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RNA category is based on mRNA expression levels in the analyzed samples (RNA assay description). The categories include: tissue enriched, group enriched, tissue enhanced, expressed in all, mixed and not detected. RNA category is calculated separately for data imported from The Genotype-Tissue Expression project (GTEX), FANTOM5 Consortium (FANTOM5) and internally generated Human Protein Atlas (HPA) data.
Protein evidence scores are generated from several independent sources and are classified as evidence at i) protein level, ii) transcript level, iii) no evidence, or iv) not available.
Evidence at protein level
Protein expressioni
A summary of the overall protein expression pattern across the analyzed normal tissues. The summary is based on knowledge-based annotation.
"Estimation of protein expression could not be performed. View primary data." is shown for genes analyzed with a knowledge-based approach where available RNA-seq and gene/protein characterization data has been evaluated as not sufficient in combination with immunohistochemistry data to yield a reliable estimation of the protein expression profile.
Standardized explanatory sentences with additional information required for full understanding of the knowledge-based expression profile.
Antibody staining mainly not consistent with RNA expression data. Caution, targets protein from more than one gene.
Reliability scorei
Reliability score (score description), divided into Enhanced, Supported, Approved, or Uncertain, is evaluated in normal tissues and based on consistency between antibody staining pattern, available RNA-Seq and gene/protein characterization data, as well as similarity between independent antibodies targeting the same protein.
Below is an overview of RNA and protein expression data generated in the Human Protein Atlas project. Analyzed tissues are divided into color-coded groups according to which functional features they have in common. For each group, a list of included tissues is accessed by clicking on group name, group symbol, RNA bar, or protein bar. Subsequent selection of a particular tissue in this list links to the image data page.
Images of selected tissues give a visual summary of the protein expression profile furthest to the right.
The gray human body provides links to a histology dictionary when clicking on any part of the figure.
RNA expression (TPM)i
RNA-seq results generated in HPA are reported as number of transcripts per million (TPM). Each bar represents the highest expression score found in a particular group of tissues. The assay is described more in detail in Assays & Annotation.
Protein expression (score)i
Each bar represents the highest expression score found in a particular group of tissues. Protein expression scores are based on a best estimate of the "true" protein expression from a knowledge-based annotation, described more in detail under Assays & annotation. For genes where more than one antibody has been used, a collective score is set displaying the estimated true protein expression.
Protein expression data is shown for each of the 44 tissues. Color-coding is based on tissue groups, each consisting of tissues with functional features in common. Mouse-over function shows protein score for analyzed cell types in a selected tissue. To access image data click on tissue name or bar. Annotation of protein expression is described in detail in Assays & annotation.
For genes with available protein data for which a knowledge-based annotation gave inconclusive results, no protein expression data is displayed in the protein expression data overview. However, all immunohistochemical images are still available and the annotation data can be found under Primary data.
Organ
Expression
Alphabetical
RNA EXPRESSION OVERVIEWi
RNA expression overview shows RNA-data from three different sources: Internally generated Human Protein Atlas (HPA) RNA-seq data, RNA-seq data from the Genotype-Tissue Expression (GTEx) project and CAGE data from FANTOM5 project. Color-coding is based on tissue groups, each consisting of tissues with functional features in common. To access sample data, click on tissue name or bar.
HPA dataseti
HPA dataset RNA-seq tissue data is reported as mean TPM (transcripts per million), corresponding to mean values of the different individual samples from each tissue. Color-coding is based on tissue groups, each consisting of tissues with functional features in common. To access sample data, click on tissue name or bar. The RNA-seq assay is described in detail in Assays & Annotation.
RNA tissue category HPA HPA RNA tissue category (category description) is calculated based on mRNA expression levels across all tissues and include: tissue enriched, group enriched, tissue enhanced, expressed in all, mixed and not detected.
Organ
Expression
Alphabetical
RNA tissue category: Expressed in all
GTEx dataseti
GTEx dataset RNA-seq data is reported as median RPKM (reads per kilobase per million mapped reads), generated by the Genotype-Tissue Expression (GTEx) project. More information can be found in Assays & Annotation.
RNA tissue category GTEx GTEx RNA tissue category (category description) is calculated based on mRNA expression levels across all tissues and include: tissue enriched, group enriched, tissue enhanced, expressed in all, mixed and not detected.
