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Search results 501 to 600 out of 718 for Tap1

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Type Details Score
Publication
11238639 | J:67890
First Author: Arons E
Year: 2001
Journal: J Immunol
Title: Organization and functional analysis of the mouse transporter associated with antigen processing 2 promoter.
Volume: 166
Issue: 6
Pages: 3942-51
Publication
12679854 | J:83655
First Author: Uinuk-ool TS
Year: 2003
Journal: Immunogenetics
Title: Identification and characterization of a TAP-family gene in the lamprey.
Volume: 55
Issue: 1
Pages: 38-48
Protein Domain
IPR013306 | Tap1/ABCB2
Type: Family
Description: The ABC transporter family is a group of membrane proteins that use the hydrolysis of ATP to power the translocation of a wide variety of substrates across cellular membranes. ABC transporters minimally consist of two conserved regions: a highly conserved nucleotide-binding domain (NBD) and a less conserved transmembrane domain (TMD). Eukaryotic ABC proteins are usually organised either as full transporters (containing two NBDs and two TMDs), or as half transporters (containing one NBD and one TMD), that have to form homo- or heterodimers in order to constitute a functional protein [].This entry represents Tap1 (also known as antigen peptide transporter 1), which is a vertebrate protein belonging to the ABC-B subfamily of the ABC transporter family. It plays a crucial role in the processing and presentation of the MHC class I-restricted antigens. It is a half transporter that forms a complex with Tap2. This complex translocates antigens from the cytoplasm to the endoplasmic reticulum for loading onto MHC class I molecules []. The structure of Tap1 has been solved [].Mutations in the Tap1 gene cause Bare lymphocyte syndrome 1 (BLS1), which is characterised by class I antigen deficiencies that are not accompanied by particular pathologic manifestations during the first years of life, although chronic lung disease develops in late childhood.
Publication
10748049 | J:63603
First Author: Zhang F
Year: 2000
Journal: J Biol Chem
Title: Characterization of ABCB9, an ATP binding cassette protein associated with lysosomes.
Volume: 275
Issue: 30
Pages: 23287-94
Publication
31433988 | J:299226
First Author: Burrack AL
Year: 2019
Journal: Cell Rep
Title: Combination PD-1 and PD-L1 Blockade Promotes Durable Neoantigen-Specific T Cell-Mediated Immunity in Pancreatic Ductal Adenocarcinoma.
Volume: 28
Issue: 8
Pages: 2140-2155.e6
Publication
7809164 | J:22079
First Author: Schumacher TN
Year: 1994
Journal: Proc Natl Acad Sci U S A
Title: Transporters from H-2b, H-2d, H-2s, H-2k, and H-2g7 (NOD/Lt) haplotype translocate similar sets of peptides.
Volume: 91
Issue: 26
Pages: 13004-8
Publication
10471785 | J:57293
First Author: Yamaguchi Y
Year: 1999
Journal: FEBS Lett
Title: An ABC transporter homologous to TAP proteins.
Volume: 457
Issue: 2
Pages: 231-6
Publication
32424282 | J:298307
First Author: Garancher A
Year: 2020
Journal: Nat Neurosci
Title: Tumor necrosis factor overcomes immune evasion in p53-mutant medulloblastoma.
Volume: 23
Issue: 7
Pages: 842-853
