GEISHA - A Chicken Embryo Gene Expression Database
Browse By
- Anatomical Location
- Stage
- Gene Name
- GEISHA ID
- Multiple Parameters
Search
- Quick Search
Data Class
Enter Text:
go
- Gene Family QuickSearch
Transcription Factors
Growth Factors
Receptors
MicroRNAs
- Human Disease Gene Search
Documents
- Downloads
- Protocols
- About GEISHA
- Contact Us
Resources
- Transgenic Birds
- Model Organism Databases
- Gene Expression Databases
- Genomic Resources
- Anatomical Atlases
- Chicken Stage Series
_

SLC16A2
solute carrier family 16 member 2

The human orthologue of this gene is associated
with the following human disease:
Gene
Official SymbolSLC16A2
Official Full Namesolute carrier family 16 member 2
CGNC ID5859
also known asmonocarboxylate transporter 8|solute carrier family 16, member 2 (monocarboxylic acid transporter 8)|solute carrier family 16, member 2 (thyroid hormone transporter)
gene typeprotein-coding
Genomic Map
 Ensembl ID not known
NCBI
UCSC
Gallus-Browse
Sequence Information
Genomic
RNAXM_426274
PolypeptideXP_426274
Sequence Clusters/ESTsUnigene
Gene Expression
In Situ HybridizationGEISHA
EST ProfileGga.49691
Orthology
Entrez GeneEnsembl GeneGenetic PhenotypesMOD
Fruit Fly
Human6567ENSG00000147100MIM:300523MIM:300095
Mouse20502ENSMUSG00000033965All phenotypic alleles (4):Targeted, knock-out(2) Targeted, other(2) MGI:1203732
Xenopus100494635980578
ZebrafishZDB-GENE-120117-1ZFIN:ZDB-GENE-120117-1
Gene Ontology
Molecular Function
Biological Process
Cellular Component
Links to other databases
Entrez Gene428716
Ensembl Gene
KEGGgga:428716