Organ
Expression
Alphabetical
RNA tissue category: Expressed in all
FANTOM5 dataseti
FANTOM5 dataset Tissue data obtained through Cap Analysis of Gene Expression (CAGE) are reported as Tags Per Million, generated by the FANTOM5 project. More information can be found in Assays & Annotation.
RNA tissue category FANTOM5 FANTOM5 RNA tissue category (category description) is calculated based on gene expression levels across all tissues and include: tissue enriched, group enriched, tissue enhanced, expressed in all, mixed and not detected.
Organ
Expression
Alphabetical
RNA tissue category: Expressed in all
GENE INFORMATIONi
Gene information from Ensembl and Entrez, as well as links to available gene identifiers are displayed here. Information was retrieved from Ensembl if not indicated otherwise.
Gene name
HSPA8 (HGNC Symbol)
Synonyms
HSC70, HSC71, HSP73, HSPA10
Description
Heat shock protein family A (Hsp70) member 8 (HGNC Symbol)
Entrez gene summary
This gene encodes a member of the heat shock protein 70 family, which contains both heat-inducible and constitutively expressed members. This protein belongs to the latter group, which are also referred to as heat-shock cognate proteins. It functions as a chaperone, and binds to nascent polypeptides to facilitate correct folding. It also functions as an ATPase in the disassembly of clathrin-coated vesicles during transport of membrane components through the cell. Alternatively spliced transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Aug 2011]
The protein browser displays the antigen location on the target protein(s) and the features of the target protein. The tabs at the top of the protein view section can be used to switch between the different splice variants to which an antigen has been mapped.
At the top of the view, the position of the antigen (identified by the corresponding HPA identifier) is shown as a green bar. A yellow triangle on the bar indicates a <100% sequence identity to the protein target.
Under the antigens, the maximum percent sequence identity of the protein to all other proteins from other human genes is displayed, using a sliding window of 10 aa residues (HsID 10) or 50 aa residues (HsID 50). The region with the lowest possible identity is always selected for antigen design, with a maximum identity of 60% allowed for designing a single-target antigen (read more).
The curve in blue displays the predicted antigenicity i.e. the tendency for different regions of the protein to generate an immune response, with peak regions being predicted to be more antigenic.The curve shows average values based on a sliding window approach using an in-house propensity scale. (read more).
If a signal peptide is predicted by a majority of the signal peptide predictors SPOCTOPUS, SignalP 4.0, and Phobius (turquoise) and/or transmembrane regions (orange) are predicted by MDM, these are displayed.
Low complexity regions are shown in yellow and InterPro regions in green. Common (purple) and unique (grey) regions between different splice variants of the gene are also displayed (read more), and at the bottom of the protein view is the protein scale.
The protein information section displays alternative protein-coding transcripts (splice variants) encoded by this gene according to the Ensembl database.
The ENSP identifier links to the Ensembl website protein summary, while the ENST identifier links to the Ensembl website transcript summary for the selected splice variant. The data in the UniProt column can be expanded to show links to all matching UniProt identifiers for this protein.
The protein classes assigned to this protein are shown if expanding the data in the protein class column. Parent protein classes are in bold font and subclasses are listed under the parent class.
The Gene Ontology terms assigned to this protein are listed if expanding the Gene ontology column. The length of the protein (amino acid residues according to Ensembl), molecular mass (kDalton), predicted signal peptide (according to a majority of the signal peptide predictors SPOCTOPUS, SignalP 4.0, and Phobius) and the number of predicted transmembrane region(s) (according to MDM) are also reported.