Publication
21205905 | -
First Author: Herget M
Year: 2011
Journal: Proc Natl Acad Sci U S A
Title: Conformation of peptides bound to the transporter associated with antigen processing (TAP).
Volume: 108
Issue: 4
Pages: 1349-54
Publication
32826759 | -
First Author: Cardoso FC
Year: 2021
Journal: Pain
Title: A spider-venom peptide with multitarget activity on sodium and calcium channels alleviates chronic visceral pain in a model of irritable bowel syndrome.
Volume: 162
Issue: 2
Pages: 569-581
Publication
12228241 | -
First Author: Peng K
Year: 2002
Journal: J Biol Chem
Title: Function and solution structure of huwentoxin-IV, a potent neuronal tetrodotoxin (TTX)-sensitive sodium channel antagonist from Chinese bird spider Selenocosmia huwena.
Volume: 277
Issue: 49
Pages: 47564-71
Publication
8394998 | -
First Author: Lampe RA
Year: 1993
Journal: Mol Pharmacol
Title: Isolation and pharmacological characterization of omega-grammotoxin SIA, a novel peptide inhibitor of neuronal voltage-sensitive calcium channel responses.
Volume: 44
Issue: 2
Pages: 451-60
Publication
20189991 | -
First Author: Dutertre S
Year: 2010
Journal: J Biol Chem
Title: Use of venom peptides to probe ion channel structure and function.
Volume: 285
Issue: 18
Pages: 13315-20
Publication
30784059 | -
First Author: Gonçalves TC
Year: 2019
Journal: Br J Pharmacol
Title: From identification to functional characterization of cyriotoxin-1a, an antinociceptive toxin from the spider Cyriopagopus schioedtei.
Volume: 176
Issue: 9
Pages: 1298-1314
Publication
18688275 | -
First Author: Kim Y
Year: 2008
Journal: PLoS Pathog
Title: Human cytomegalovirus UL18 utilizes US6 for evading the NK and T-cell responses.
Volume: 4
Issue: 8
Pages: e1000123
Publication
18199642 | -
First Author: Dugan GE
Year: 2008
Journal: J Virol
Title: Structural and Functional Dissection of the Human Cytomegalovirus Immune Evasion Protein US6.
Volume: 82
Issue: 7
Pages: 3271-82
Publication
16461385 | -
First Author: Carvalho MF
Year: 2006
Journal: Plant Physiol
Title: The geminivirus nuclear shuttle protein NSP inhibits the activity of AtNSI, a vascular-expressed Arabidopsis acetyltransferase regulated with the sink-to-source transition.
Volume: 140
Issue: 4
Pages: 1317-30
Publication
12837950 | -
First Author: McGarry RC
Year: 2003
Journal: Plant Cell
Title: A novel Arabidopsis acetyltransferase interacts with the geminivirus movement protein NSP.
Volume: 15
Issue: 7
Pages: 1605-18
Publication
27121038 | -
First Author: Byeon Y
Year: 2016
Journal: J Pineal Res
Title: Cloning and characterization of the serotonin N-acetyltransferase-2 gene (SNAT2) in rice (Oryza sativa).
Volume: 61
Issue: 2
Pages: 198-207
Publication
24134674 | -
First Author: Byeon Y
Year: 2014
Journal: J Pineal Res
Title: Cellular localization and kinetics of the rice melatonin biosynthetic enzymes SNAT and ASMT.
Volume: 56
Issue: 1
Pages: 107-14
Publication
22998587 | -
First Author: Kang K
Year: 2013
Journal: J Pineal Res
Title: Molecular cloning of rice serotonin N-acetyltransferase, the penultimate gene in plant melatonin biosynthesis.
Volume: 55
Issue: 1
Pages: 7-13
Publication
28118490 | -
 
