home
|
contact
Anatomical Location
Stage
Gene Name
GEISHA ID
Multiple Parameters
Quick Search
Data Class
gene name or description
anatomical location
stage
GEISHA ID
Author
Ensembl ID
NCBI ID
GO description
Enter Text:
X
XI
XII
XIII
XIV
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
38
40
41
42
43
44
Gene Family QuickSearch
Transcription Factors
Growth Factors
Receptors
MicroRNAs
Human Disease Gene Search
Downloads
Protocols
About GEISHA
Contact Us
Transgenic Birds
Model Organism Databases
Gene Expression Databases
Genomic Resources
Anatomical Atlases
Chicken Stage Series
AMH
anti-Mullerian hormone
The human orthologue of this gene is associated
with the following human disease:
Persistent Mullerian duct syndrome, type I
Gene Summary
Expression
Other Species Expression
JBrowse
Gene
Official Symbol
AMH
Official Full Name
anti-Mullerian hormone
CGNC ID
537
also known as
muellerian-inhibiting factor
gene type
protein-coding
Genomic Map
Ensembl
NCBI
UCSC
Sequence Information
Genomic
RNA
NM_205030
Polypeptide
NP_990361
Gene Expression
In Situ Hybridization
GEISHA
Orthology
Entrez Gene
Ensembl Gene
Genetic Phenotypes
MOD
Fruit Fly
Human
268
ENSG00000104899
MIM:261550
MIM:600957
Mouse
11705
ENSMUSG00000035262
All phenotypic alleles (
10
):Targeted, knock-out(
1
) Targeted, other(
9
)
MGI:88006
Xenopus
6458637
Zebrafish
493624
ENSDARG00000014357
ZDB-GENE-050706-192
ZFIN:ZDB-GENE-050706-192
Gene Ontology
Molecular Function
Biological Process
Cellular Component
Links to other databases
Entrez Gene
395887
Ensembl Gene
ENSGALG00000024368
KEGG
gga:395887
Entry 1
GEISHA Id
AMH.UApcr
Data Source
GEISHA ISH Analysis
Forward cDNA Template Primer
TGAAGATGGACCGCAACGAG
Reverse cDNA Template Primer
AATTAACCCTCACTAAAGGAAAGGCTCTGCTCCTGTGTCAG
cDNA Template Length
429
Forward cDNA Template Probe
show
CCCNGTGCCCTCACCAGCAGCTCCTGGCGGCCCTCAGCCCNTCTCCCCGTGGGGCTGCCCGGGTAGAAGAGCAGCAGAG
CGACGTGCAGCTCTCCCAGCAGCCGCCCCACCTCCGCATGGAACAGCAGCCTGAACCAGAGCCGGGGCTGTGCTTCCCA
CTTCACTTCCTCCAGGTGCAGGATAAGGAAGCGCTGCAGCCCCATGCCCGGCCCCGCCAGGTGCTCCTGGAGCTGCTGC
AGCGGTCGGAGCACGGTTTGTGCATCCCCACCCGGGCACAGCCCAAACGTCTCGGGGCTGCGGTGCTCCCACCCGGCGC
GCAGCACTTTGATGAAGGCACTTTCATAGCGGGTGAGGACCCCCACCACCTCCAGGTGGGATGGGGGGACCTCGTTGCG
NCCCATCTTCA
Stage
Image (click image to view full size)
Location (click to highlight)
Comments (click to highlight)
4-6
stage 5
stage 5
stage 5
stage 6
Early Mesoderm
Ectoderm
Epiblast
Extraembryonic Mesoderm
Head Process
Headfold
Lateral Plate Mesoderm
Neural Plate/Tube