Entry 1

GEISHA IdMCT8.Kimura.2011Data SourcePublication
Complete cDNA Template Probeshow
ATGTGGGACCGGCTGCGGGGCAGTCGGGCGGCGGGCGGCGGCCGGAGCGCGGCCGCGATGGCGCAGCGCGGGGAGGAGG
GCGGCGAGCGGGGGCCGGCGGAGGAGGGCGGGGAGGGAGAGCCCCGGGCCGGGGCCGAGCGGGGGCCGAGCGGGGCCGC
CGCGCCCTTCCAGCCTCCCGAGGGCGGCTTCGGCTGGGTCGTGGTCTTCGCCGCCGCCTGGTGCAATGGCTCCATCTTC
GGCATCCACAACTCCTTCGGGATCATCTACACCATGTTGCAGAGCGACCTGGGCGAGGACGAGAAGGACCCCACGCTGG
AGTTTAAAACAGCATGGGTTGGCTCTTTGGCCATGGGCATGATTTTCTTCTGCTCTCCCATCGTGAGCATCTTCACTGA
CCGCATCGGCTGCAGGACCACAGCAGCCTTGGGAGCTGCCATCGCTTTCATCGGGCTCCTCTCCAGCTCCTTCACCAAG
TCTCTGGAAGTTCGCTATTTCACGTATGGCATCCTCTTTGGCTGTGGCAGCTCCTTTGCCTTTCAGCCCTCGCTGGTCA
TCCTTGGTCACTACTTCAAGCGTCGCCTTGGCCTGGCCAATGGCATCGTGGCTGGCAGCAGCTGCCTCATCTCTGTGCC
GCTGCCCTTCTTCCTGAAGATGGTGGGAAAGGCCATTGGGCTGGCACACACATTCCAAGTGCTCAGTGCCTTAATGCTC
ATCCAGATCTTCTTGTCGATGACATATCGGCCCCTCCTGCCACCCTCCTGTGACTCTCAGCACGATGGGCAGGACAAAC
TGGGCAGCCGGAGTGTGCGGCAGCAGTGCTGGGCCCAGATGCGCAAGTATTTCAACTTGAGGGTTTTCCGGAGAAAGAC
CTACCGAATTTGGGCCTTTGGGATTGCTACAGCTGTCCTGGGGTATTTTGTACCATACATGCACCTGGTGAAATATGTG
GAGAAGGAATTTGGAGAAACCAAAAACGACTGGATTCTCCCAGTCTGTCTTGGAGGCATGTCTGGGCTGGGGCGCTTGA
TTTCGGGCCGCACTGGGGACTGCATTCCTGGGCTGAAGAAGATTTATCTGCAGGTCGCGTCCTTTGTTCTGTTCGGCAT
CATGTGCATGATGATCCCGCAGTGCCGAGGGTTTGAGGGCGTCATCGTCATCTGCCTCTTCCTCGGCCTTTGCGATGGC
TGCTTCACCACCATTATGGCCCCCGTTGCCTTTGAGCTGGTGGGGCCTATGCAAGCATCCCAGGCCATAGGGTACCTGA
TGGGGCTGATGGCTGTGCCCATGACTGCGGGCACGCCAATTGCAGGATACTTCAACGATTATTTTCAGAATTACCATGC
GGGTTTTTACTTCGCCGGAGTGCCTCCCATCATCGGCGGCTTGGTGCTCTCCGTCGTCCCGCTGGTGCACCAGAGGATG
CTGCAGAAGCAGCGCCTGGATTCTGGCAAGGACAAGATGCTGACCCCTGAGGCAGTGGTGAATGGCGAGCTGCTGCCAG
GCTGCCCTGCCTCCGAAGCACACATGTGACGTGCCAAGTGCACAGTTGCCACCAGCATCCTCCACAGCCCAAGCACAGG
CCCTTTTCTAGCCAGACTGTAATTCTCAATGATTTCAGATGCACTATATTTGTAAAGGACAAGAAATAGTTCTTCTAGT
TGAAGGCTTTTAACTAGCAGAAACACTTCTTCTTGGGACAGTATCAATTTTCAAGCCGCCTTTTCTTTTCCTCTAACCA
TTTTTCTAAGGAGAACTCTCATCAGGATTCAAACTTGATTATCTCCCCAGTTTTCTATACGTCACAACAGAGGTTTACA
GATAATAAATGTATTTTTAAAGGAGGTAATAGGCGGAGCTTATTGCCCCTTCCAGATTCCCCGTCCCCTCTGGTGTGCC
ATGTCTGGGCAGCACAGTCCCTTCTGCAGGGGAAGCAGCTTC
CitationKimura W, Alev C, Sheng G, Jakt M, Yasugi S, Fukuda K. Identification of region-specific genes in the early chicken endoderm. Gene Expr Patterns. 2011 Mar-Apr;11(3-4):171-80. Epub 2010 Nov 23.
CopyrightCopyright © 2010 Elsevier B.V. All rights reserved.
Commentsthe following primers given in the paper: MCT8: F, 5′-AACTCTTTTGGGTGCTTTCT-3′, R, 5′-TGTGAGAGTTCAGCTTTACC-3′. As these could not be located in the NCBI SLC16A2 gene, the complete SLC16A2 sequence is shown: Acc# XM_426274.3.
StageImage (click image to view full size)Location (click to highlight)Comments (click to highlight)
7-10
stage 8
stage 8
stage 8
stage 10
stage 10
stage 10
Gut
Neural Plate/Tube
Notochord
Somites
Surface Ectoderm
Ubiquitous
 