First Author: Lee K
Year: 2017
Journal: J Pineal Res
Title: Overexpression of rice serotonin N-acetyltransferase 1 in transgenic rice plants confers resistance to cadmium and senescence and increases grain yield.
Volume: 62
Issue: 3
Publication
30346270 | -
   
First Author: Li H
Year: 2018
Journal: Elife
Title: A Phytophthora effector recruits a host cytoplasmic transacetylase into nuclear speckles to enhance plant susceptibility.
Volume: 7
Protein Domain
IPR035129 | US6
Type: Family
Description: This family has members such as US6 () found in HCMV (Human cytomegalovirus). US6 is a unique short region glycoprotein found in the ER. It blocks the binding of ATP by TAP1 (Transporter associated with Antigen Processing 1) through a conformational change and subsequently inhibits TAP-mediated peptide translocation to the ER. It also down regulates MHC class I []. Inhibition of US6 of TAP has been shown to require residues 89 to 108 of the HCMV US6 luminal domain, whereas sequences that flank this region stabilize the binding of the viral protein to TAP. Residues 81 to 90 and the C-terminal 39 residues of HCMV US6 may also contributeto the stabilization of the interaction between US6 and TAP [].
Protein Domain
IPR011696 | Huwentoxin-1
Type: Family
Description: This is a family of potent toxins that function as ion-channel inhibitors. Omega-Grammotoxin SIA is a VSCC antagonist that inhibits neuronal N- and P-type VSCC responses []. Huwentoxin-IV, from the Chinese bird spider, is a highly potent neurotoxin that specifically inhibits the neuronal tetrodotoxin-sensitive voltage-gated sodium channel in rat dorsal root ganglion neurons []. Hainantoxin-4, from the venom of spider Selenocosmia hainana, adopts an inhibitor cystine knot structural motif like huwentoin-IV, and is a potent antagonist that acts at site 1 on tetrodotoxin-sensitive (TTX-S) sodium channels []. Study of the molecular nature of toxin-receptor interactions has helped elucidate the functioning of many ion-channels []. Some members of this family, Tap1 and Tap2, can modulate the activity of both voltage-gated sodium and calcium channels which are implicated in the etiology of chronic pain, being interesting for chronic pain treatment [, ].
Protein Domain
IPR045039 | NSI-like
Type: Family
Description: This entry represents a group acetyltransferases, including NSI from Arabidopsis, SNAT1/2 from rice and Histone acetyltransferase TAP1/2 from Glycine max (Soybean). NSI is a vascular-expressed acetyltransferase that interacts with NSP, which is a nuclear shuttle protein []. It has been shown to regulate the nuclear export of the viral genome and potentially other non transcriptional nuclear events in plant cells []. SNAT1 catalyses the N-acetylation of serotonin into N-acetylserotonin, the penultimate step in the synthesis of melatonin [, , , ]. TAP1 acts as a susceptibility factor that is hijacked by Avh52 in order to promote acetylation of histones H2A and H3 during early infection by Phytophtora sojae [].This entry also includes predicted N-acetyltransferases from bacteria.
Publication
10846095 | J:126435
First Author: Kimura T
Year: 2000
Journal: J Virol
Title: The role of CD8(+) T cells and major histocompatibility complex class I expression in the central nervous system of mice infected with neurovirulent Sindbis virus.
Volume: 74
Issue: 13
Pages: 6117-25
Publication
15345652 | J:101500
First Author: Bergmeier W
Year: 2004
Journal: Circ Res
Title: Tumor necrosis factor-alpha-converting enzyme (ADAM17) mediates GPIbalpha shedding from platelets in vitro and in vivo.
Volume: 95
Issue: 7
Pages: 677-83
Publication
7590968 | J:29731
First Author: Hwang I
Year: 1995
Journal: Immunogenetics
Title: Bop: a new T-cell-restricted gene located upstream of and opposite to mouse CD8b.
Volume: 42
Issue: 5
Pages: 353-61
Publication
9317117 | J:43092
First Author: Salazar-Onfray F
Year: 1997
Journal: J Immunol
Title: Down-regulation of the expression and function of the transporter associated with antigen processing in murine tumor cell lines expressing IL-10.
Volume: 159
Issue: 7
Pages: 3195-202
Publication
9521053 | J:46195
First Author: Herberg JA
Year: 1998
Journal: Eur J Immunol
Title: Genomic analysis of the Tapasin gene, located close to the TAP loci in the MHC.
Volume: 28
Issue: 2
Pages: 459-67
Publication
9271576 | -
First Author: Ortmann B
Year: 1997
Journal: Science
Title: A critical role for tapasin in the assembly and function of multimeric MHC class I-TAP complexes.
Volume: 277
Issue: 5330
Pages: 1306-9
Publication
10382748 | -
First Author: Bangia N
Year: 1999
Journal: Eur J Immunol
Title: The N-terminal region of tapasin is required to stabilize the MHC class I loading complex.
Volume: 29
Issue: 6
Pages: 1858-70
Publication
10636848 | -
First Author: Li S
Year: 2000
Journal: J Biol Chem
Title: Tapasin is required for efficient peptide binding to transporter associated with antigen processing.
Volume: 275
Issue: 3
Pages: 1581-6
Publication
9238042 | -
First Author: Li S
Year: 1997
Journal: Proc Natl Acad Sci U S A
Title: Cloning and functional characterization of a subunit of the transporter associated with antigen processing.
Volume: 94
Issue: 16
Pages: 8708-13
