C11ORF97
C11orf97 | |||||||||||||||||||||||||||||||||||||||||||||||||||
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Aliases | C11orf97, LINC01171, chromosome 11 open reading frame 97 | ||||||||||||||||||||||||||||||||||||||||||||||||||
External IDs | MGI: 1916575; HomoloGene: 75283; GeneCards: C11orf97; OMA:C11orf97 - orthologs | ||||||||||||||||||||||||||||||||||||||||||||||||||
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C11ORF97, or Chromosome 11 Open Reading Frame 97, is a protein which in humans is encoded by the C11ORF97 gene.[5] It is hypothesized to localize to the cytoplasm, and plays a role in the ciliary basal body.[6] Based on its protein interactions, it is thought to have a role in Lemierre's Syndrome and Hepatic Coma.[7]
Gene
Human C11ORF97 gene is 19,663 basepairs long including all introns, spanning from position 94,512,461 to 94,532,123.[8] It is found on the long arm of chromosome 11 at 11q21, with a plus strand orientation.[8] Human C11ORF97 has only one known variant.[8]
mRNA transcript
Expression
Human C11ORF97 expression is seen in many tissues, however, it is mainly seen in the lungs and the brain.[9][10] According to Human Protein Atlas, the consensus dataset for RNA tissue specificity on C11ORF97 shows six different parts of the brain having some of the highest expression, stating that the enriched groups are brain, choroid plexus, fallopian tube, and lung.[11] According to The Human Protein Atlas, human C11ORF97 RNA tissue specificity was highest in different parts of the brain, as well as the lungs. Although it was high in testes, this is most likely not significant to this gene.[12]
Protein
Features
The one variant of C11ORF97 produced in humans is 126 amino acids in length, and a predicted weight of 13.9 kDa.[5][13] It has an isoelectric point of pH 9.87.[14] It has no transmembrane regions, and no domains of unknown functions. The amino acid composition from SAPS tool shows that there is enriched G and R, and highly lessened S, T, D, and F amino acids.[15]
Subcellular localization
Human C11ORF97 expected localization is in the cytoplasm, with a score of 0.5188, according to DeepLoc.[16] The following tools produced no results when searching for C11ORF97 localization: NetNES, SignalP, TatP, or Human Protein Atlas. A nuclear localization signal, as well as a nuclear export signal was found, suggesting that C11ORF97 most likely has a role in the nucleus, and is then exported to the cytoplasm.
Structure
The tertiary structure was viewed through AlphaFold, i-TASSER and annotated with NCBI's iCN3D tool.[17][18] These results are shown in the figures to the right, all of them include similar, or near identical features—two alpha helices and no beta sheets.
The C-scores for the 5 i-TASSER models, in order, are -3.59, -4.88, -5.00, -4.47, and -5.00. Thus, the first structure in this figure has the most confidence compared to the other four predicted structures.
Function
Protein-protein interactions
There were only a couple protein-protein interactions found for human C11ORF97, with a medium or higher confidence threshold.[19]
Name | Full Name | Score | Identification | Description |
---|---|---|---|---|
MORN2 | MORN repeat-containing protein 2 | 0.693 | Textmining | Predicted to be involved in cell differentiation and spermatogenesis. Associated with Lemierre’s Syndrome and Hepatic Coma. |
CRACR2A | Calcium release activated channel regulator 2A | 0.583 | Textmining | Enables GTPase activity and calcium ion binding. Involved in activation of store-operated calcium channel activity and store-operated calcium entry. |
Post-translational modifications
There are many post-translational modifications found in Human C11ORF97, many of which are conserved in orthologs. There are many phosphorylation sites, as well as a SUMOinteraction and sumoylation site, and others.[20] These types post-translational modifications have various functions, and can play a role in cell growth and proliferation. A more detailed description is seen in the illustration to the right.
Homology and evolution
Human C11ORF97 protein is found in vertebrates and invertebrates. It is found in the following vertebrates: mammals, birds, reptiles, amphibians, and fish. Human C11ORF97 seems to have first appeared in invertebrates 686 million years ago. All of the comparisons are seen in Table 2 below. An unrooted phylogenetic tree is also provided, showing the predicted likelihood of how the orthologs for this gene are related.[21] Multiple sequence alignments for strict and distant orthologs are also provided as figures. The codes for the 3 letter abbreviations are the same between figures.