Entry 2

GEISHA IdMCT8.Vancamp.2019Data SourcePublication
Complete cDNA Template Probeshow
GCGGGCATGTGGGACCGGCTGCGGGGCAGTCGGGCGGCGGGCGGCGGCCGGAGCGCGGCCGCGATGGCGCAGCGCGGGG
AGGAGGGCGGCGAGCGGGGGCCGGCGGAGGAGGGCGGGGAGGGAGAGCCCCGGGCCGGGGCCGAGCGGGGGCCGAGCGG
GGCCGCCGCGCCCTTCCAGCCTCCCGAGGGCGGCTTCGGCTGGGTCGTGGTCTTCGCCGCCGCCTGGTGCAATGGCTCC
ATCTTCGGCATCCACAACTCCTTCGGGATCATCTACACCATGTTGCAGAGCGACCTGGGCGAGGACGAGAAGGACCCCA
CGCTGGAGTTTAAAACAGCATGGGTTGGCTCTTTGGCCATGGGCATGATTTTCTTCTGCTCTCCCATCGTGAGCATCTT
CACTGACCGCATCGGCTGCAGGACCACAGCAGCCTTGGGAGCTGCCATCGCTTTCATCGGGCTCCTCTCCAGCTCCTTC
ACCAAGTCTCTGGAAGTTCGCTATTTCACGTATGGCATCCTCTTTGGCTGTGGCAGCTCCTTTGCCTTTCAGCCCTCGC
TGGTCATCCTTGGTCACTACTTCAAGCGTCGCCTTGGCCTGGCCAATGGCATCGTGGCTGGCAGCAGCTGCCTCATCTC
TGTGCCGCTGCCCTTCTTCCTGAAGATGGTGGGAAAGGCCATCGGGCTGGCACACACATTCCAAGTGCTCAGTGCCTTA
ATGCTCATCCAGATCTTCTTGTCGATGACATATCGGCCCCTCCTGCCACCCTCCTGTGACTCTCAGCACGATGGGCAGG
ACAAACTGGGCAGCCGGAGTGTGCGGCAGCAGTGCTGGGCCCAGATGCGCAAGTATTTCAACTTGAGGGTTTTCCGGAG
AAAGACCTACCGAATTTGGGCCTTTGGGATTGCTACAGCTGTCCTGGGGTATTTTGTACCATACATGCACCTGGTGAAA
TATGTGGAGAAGGAATTTGGAGAAACCAAAAACGACTGGATTCTCCCAGTCTGTCTTGGAGGCATGTCTGGGCTGGGGC
GCTTGATTTCGGGCCGCACTGGGGACTGCATTCCTGGGCTGAAGAAGATTTATCTGCAGGTCGCGTCCTTTGTTCTGTT
CGGCATCATGTGCATGATGATCCCGCAGTGCCGAGGGTTTGAGGGCGTCATCGTCATCTGCCTCTTCCTCGGCCTTTGC
GATGGCTGCTTCACCACCATTATGGCCCCCGTTGCCTTTGAGCTGGTGGGGCCTATGCAAGCATCCCAGGCCATAGGGT
ACCTGATGGGGCTGATGGCTGTGCCCATGACTGCGGGCACGCCAATTGCAGGATACTTCAACGATTATTTTCAGAATTA
CCATGCGGGTTTTTACTTCGCCGGAGTGCCTCCCATCATCGGCGGCTTGGTGCTCTCCGTCGTCCCGCTGGTGCACCAG
AGGATGCTGCAGAAGCAGCGCCTGGATTCTGGCAAGGACAAGATGCTGACCCCTGAGGCAGTGGTGAATGGCGAGCTGC
TGCCAGGCTGCCCTGCCTCCGAAGCACACATGTGACGTGCCAAGTGCA
CitationPieter Vancamp, Nele M A Bourgeois, Anne M Houbrechts, Veerle M Darras. Knockdown of the thyroid hormone transporter MCT8 in chicken retinal precursor cells hampers early retinal development and results in a shift towards more UV/blue cones at the expense of green/red cones. Exp Eye Res. 2019 Jan;178:135-147. Epub 2018 Sep 28.. DOI: 10.1016/j.exer.2018.09.018.
CopyrightCopyright © 2018 Elsevier Ltd. All rights reserved.
CommentsInsufficient information provided in publication to verify exact sequence used to synthesize probe. Sequence was obtained from NCBI (NM_001321737.1).
StageImage (click image to view full size)Location (click to highlight)Comments (click to highlight)
25-28
stage 28
stage 28
Eye
Lens
Retina
 
all
 
  
 Data from NCBI Unigene EST Profile
Unigene ID: Gga.49691

Mouse

EmageMGI:1203732
EurexpressMGI:1203732
MGI GXDMGI:1203732

Frog

Xenbase980578

Fruit Fly

BDGP

Zebra Finch

ZEBrA

Zebrafish

ZFINZDB-GENE-120117-1
Home | Contact
     
© 2008 Arizona Board of Regents
This website is hosted by the Biotechnology Computing Facility at the University of Arizona