Protein Domain
IPR008056 | Tapasin
Type: Family
Description: Major histocompatibility complex (MHC) class I molecules present antigenic peptides to CD8 T cells. The majority of peptides found associated with class I molecules are derived from nuclear and cytosolic proteins, and they are generated largely by the proteasome complex. These peptides are transported from cytosol into the lumen of the endoplasmic reticulum (ER) by a peptide transporter, which is known as the transporter associated with antigen processing (TAP). TAP is a trimeric complex consisting of TAP1, TAP2 and tapasin (TAP-A). TAP1 and TAP2 are required for peptide transport. Tapasin, which actually serves as a docking site on the TAP complex specific for interaction with class I MHC molecules, is essential for peptide loading (up to four MHC class I-tapasin complexes have beenfound to bind to each TAP molecule). However, since the exact mechanisms oftapasin functions are still unknown, it has also been speculated thattapasin may regulate the MHC class I release from the ER rather than directly loading peptides onto MHC class I molecules [, , , ].In studies of the interaction between MHC class I and TAP, it was found that TAP1, but not TAP2, is required for the association of TAP with class I molecules. Because tapasin is essential for the association of MHC class I to TAP, tapasin may directly interact with TAP1. Thus the predicted order of interaction between different molecules in the TAP complex is TAP2 to TAP1, TAP1 to tapasin, and tapasin to MHC class I molecules. Thus, by these linked events, the translocation and loading of peptides rapidly and efficientlyproceed in the same microenvironment [, ].Tapasin is a type I transmembrane (TM) glycoprotein with a double lysinemotif that is thought to be involved with mediating the retrieval of proteins back from the cis-Golgi, thus maintaining membrane proteins in theER []. It is encoded by an MHC-linked gene and is a member of theimmunoglobulin superfamily. Binding to TAP is mediated by the C-terminalregion, whereas its N-terminal 50 residues constitute the key element thatconverts the MHC class I molecules and TAP weak interactions into a stablecomplex [, ].
Publication
8666141 | J:33688
First Author: Serreze DV
Year: 1996
Journal: Diabetes
Title: MHC class I-mediated antigen presentation and induction of CD8+ cytotoxic T-cell responses in autoimmune diabetes-prone NOD mice.
Volume: 45
Issue: 7
Pages: 902-8
Protein
Q5XW46
Organism: Mus musculus/domesticus
Length: 143  
Fragment?: true
Polymorphic Pseudogene
MGI:95942 | H2-T10
Type: polymorphic_pseudogene
Organism: mouse, laboratory
Protein
Q9QWR3
Organism: Mus musculus/domesticus
Length: 110  
Fragment?: true
Publication
12827284 | -
First Author: Liu Z
Year: 2003
Journal: Cell Mol Life Sci
Title: Isolation and characterization of hainantoxin-IV, a novel antagonist of tetrodotoxin-sensitive sodium channels from the Chinese bird spider Selenocosmia hainana.
Volume: 60
Issue: 5
Pages: 972-8
Protein Coding Gene
MGI:95959 | H2-T3
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1276524 | H2-M10.3
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1276570 | H2-M9
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:95913 | H2-M1
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:1276526 | H2-M10.5
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI:95912 | H2-L
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGP_CAROLIEiJ_G0021449 | -
Type: protein_coding_gene
Organism: Mus caroli
Protein Coding Gene
MGP_129S1SvImJ_G0023564 | -
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGP_AJ_G0023526 | -
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGP_AKRJ_G0023491 | -
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGP_BALBcJ_G0023530 | -
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGP_C3HHeJ_G0023290 | -
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGI_C57BL6J_98484 | -
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGP_C57BL6NJ_G0023970 | -
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGP_CASTEiJ_G0022790 | -
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGP_CBAJ_G0023268 | -
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGP_DBA2J_G0023397 | -
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGP_FVBNJ_G0023363 | -
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGP_LPJ_G0023474 | -
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGP_NODShiLtJ_G0023386 | -
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGP_NZOHlLtJ_G0024013 | -
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGP_PWKPhJ_G0022540 | -
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGP_WSBEiJ_G0022851 | -
Type: protein_coding_gene
Organism: mouse, laboratory
Protein Coding Gene
MGP_PahariEiJ_G0020445 | -
Type: protein_coding_gene
Organism: Mus pahari
Protein Coding Gene
MGP_SPRETEiJ_G0022355 | -
Type: protein_coding_gene
Organism: Mus spretus
Publication
1339432 | J:49825
First Author: Yang Y
Year: 1992
Journal: J Biol Chem
Title: Major histocompatibility complex (MHC)-encoded HAM2 is necessary for antigenic peptide loading onto class I MHC molecules.
Volume: 267
Issue: 17
Pages: 11669-72
Publication
- | J:159355
     