Primitive Streak
7-12
stage 8
stage 9
stage 9
stage 9
stage 12
Amnion
Anterior Intestinal Portal
Anterior Neuropore
Ear/Otic Placode
Ectoderm
Endoderm
Extraembryonic Mesoderm
Eye
Forebrain
Head Mesenchyme
Headfold
Heart
Hindbrain
Intermediate Mesoderm
Lateral Plate Mesoderm
Midbrain
Neural Plate/Tube
Notochord
Primitive Streak
Sinus Venosus
Somites
extraembryonic ectoderm
13-18
stage 17
stage 17
stage 17
stage 17
stage 17
stage 18
stage 18
stage 18
stage 18
Amnion
Dermatome
Ectoderm
Eye
Foregut
Heart
Leg Mesenchyme
Myotome
Nephric Ducts
Neural Plate/Tube
Notochord
Outflow Tract
Pharyngeal Arches and Clefts
Sclerotome
Sinus Venosus
Somatic Mesoderm
Somites
Splanchnic Mesoderm
Tail
Ventricles
Widespread Expression
Wing Mesenchyme
Yolk Sack or Stalk
19-24
stage 23
stage 23
stage 23
stage 23
Dermomyotome
Eye
Foregut
Hindbrain
Leg Mesenchyme
Lung
Myotome
Neural Plate/Tube
Outflow Tract
Pharyngeal Arches and Clefts
Sclerotome
Somatic Mesoderm
Tail
Ventricles
Wing Mesenchyme
25-26
stage 26
stage 26
stage 26
stage 26
stage 26
Dermomyotome
Head Mesenchyme
Leg Mesenchyme
Pharyngeal Arches and Clefts
Tail
Wing Mesenchyme
Entry 2
GEISHA Id
AMH.Carré-Eusèbe.2009
Data Source
Publication
Complete cDNA Template Probe
show
GGGCGGCTGCTGTGGGTGCAGCAGAACAGGGAGGATGAAGGCGGCTCTCGGGGTGCTGCTGCCATACCTGGTGCTGCTG
CTCCGCTCCACAGCTTTGCCGAGAAAAGGGACCCCCGGAGCAGAGGCTGTGCTGGAGCAGAGCCTCTCGGAGGAGATGG
GACTTGGAGCAAAGAGGGAAAATGTGAGCAGAGCGCGACCCGGCTTGGCGGTGAGACCGAAGATGACCGCGGCTTCTCG
CCTCCTCCCAGAGCCTGCAGCAAGCTGCACCCAGGCTGACGGCTCCAGCTTGCAGCCCTGGCCCCTGGGAGGGCTGGAG
GGCCCCGTGTGCCGCCTGAAGATGGACCGCAACGAGGTCCCCCCATCCCACCTGGAGGTGGTGGGGGTCCTCACCCGCT
ATGAAAGTGCCTTCATCAAAGTGCTGCGCGCCGGGTGGGAGCACCGCAGCCCCGAGACGTTTGGGCTGTGCCCGGGTGG
GGATGCACAAACCGTGCTCCGACCGCTGCAGCAGCTCCAGGAGCACCTGGCGGGGCCGGGCATGGGGCTGCAGCGCTTC
CTTATCCTGCACCTGGAGGAAGTGAAGTGGGAAGCACAGCCCCGGCTCTGGTTCAGGCTGCCGTTCCATGCGGAGGTGG
GGCGGCTGCTGGGAGAGCTGCACGTCGCTCTGCTGCTCTTCTACCCGGGCAGCCCCACGGGGAGACGGGCTGAGGGCCG
CCAGGAGCTGCTGGTGGAGGGCACGGGGCTGACACAGGAGCAGAGCCTTTGCTTCACTAGGGACACCCAGTACCTACTC
CTCAGAGCCTCGGTGGCCGCCGTGAGCAGCAGCAGCAAGGAGCTGAGCTTCCAGCTGTCCCTGACCATCAGGCACCATG
GGGATGGAGGTGCCCCTCTGTCCCTCATGGAGACCCAGCAGCTCCTCTTTGGCTCAGATGAGAAGTGTTTCACCAGGAT
GACGCCGGTGCTGCTCCTGCTGGCCGGGTCACCACCTGAGGGTGATGCTGCCGCCCCTTCCTCCTATCTCTCTGCCAGT
GGGGTGGTGGATGTGGCTCCCTACCCACAGCTCAGCCCACCCCATCCCGGCACCGCAGAGCTGCCGCCCCACACCACTG
CCAGCCCAGCCAACACCACATCCCCAACGCCTGGGGACAGCGGGCAGTTCCTGGGTGTGCTGACCCTCTTCATCCGCCG
GGTGCTGAGCCCCCGCAGCGAGCCGCCCACCCAGCCCAGCTCCCAGCACTGGTTGGACTTCCAGATGATGGAGACGCTC
