UniProtKB AC (Name) | UniProtKB Section | Organism | Description | |
---|---|---|---|---|
P80188 (NGAL_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Neutrophil gelatinase-associated lipocalin; 25 kDa alpha-2-microglobulin-related subunit of MMP-9; Lipocalin-2; Oncogene 24p3; Siderocalin; p25; | |
Q8WUE5 (CT55_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Cancer/testis antigen 55; Tumor antigen BJ-HCC-20; | |
Q7Z7D3 (VTCN1_HUMAN) | Swiss-Prot | Homo sapiens (Human) | V-set domain-containing T-cell activation inhibitor 1; B7 homolog 4; B7h.5; Immune costimulatory protein B7-H4; Protein B7S1; T-cell costimulatory molecule B7x; | |
Q6ZUI0 (TPRG1_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Tumor protein p63-regulated gene 1 protein; Protein FAM79B; | |
A6NCS6 (CB072_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Uncharacterized protein C2orf72; | |
Q14749 (GNMT_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Glycine N-methyltransferase; | |
Q9BW85 (YJU2_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Splicing factor YJU2; Coiled-coil domain-containing protein 94; | |
Q5PSV4 (BRM1L_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Breast cancer metastasis-suppressor 1-like protein; BRMS1-homolog protein p40; BRMS1-like protein p40; | |
O95279 (KCNK5_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Potassium channel subfamily K member 5; Acid-sensitive potassium channel protein TASK-2; TWIK-related acid-sensitive K(+) channel 2; | |
Q5T035 (CI129_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Putative uncharacterized protein FAM120A2P; FAM120A2P pseudogene; | |
Q6UWH6 (TX261_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Protein TEX261; | |
Q9BYF1 (ACE2_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Angiotensin-converting enzyme 2; Angiotensin-converting enzyme homolog; Angiotensin-converting enzyme-related carboxypeptidase; Metalloprotease MPROT15; Processed angiotensin-converting enzyme 2; | |
Q92611 (EDEM1_HUMAN) | Swiss-Prot | Homo sapiens (Human) | ER degradation-enhancing alpha-mannosidase-like protein 1; | |
Q15256 (PTPRR_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Receptor-type tyrosine-protein phosphatase R; Ch-1PTPase; NC-PTPCOM1; Protein-tyrosine phosphatase PCPTP1; | |
Q9NTN9 (SEM4G_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Semaphorin-4G; | |
P17026 (ZNF22_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Zinc finger protein 22; Zinc finger protein KOX15; Zinc finger protein Krox-26; | |
Q8NH85 (OR5R1_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Olfactory receptor 8U3; Olfactory receptor 5R1; Olfactory receptor OR11-185; | |
Q8NGC9 (O11H4_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Olfactory receptor 11H4; Olfactory receptor OR14-36; | |
Q8N127 (O5AS1_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Olfactory receptor 5AS1; Olfactory receptor OR11-168; | |
Q9NY26 (S39A1_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Zinc transporter ZIP1; Solute carrier family 39 member 1; Zinc-iron-regulated transporter-like; Zrt- and Irt-like protein 1; | |
Q96MH6 (DIESL_HUMAN) | Swiss-Prot | Homo sapiens (Human) | DGAT1/2-independent enzyme synthesizing storage lipids; 2-acylglycerol/1,2-diacylglycerol O-acyltransferase; Monoacylglycerol/Diacylglycerol O-acyltransferase; Transmembrane protein 68; | |
Q8NGY2 (OR6K2_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Olfactory receptor 6K2; Olfactory receptor OR1-17; | |
P25686 (DNJB2_HUMAN) | Swiss-Prot | Homo sapiens (Human) | DnaJ homolog subfamily B member 2; Heat shock 40 kDa protein 3; Heat shock protein J1; | |
Q8NGI3 (O56B1_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Olfactory receptor 56B1; Olfactory receptor OR11-65; | |
P31995 (FCG2C_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Low affinity immunoglobulin gamma Fc region receptor II-c; CDw32; Fc-gamma RII-c; CD32; | |
Q8NGK6 (O52I1_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Olfactory receptor 52I1; Olfactory receptor OR11-13; | |
Q6IF00 (OR2T2_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Olfactory receptor 2T2; Olfactory receptor OR1-43; | |
Q8NH93 (OR1L3_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Olfactory receptor 1L3; Olfactory receptor 9-D; Olfactory receptor OR9-28; | |
Q9NUQ9 (CYRIB_HUMAN) | Swiss-Prot | Homo sapiens (Human) | CYFIP-related Rac1 interactor B; L1; | |
Q8NGF3 (O51D1_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Olfactory receptor 51D1; Olfactory receptor OR11-14; | |
Q8NGI9 (OR5A2_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Olfactory receptor 5A2; Olfactory receptor OR11-248; | |
Q9HC07 (TM165_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Putative divalent cation/proton antiporter TMEM165; Transmembrane protein 165; Transmembrane protein PT27; Transmembrane protein TPARL; | |
P51665 (PSMD7_HUMAN) | Swiss-Prot | Homo sapiens (Human) | 26S proteasome non-ATPase regulatory subunit 7; 26S proteasome regulatory subunit RPN8; 26S proteasome regulatory subunit S12; Mov34 protein homolog; Proteasome subunit p40; | |
Q8WXQ3 (CN183_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Putative uncharacterized protein encoded by LINC01599; | |
O43255 (SIAH2_HUMAN) | Swiss-Prot | Homo sapiens (Human) | E3 ubiquitin-protein ligase SIAH2; RING-type E3 ubiquitin transferase SIAH2; Seven in absentia homolog 2; | |
Q8NH56 (O52N5_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Olfactory receptor 52N5; Olfactory receptor OR11-62; | |
Q8NG99 (OR7G2_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Olfactory receptor 7G2; OST260; Olfactory receptor 19-13; Olfactory receptor OR19-6; | |
Q96LB0 (MRGX3_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Mas-related G-protein coupled receptor member X3; Sensory neuron-specific G-protein coupled receptor 1/2; | |