First Author: Krebs P
Year: 2010
Journal: MGI Direct Data Submission
Title: Ganymede is an allele of Tap2 resulting in CD8+ T-cell deficiency and lack of MHC class I expression on lymphocytes
Publication
- | J:217145
     
First Author: Choi JH
Year: 2015
Journal: MGI Direct Data Submission
Title: Mutagenetix entry for date
Publication
- | J:254929
     
First Author: Zeng M
Year: 2018
Journal: MGI Direct Data Submission
Title: Mutagenetix entry for date2
Publication
- | J:272847
     
First Author: Zhong X
Year: 2019
Journal: MGI Direct Data Submission
Title: Mutagenetix entry for Palm.
Publication
8662084 | J:34490
First Author: Loflin PT
Year: 1996
Journal: Immunogenetics
Title: Identification of new TAP2 alleles in gorilla: evolution of the locus within hominoids.
Volume: 44
Issue: 3
Pages: 161-9
Publication
11976789 | J:76929
First Author: Ambagala AP
Year: 2002
Journal: Immunogenetics
Title: Molecular cloning, sequencing, and characterization of bovine transporter associated with antigen processing 2 ( BoTAP2).
Volume: 54
Issue: 1
Pages: 30-8
Publication
27861817 | J:246339
First Author: Lapenna A
Year: 2017
Journal: Immunology
Title: A novel spontaneous mutation in the TAP2 gene unravels its role in macrophage survival.
Volume: 150
Issue: 4
Pages: 432-443
GXD Expression
GXD Expression
     
Probe: MGI:3603841
Assay Type: RT-PCR
Annotation Date: 2005-11-08
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:360411
Stage: TS01
Assay Id: MGI:3603911
Age: embryonic day 0.5
Specimen Label: One-cell
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:3603841
Assay Type: RT-PCR
Annotation Date: 2005-11-08
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:360422
Stage: TS02
Assay Id: MGI:3603911
Age: embryonic day 1.0
Specimen Label: Two-cell
Detected: false
Specimen Num: 2
GXD Expression
GXD Expression
     
Probe: MGI:3603841
Assay Type: RT-PCR
Annotation Date: 2005-11-08
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:360443
Stage: TS03
Assay Id: MGI:3603911
Age: embryonic day 2.0
Specimen Label: Eight-cell
Detected: false
Specimen Num: 3
GXD Expression
GXD Expression
     
Probe: MGI:3603841
Assay Type: RT-PCR
Annotation Date: 2005-11-08
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:360464
Stage: TS04
Assay Id: MGI:3603911
Age: embryonic day 3.5
Specimen Label: Blastocyst
Detected: false
Specimen Num: 4
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:3516422
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1716122
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1691622
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1760622
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1737322
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:3284222
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1666522
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1619822
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
   
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1754922
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Note: Expression was not detected in the corpus striatum (lateral ganglionic eminence).
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1697422
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
   
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:3276322
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Note: Expression was not detected in the face/soft tissues.
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1783822
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1665922
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1706822
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1674822
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1670622
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1738222
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1654222
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1777922
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1684922
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1716822
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1
GXD Expression
GXD Expression
     
Probe: MGI:5309786
Assay Type: RNA in situ
Annotation Date: 2012-06-12
Strength: Absent
Sex: Not Specified
Emaps: EMAPS:1619322
Stage: TS22
Assay Id: MGI:5423112
Age: embryonic day 14.5
Specimen Label: ES293; Specimen S226
Detected: false
Specimen Num: 1




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