CCTCACCAACTACTCAACCTGTCGGAGACGGCCGCCCTGGAGCGCCTGGTGCAGTCGGAGGAGCCCTCGGTGCTGCTTT
TCCCCCAGGAGGGCGGCGCAGGGCTGGAGCAGCATTTTGGGGACTGGCAGCCAGAGGGGACGGTGCTGCAGCTGCTGAT
GGGCAAACTGCAGGCGGTGATCCACGAGCTGAGGGACATCCCGGAGTTCCAAGCCAACACGGGGCTCTTCCAGCACCTC
CTCAGCTTCTGCTACCACCCTCCAGGGCCGGCTGCGGGCGGGCAGCCCCCAGGCTCAGGGAAGCTGCACGCACTGCTGC
TGCTGAAGGCGCTGCAAACGGTGCGGGCGCGCTGGCAGGAGAGGAGGAAAGTCCTGCGGCAGAACCGCAGCGCGCGGCA
CCAGGCGCACTGCAGGCTGCAGGAGCTGACCATCGACCTGCGCGACCGCAACTTCATCGTCATGCCCACCGTCTACGAG
GCCAACAACTGCGAGGGGCCCTGCAGGCTGCCCCTCTCCACCCGCGTGCCCGGCTACCACTCGCACACCGTGCTGCTGC
TGGGCATGCAGGAGCGGGGTTCGCCGCTGCAGCCGCTTCCATGCTGCGTGCCCGTCCGTTACTCGGACCAACTCATCAT
CAGCGTGTTGGCCGAGGGGCTGGAGGTGCGCAAGTTCCCCAACATGGTGGCGGAGGAGTGCGGCTGTCGGTAGGGGTTC
CCACCTGCAGTGCTCCTGGCTGAGATGGGAGTGTCCCTCCGCGTGCCTTTTCCTCCTGGTTGCCTCCTAGCATTGCTCT
GGTTCTGTTTTTACTCTGTGGGGCTGTGCTGCCCTACATCCCCCTGCAGTGTCTCGTGGCTGTACCCATCCCTGAGTCC
TCGGGGGCAAAAACCCCCGGTTCCACTCTGACCGTTCCATGGGGTCCCATCCCCACACTTGGCCATGGCAATGGCTGCA
GTGCTGGGCTTCCTGCTGGGTGCTGCTGTGCTGCTCCACGCTGTCACCGCTCCCCAGAGCACAGCAGATCCCATTACAT
GTCCTAACATTAACAGTGTTAATGACATCAACACACAGAGCCTGGCTGCCCTGTGCCAGCTTCCAGATGAGCTCCATGG
GACCCCACCACCTGGCTGAGCCCCTGCGGTGGGACAGGAGCACAGCTCCCCACCCCCTCCCTCTGTGCTCTGCATTCTC
TCTTCTTTTCACAACACACAAACGTATCCAGAAACATGGTATATATATATATATATATATATATGTGTATTTTAAGACA
TTTAATACCTTCTTAAAAATGAACATCAGTTTGTTTTAACCACTATTGGTTTAGTGAATACTCAAACCCGCTGCAGTCG
GGGTCTCCTGGCAGTTGCTGCAGCGCTGTGTGGTACTGCCCATGTGGTTTCTCCTTCAAAGCAGCTCTGCGGGGCAGGA
CCTGAGCTCTGGTTCTGAAGCTTTGGGCTTCCTGCATTGAGGCCATGTGTCCCTGCTCCGAGTGCAGCGCAGCTTGGCT
TCCTTCACCCAGAACACACTTCTCTCTTTGATTTGTTTTTCAATAAAACCATTCACTGAATTCAAGAGCTAAAAAAAAA
AA
Citation
Danièle Carré-Eusèbe, Noëlline Coudouel, Solange Magre. OVEX1, a novel chicken endogenous retrovirus with sex-specific and left-right asymmetrical expression in gonads. Retrovirology. 2009; 6: 59. Published online 2009 June 17
Copyright
Copyright © 2009 Carré-Eusèbe et al; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Comments
As insufficient information is provided in publication to verify exact sequence used to synthesize probe, the sequence below was obtained from NCBI (acc #NM_205030.1 ).
Stage
Image (click image to view full size)
Location (click to highlight)
Comments (click to highlight)
31-44
stage 40
stage 40
stage 40
stage 44
stage 44
stage 44
Gonad
Hatched P14
Hatched P28
Ovary
Mouse
Emage
MGI:88006
MGI GXD
MGI:88006
Frog
Xenbase
6458637
Fruit Fly
BDGP
Zebra Finch
ZEBrA
Zebrafish
ZFIN
ZDB-GENE-050706-192
Home
|
Contact