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Protein
Submitted name:

TRAF family member-associated NF-kappa-B activator

Gene

TANK

Organism
Homo sapiens (Human)
Status
Unreviewed-Annotation score: Annotation score: 1 out of 5-Experimental evidence at protein leveli

Names & Taxonomyi

Protein namesi
Submitted name:
TRAF family member-associated NF-kappa-B activatorImported
Gene namesi
Name:TANKImported
OrganismiHomo sapiens (Human)Imported
Taxonomic identifieri9606 [NCBI]
Taxonomic lineageiEukaryotaMetazoaChordataCraniataVertebrataEuteleostomiMammaliaEutheriaEuarchontogliresPrimatesHaplorrhiniCatarrhiniHominidaeHomo
Proteomesi
  • UP000005640 Componenti: Chromosome 2

Organism-specific databases

HGNCiHGNC:11562. TANK.

PTM / Processingi

Proteomic databases

PaxDbiH7C3L4.
PeptideAtlasiH7C3L4.
PRIDEiH7C3L4.

Expressioni

Gene expression databases

BgeeiH7C3L4.
ExpressionAtlasiH7C3L4. baseline and differential.

Interactioni

Protein-protein interaction databases

STRINGi9606.ENSP00000259075.

Structurei

3D structure databases

ProteinModelPortaliH7C3L4.
ModBaseiSearch...
MobiDBiSearch...

Family & Domainsi

Domains and Repeats

Feature keyPosition(s)LengthDescriptionGraphical viewFeature identifierActions
Domaini24 – 7754TBDInterPro annotationAdd
BLAST

Phylogenomic databases

eggNOGiENOG410IGRF. Eukaryota.
ENOG410Y7D3. LUCA.
GeneTreeiENSGT00390000008712.

Family and domain databases

InterProiIPR024581. TBD.
[Graphical view]
PfamiPF12845. TBD. 1 hit.
[Graphical view]

Sequencei

Sequence statusi: Fragment.

H7C3L4-1 [UniParc]FASTAAdd to basket

« Hide

        10         20         30         40         50
VRRQEVSSPR KETSARSLGS PLLHERGNIE KTFWDLKEEF HKICMLAKAQ
60 70 80 90 100
KDHLSKLNIP DTATETQCSV PIQCTDKTDK QEALFKPQAK DDINRGAPSI
110 120 130 140 150
TSVTPRGLCR DEEDTSFESL SKFNVKFPPM DNDSTFLHST PERPGILSPA
160 170 180 190 200
TSEAVCQEKF NMEFRDNPGN FVKTEETLFE IQGIDPIASA IQNLKTTDKT
210 220 230 240 250
KPSNLVNTCI RTTLDRAACL PPGDHNALYV NSFPLLDPSD APFPSLDSPG
260 270
KAIRGPQQQG KQLVCDYNLM EKYSA
Length:275
Mass (Da):30,644
Last modified:April 18, 2012 - v1
Checksum:i90C4816AC2768409
GO

Experimental Info

Feature keyPosition(s)LengthDescriptionGraphical viewFeature identifierActions
Non-terminal residuei1 – 11Imported

Sequence databases

Select the link destinations:
EMBLi
GenBanki
DDBJi
Links Updated
AC009299 Genomic DNA. No translation available.
AC009313 Genomic DNA. No translation available.

Genome annotation databases

EnsembliENST00000437623; ENSP00000412556; ENSG00000136560.
UCSCiuc061oyk.1. human.

Cross-referencesi

Sequence databases

Select the link destinations:
EMBLi
GenBanki
DDBJi
Links Updated
AC009299 Genomic DNA. No translation available.
AC009313 Genomic DNA. No translation available.

3D structure databases

ProteinModelPortaliH7C3L4.
ModBaseiSearch...
MobiDBiSearch...

Protein-protein interaction databases

STRINGi9606.ENSP00000259075.

Proteomic databases

PaxDbiH7C3L4.
PeptideAtlasiH7C3L4.
PRIDEiH7C3L4.

Protocols and materials databases

Structural Biology KnowledgebaseSearch...

Genome annotation databases

EnsembliENST00000437623; ENSP00000412556; ENSG00000136560.
UCSCiuc061oyk.1. human.

Organism-specific databases

HGNCiHGNC:11562. TANK.
GenAtlasiSearch...

Phylogenomic databases

eggNOGiENOG410IGRF. Eukaryota.
ENOG410Y7D3. LUCA.
GeneTreeiENSGT00390000008712.

Miscellaneous databases

ChiTaRSiTANK. human.

Gene expression databases

BgeeiH7C3L4.
ExpressionAtlasiH7C3L4. baseline and differential.

Family and domain databases

InterProiIPR024581. TBD.
[Graphical view]
PfamiPF12845. TBD. 1 hit.
[Graphical view]
ProtoNetiSearch...

