTATGGCAACTGTGGCAAAGACAGCCAAG
GGCGCTACGTGAAGTGCGACAAGAGAGATGCCATGTGTGGCAAGATCCAGTGCCAGAGCTCAGCCAAGAAGCCCCAGGG
GACCAACACTGTCTCCATTGACACCACCATCCGCTTCAATGGACGGGAGGTGAAGTGCCGGGGCACCTACATGTACACT
GCCAAGGATGATGAAGAAGACCTCTCCGACCCTGGGCTGGTGATGACGGGGACGAAATGTGGAGATGGAATGGTTTGCA
AAGACCGCCGGTGCCAGAACGCCTCCCTTTTTGAGCTGGAGAAGTGCGTTTCCCGGTGCAACGGCCATGGGGTTTGCAA
CAGCAACAAGAACTGCCACTGCAACGCGGGTTGGGCTCCTCCATACTGCGAGAAGCCGGGCTTGGGAGGCAGCGTGGAC
AGTGGCCCCGTGCAGCATGACAATCACGAAGCCATCTTGGTAACAATTCTGCTCATCTTCCTGCTCTTCCTCCCGGTCC
TGGTGGGGAGCATTTACTTCTGGTACCGGCGGGAGAACTCGCTTCTGAATAAGTGGATCAAGGAGGTGAGGAGGAGGAG
CCGGGAGACATACAGGAACACAACCTTCGGTCGGAAGGCAACCAGTGGCCATTCCAAAGCTGCTTTCACCTTACGGAAC
ATTTCCACCTCCAGCCATGATAACAAAGCGGCGCGGGCTGCGTTCCCCCCCAAAACCTGCCCTCGCCAACCCGGCTTCC
AACCCGTCAACGTTGTTCATCCCTTTCGACCACCTCCTCACTCCATCCCTCCACGCCCAAGGGACCCCAAGCCTGCCAG
ACCACCTCCTCCAGCCAGCAAGTCGCCCATGGTCCCCACCAAAACAGTCGTCTCTCAAGCAAAGCTGCCTCCTCCTAAG
AAACCTCTTCCCTCCAGCCCTGTGAGGACGCCAGTGGTGGGCCCAAAGCACCAGCCGCCACGTCGGCCACTGCCTGGAT
GTCCTTTTCTGGCCAAAGAGCTGCCTCCTGCACATGGACAGACCCTGCTGGTCACGGTCCCTCCTACCAACTTCAAGGC
CTTTGGTACAAGTGCCACGAGCCACTCGACGAGGCCATCCAAGCCGATGCCACTTCAAAGGCCAGTCCCAGCCATCAAA
GTCCAGTCAACCTCCTTCCCCTTGAAGAAGTGACAAACCAAAGGACACCTTAAGCCCATCCTTCCTGAGCTGGCTCTCC
TGATTTGCACTGCTGCTGGCGACAGGGGTCTTCTATTCCTCTCATTTTATT
CitationYun Kee, Byung Joon Hwang, Paul W. Sternberg, Marianne Bronner-Fraser. Evolutionary conservation of cell migration genes: from nematode neurons to vertebrate neural crest. Genes Dev. 2007 February 15; 21(4): 391–396.
CopyrightCopyright © 2007, Cold Spring Harbor Laboratory Press
CommentsAs insufficient information is provided in publication to verify exact sequence used to synthesize probe, the sequence below was obtained from NCBI (acc #NM_001082418.1 ).
StageImage (click image to view full size)Location (click to highlight)Comments (click to highlight)
7-11
stage 11
stage 11
Neural Crest
 
 Data from NCBI Unigene EST Profile
Unigene ID: Gga.39591

Mouse

Emage
EurexpressMGI:1341813
MGI GXDMGI:1341813

Frog

Xenbase988106

Fruit Fly

BDGP

Zebra Finch

ZEBrA

Zebrafish

ZFIN
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