P11142 [Direct mapping] Heat shock cognate 71 kDa protein V9HW22 [Target identity:100%; Query identity:100%] Epididymis luminal protein 33; Epididymis secretory sperm binding protein Li 72p; Heat shock 70kDa protein 8, isoform CRA_a
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Predicted intracellular proteins Plasma proteins Cancer-related genes Candidate cancer biomarkers Mutational cancer driver genes Protein evidence (Kim et al 2014) Protein evidence (Ezkurdia et al 2014)
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GO:0000151 [ubiquitin ligase complex] GO:0000166 [nucleotide binding] GO:0000398 [mRNA splicing, via spliceosome] GO:0000974 [Prp19 complex] GO:0001664 [G-protein coupled receptor binding] GO:0001786 [phosphatidylserine binding] GO:0003723 [RNA binding] GO:0005515 [protein binding] GO:0005524 [ATP binding] GO:0005576 [extracellular region] GO:0005615 [extracellular space] GO:0005622 [intracellular] GO:0005634 [nucleus] GO:0005654 [nucleoplasm] GO:0005681 [spliceosomal complex] GO:0005730 [nucleolus] GO:0005737 [cytoplasm] GO:0005765 [lysosomal membrane] GO:0005770 [late endosome] GO:0005829 [cytosol] GO:0005886 [plasma membrane] GO:0005925 [focal adhesion] GO:0006351 [transcription, DNA-templated] GO:0006355 [regulation of transcription, DNA-templated] GO:0006397 [mRNA processing] GO:0006457 [protein folding] GO:0006479 [protein methylation] GO:0006986 [response to unfolded protein] GO:0007269 [neurotransmitter secretion] GO:0008380 [RNA splicing] GO:0009267 [cellular response to starvation] GO:0016020 [membrane] GO:0016032 [viral process] GO:0016887 [ATPase activity] GO:0019899 [enzyme binding] GO:0023026 [MHC class II protein complex binding] GO:0030529 [intracellular ribonucleoprotein complex] GO:0031012 [extracellular matrix] GO:0031072 [heat shock protein binding] GO:0031625 [ubiquitin protein ligase binding] GO:0031647 [regulation of protein stability] GO:0034774 [secretory granule lumen] GO:0042026 [protein refolding] GO:0042470 [melanosome] GO:0042623 [ATPase activity, coupled] GO:0043202 [lysosomal lumen] GO:0043209 [myelin sheath] GO:0043254 [regulation of protein complex assembly] GO:0043312 [neutrophil degranulation] GO:0043488 [regulation of mRNA stability] GO:0044788 [modulation by host of viral process] GO:0044829 [positive regulation by host of viral genome replication] GO:0045296 [cadherin binding] GO:0045892 [negative regulation of transcription, DNA-templated] GO:0046034 [ATP metabolic process] GO:0048026 [positive regulation of mRNA splicing, via spliceosome] GO:0051082 [unfolded protein binding] GO:0051085 [chaperone mediated protein folding requiring cofactor] GO:0051726 [regulation of cell cycle] GO:0055131 [C3HC4-type RING finger domain binding] GO:0061024 [membrane organization] GO:0061202 [clathrin-sculpted gamma-aminobutyric acid transport vesicle membrane] GO:0061635 [regulation of protein complex stability] GO:0061684 [chaperone-mediated autophagy] GO:0061738 [late endosomal microautophagy] GO:0061740 [protein targeting to lysosome involved in chaperone-mediated autophagy] GO:0061741 [chaperone-mediated protein transport involved in chaperone-mediated autophagy] GO:0070062 [extracellular exosome] GO:0072318 [clathrin coat disassembly] GO:0072562 [blood microparticle] GO:0098575 [lumenal side of lysosomal membrane] GO:0098793 [presynapse] GO:1900034 [regulation of cellular response to heat] GO:1902904 [negative regulation of supramolecular fiber organization] GO:1904589 [regulation of protein import] GO:1904764 [chaperone-mediated autophagy translocation complex disassembly] GO:1904813 [ficolin-1-rich granule lumen]
P11142 [Direct mapping] Heat shock cognate 71 kDa protein
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Predicted intracellular proteins Plasma proteins Cancer-related genes Candidate cancer biomarkers Mutational cancer driver genes Protein evidence (Kim et al 2014) Protein evidence (Ezkurdia et al 2014)
P11142 [Direct mapping] Heat shock cognate 71 kDa protein V9HW22 [Target identity:100%; Query identity:100%] Epididymis luminal protein 33; Epididymis secretory sperm binding protein Li 72p; Heat shock 70kDa protein 8, isoform CRA_a
Show all
Predicted intracellular proteins Plasma proteins Cancer-related genes Candidate cancer biomarkers Mutational cancer driver genes Protein evidence (Ezkurdia et al 2014)
P11142 [Direct mapping] Heat shock cognate 71 kDa protein V9HW22 [Target identity:100%; Query identity:100%] Epididymis luminal protein 33; Epididymis secretory sperm binding protein Li 72p; Heat shock 70kDa protein 8, isoform CRA_a
Show all
Predicted intracellular proteins Plasma proteins Cancer-related genes Candidate cancer biomarkers Mutational cancer driver genes Protein evidence (Ezkurdia et al 2014)
E9PK54 [Direct mapping] Heat shock cognate 71 kDa protein
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SPOCTOPUS predicted membrane proteins Predicted intracellular proteins Cancer-related genes Mutational cancer driver genes Protein evidence (Ezkurdia et al 2014)