Publicationsi

« Hide 'large scale' publications
  1. "Generation and annotation of the DNA sequences of human chromosomes 2 and 4."
    Hillier L.W., Graves T.A., Fulton R.S., Fulton L.A., Pepin K.H., Minx P., Wagner-McPherson C., Layman D., Wylie K., Sekhon M., Becker M.C., Fewell G.A., Delehaunty K.D., Miner T.L., Nash W.E., Kremitzki C., Oddy L., Du H.
    , Sun H., Bradshaw-Cordum H., Ali J., Carter J., Cordes M., Harris A., Isak A., van Brunt A., Nguyen C., Du F., Courtney L., Kalicki J., Ozersky P., Abbott S., Armstrong J., Belter E.A., Caruso L., Cedroni M., Cotton M., Davidson T., Desai A., Elliott G., Erb T., Fronick C., Gaige T., Haakenson W., Haglund K., Holmes A., Harkins R., Kim K., Kruchowski S.S., Strong C.M., Grewal N., Goyea E., Hou S., Levy A., Martinka S., Mead K., McLellan M.D., Meyer R., Randall-Maher J., Tomlinson C., Dauphin-Kohlberg S., Kozlowicz-Reilly A., Shah N., Swearengen-Shahid S., Snider J., Strong J.T., Thompson J., Yoakum M., Leonard S., Pearman C., Trani L., Radionenko M., Waligorski J.E., Wang C., Rock S.M., Tin-Wollam A.-M., Maupin R., Latreille P., Wendl M.C., Yang S.-P., Pohl C., Wallis J.W., Spieth J., Bieri T.A., Berkowicz N., Nelson J.O., Osborne J., Ding L., Meyer R., Sabo A., Shotland Y., Sinha P., Wohldmann P.E., Cook L.L., Hickenbotham M.T., Eldred J., Williams D., Jones T.A., She X., Ciccarelli F.D., Izaurralde E., Taylor J., Schmutz J., Myers R.M., Cox D.R., Huang X., McPherson J.D., Mardis E.R., Clifton S.W., Warren W.C., Chinwalla A.T., Eddy S.R., Marra M.A., Ovcharenko I., Furey T.S., Miller W., Eichler E.E., Bork P., Suyama M., Torrents D., Waterston R.H., Wilson R.K.
    Nature 434:724-731(2005) [PubMed] [Europe PMC] [Abstract]
    Cited for: NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA].
  2. "Kinase-selective enrichment enables quantitative phosphoproteomics of the kinome across the cell cycle."
    Daub H., Olsen J.V., Bairlein M., Gnad F., Oppermann F.S., Korner R., Greff Z., Keri G., Stemmann O., Mann M.
    Mol. Cell 31:438-448(2008) [PubMed] [Europe PMC] [Abstract]
    Cited for: IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS].
  3. Cited for: IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS].
  4. Cited for: IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS].
  5. "Quantitative phosphoproteomics reveals widespread full phosphorylation site occupancy during mitosis."
    Olsen J.V., Vermeulen M., Santamaria A., Kumar C., Miller M.L., Jensen L.J., Gnad F., Cox J., Jensen T.S., Nigg E.A., Brunak S., Mann M.
    Sci. Signal. 3:RA3-RA3(2010) [PubMed] [Europe PMC] [Abstract]
    Cited for: IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS].
  6. Ensembl
    Submitted (FEB-2012) to UniProtKB
    Cited for: IDENTIFICATION.
  7. "Toward a comprehensive characterization of a human cancer cell phosphoproteome."
    Zhou H., Di Palma S., Preisinger C., Peng M., Polat A.N., Heck A.J., Mohammed S.
    J. Proteome Res. 12:260-271(2013) [PubMed] [Europe PMC] [Abstract]
    Cited for: IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS].
  8. "An enzyme assisted RP-RPLC approach for in-depth analysis of human liver phosphoproteome."
    Bian Y., Song C., Cheng K., Dong M., Wang F., Huang J., Sun D., Wang L., Ye M., Zou H.
    J. Proteomics 96:253-262(2014) [PubMed] [Europe PMC] [Abstract]
    Cited for: IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS].

Entry informationi

Entry nameiH7C3L4_HUMAN
AccessioniPrimary (citable) accession number: H7C3L4
Entry historyi
Integrated into UniProtKB/TrEMBL: April 18, 2012
Last sequence update: April 18, 2012
Last modified: July 6, 2016
This is version 25 of the entry and version 1 of the sequence. [Complete history]
Entry statusiUnreviewed (UniProtKB/TrEMBL)
DisclaimerAny medical or genetic information present in this entry is provided for research, educational and informational purposes only. It is not in any way intended to be used as a substitute for professional medical advice, diagnosis, treatment or care.

Miscellaneousi

Caution

The sequence shown here is derived from an Ensembl automatic analysis pipeline and should be considered as preliminary data.Imported

Keywords - Technical termi

Complete proteome, Proteomics identificationCombined sources, Reference proteomeImported

Similar proteinsi

Links to similar proteins from the UniProt Reference Clusters (UniRef) at 100%, 90% and 50% sequence identity:
100%UniRef100 combines identical sequences and sub-fragments with 11 or more residues from any organism into one UniRef entry.
90%UniRef90 is built by clustering UniRef100 sequences that have at least 90% sequence identity to, and 80% overlap with, the longest sequence (a.k.a seed sequence).
50%UniRef50 is built by clustering UniRef90 seed sequences that have at least 50% sequence identity to, and 80% overlap with, the longest sequence in the cluster.