Q9Y5Y7 (LYVE1_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Lymphatic vessel endothelial hyaluronic acid receptor 1; Cell surface retention sequence-binding protein 1; Extracellular link domain-containing protein 1; Hyaluronic acid receptor; | |
P78383 (S35B1_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Solute carrier family 35 member B1; ATP/ADP exchanger ER; Endoplasmic reticulum ATP/ADP translocase; UDP-galactose transporter-related protein 1; | |
Q8NGX0 (O11L1_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Olfactory receptor 11L1; | |
Q00577 (PURA_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Transcriptional activator protein Pur-alpha; Purine-rich single-stranded DNA-binding protein alpha; | |
Q8N5Y8 (PAR16_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Protein mono-ADP-ribosyltransferase PARP16; ADP-ribosyltransferase diphtheria toxin-like 15; Poly [ADP-ribose] polymerase 16; | |
Q8NGS3 (OR1J1_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Olfactory receptor 1J1; Olfactory receptor OR9-18; | |
Q96S97 (MYADM_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Myeloid-associated differentiation marker; Protein SB135; | |
Q8WZ92 (OR5P2_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Olfactory receptor 5P2; Olfactory receptor-like protein JCG3; | |
Q96NB2 (SFXN2_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Sideroflexin-2; | |
P24387 (CRHBP_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Corticotropin-releasing factor-binding protein; Corticotropin-releasing hormone-binding protein; | |
Q96LB2 (MRGX1_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Mas-related G-protein coupled receptor member X1; Sensory neuron-specific G-protein coupled receptor 3/4; | |
P58505 (CU058_HUMAN) | Swiss-Prot | Homo sapiens (Human) | Uncharacterized protein C21orf58; |
Homo sapiens (Latin: "wise man") is the species name for humans. Believed to have originated in Africa, Homo sapiens is the only surviving member of the Homo genus.
The first complete draft of the human genome was completed in 2001 with an estimated cost of $300million. With the advances in DNA sequencing methods, this price has dropped dramatically down to almost $1000 per genome. By combining the individual genome information with other data, such as protein structure models, personalised medicine becomes viable.
From left to right: i) The number of proteins in the reference proteome of Homo sapiens, ii) the number of unique protein sequences for which at least one model is available, iii) the total number of models and iv) a coverage bar plot is shown.
The bar plot shows the coverage for every protein in the reference proteome of Homo sapiens for which there is at least one model. Different colours (dark green to red boxes) represent the coverage of the targets. Targets with high coverage are represented in dark green (more than 80% of the target's length is covered by models), whereas low coverage is shown in red. The size of each box is proportional to the number of target sequences with a given coverage.
For information on the latest proteome for Homo sapiens, please visit Proteome.
You can easily download the latest protein sequences for Homo sapiens proteome here. Please note this download is for the current UniProtKB release, which may be different to release 2025_02 that was used for the most up to date SWISS-MODEL Repository.
Proteins in proteome | Sequences modelled | Models |
20,647 | 17,606 | 44,521 |
Detailed coverage numbers are obtained by hovering the mouse over one of the boxes.
The plot shows the evolution over years (x-axis) of the fraction of Homo sapiens reference proteome residues (y-axis) for which structural information is available. Different colors (light blue to dark blue) in the plot represent the quality of the sequence alignment between the reference proteome sequences (targets) and the sequences of the proteins in the structure database (templates). Alignments with low sequence identity are displayed in light blue, whereas alignments with high sequence identity are depicted in dark blue. The SWISS-MODEL Template Library is used as database of templates. Only target-template alignments found by HHblits and only residues with atom coordinates are considered.
This chart shows the percentage of residues in the Homo sapiens proteome which are covered by experimental structures and the enhancement of coverage by homology modelling by the SWISS-MODEL pipeline. Experimental residue coverage is determined using SIFTS mapping. For residues which are not covered by experimental structures (including where there are no atom records in SIFTS mapping) the model coverage bars are coloured by QMEANDisCo local quality score.
Many proteins form oligomeric structures either by self-assembly (homo-oligomeric) or by assembly with other proteins (hetero-oligomeric) to accomplish their function. In SWISS-MODEL Repository, the quaternary structure annotation of the template is used to model the target sequence in its oligomeric form. Currently our method is limited to the modelling of homo-oligomeric assemblies. The oligomeric state of the template is only considered if the interface is conserved.
Single Chain | 2-mer | 3-mer | 4-mer | 5-mer | 6-mer | 7-mer | 8-mer | 9-mer | 10-mer | 11-mer | 12-mer | 13-mer | 14-mer | 16-mer | 18-mer | 20-mer | 21-mer | 22-mer | 24-mer | 25-mer | 26-mer | 32-mer | 34-mer | 36-mer | 39-mer | 40-mer | 44-mer | 46-mer | 48-mer | 51-mer | 56-mer | 60-mer | 62-mer |
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39,674 | 3,445 | 322 | 627 | 66 | 135 | 17 | 55 | 2 | 25 | 9 | 49 | 1 | 5 | 17 | 8 | 2 | 1 | 1 | 15 | 2 | 1 | 4 | 1 | 2 | 3 | 9 | 1 | 1 | 4 | 1 | 1 | 13 | 2 |