group | genus, species | common name | taxonomic group | date of divergence (MYA) | accession number | sequence length (aa) | sequence identity (%) | sequence similarity (%) |
Mammals | Homo sapiens | human | Primates | 0 | NP_001177391.1 | 126 | 100 | 100 |
Mus musculus | mouse | Rodentia | 87 | NP_083582.2 | 121 | 71.4 | 77 | |
Ailuropoda melanoleuca | giant panda | Carnivora | 94 | XP_019648185.2 | 127 | 84.3 | 88.2 | |
Miniopterus natalensis | natal long-fingered bat | Chiroptera | 94 | XP_016062178.1 | 97 | 47.2 | 50 | |
Aves | Apteryx rowi | okarito brown kiwi | Apterygiformes | 319 | XP_025927683 | 125 | 42.8 | 54.5 |
Tinamus guttatus | white-throated tinamou | Tinamiformes | 319 | XP_010210901.1 | 120 | 34.2 | 49 | |
Apus apus | common swift | Apodiformes | 319 | XP_051500140 | 121 | 33.8 | 45.8 | |
Gallus gallus | chicken | Galliformes | 319 | XP_040517768.1 | 264 | 20.1 | 28.6 | |
Reptiles | Terrapene carolina triunguis | three-toed box turtle | Testudines | 319 | XP_024064440.1 | 118 | 46.8 | 54.7 |
Podarcis raffonei | aeolian wall lizard | Squamata | 319 | XP_053241613.1 | 121 | 42.7 | 52.4 | |
Crotalus tigris | tiger rattlesnake | Squamata | 319 | XP_039205026.1 | 133 | 40 | 53.8 | |
Caretta caretta | loggerhead-turtle | Testudines | 319 | XP_048699259.1 | 130 | 38.8 | 46.2 | |
Amphibians | Rhinatrema bivittatum | two-lined caecilian | Gymnophiona | 352 | XP_029458218.1 | 149 | 26.6 | 36.2 |
Geotrypetes seraphini | gaboon caecilian | Gymnophiona | 352 | XP_033805672.1 | 185 | 21.8 | 30.1 | |
Hyla sarda | sardinian tree frog | Anura | 352 | XP_056417471.1 | 184 | 19 | 27.5 | |
Xenopus laevis | african clawed frog | Anura | 352 | OCT93259.1 | 167 | 18 | 28.6 | |
Fish | Leucoraja erinacea | little skate | Rajiformes | 462 | XP_055493278.1 | 144 | 19.8 | 30.5 |
Pristis pectinata | small-tooth sawfish | Pristiformes | 462 | XP_051882720.1 | 77 | 19.5 | 35.9 | |
Invertebrates | Haliotis rufescens | red abalone | Vetigastropoda | 686 | XP_046353937.1 | 139 | 16.7 | 26.9 |
Gigantopelta aegis | deep sea snail | Neomphalina | 686 | XP_041350579.1 | 154 | 15.8 | 23 |
Paralogs
There were no paralogs found for human C11ORF97 protein.
Clinical significance/pathology
Based on its protein interactions, it is predicted to have a role in Lemierre's syndrome and hepatic coma.[7] C11ORF97 was also found to be closely related to ciliary movement, seen through multiple published papers.[22][23] C11ORF97 was also mentioned in a published paper that dealt with the respiratory illnesses, COVID-19.[24]
References
- ^ a b c GRCh38: Ensembl release 89: ENSG00000257057 – Ensembl, May 2017
- ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000031927 – Ensembl, May 2017
- ^ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
- ^ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
- ^ a b "uncharacterized protein C11orf97 [Homo sapiens]". National Center for Bioinformatics (NCBI).
- ^ "C11orf97". neXtProt. SIB Swiss Institute of Bioinformatics. Retrieved 2023-12-07.
- ^ a b "DISEASES - MORN2". diseases.jensenlab.org. Retrieved 2023-12-07.
- ^ a b c "C11orf97 chromosome 11 open reading frame 97 [Homo sapiens (human)] - Gene". National Center for Bioinformatics (NCBI). U.S. National Library of Medicine. Retrieved 2023-12-07.
- ^ Fagerberg L, Hallström BM, Oksvold P, Kampf C, Djureinovic D, Odeberg J, et al. (February 2014). "Analysis of the human tissue-specific expression by genome-wide integration of transcriptomics and antibody-based proteomics". Molecular & Cellular Proteomics. 13 (2): 397–406. doi:10.1074/mcp.m113.035600. PMC 3916642. PMID 24309898.
- ^ Duff MO, Olson S, Wei X, Garrett SC, Osman A, Bolisetty M, et al. (May 2015). "Genome-wide identification of zero nucleotide recursive splicing in Drosophila". Nature. 521 (7552): 376–379. Bibcode:2015Natur.521..376D. doi:10.1038/nature14475. PMC 4529404. PMID 25970244.
- ^ "Tissue expression of C11orf97 - Summary". The Human Protein Atlas. Retrieved 2023-12-07.
- ^ "Tissue expression of C11orf97 - Summary". The Human Protein Atlas. Retrieved 2023-12-16.
- ^ "CK097_HUMAN". UniProt. A0A1B0GVM6. Retrieved 2023-12-07.
- ^ "Protein Isoelectric Point". www.bioinformatics.org. Retrieved 2023-12-07.
- ^ "SAPS < Sequence Statistics < EMBL-EBI". www.ebi.ac.uk. Retrieved 2023-12-07.
- ^ "DeepLoc 2.0". DTU Health Tech - Bioinformatic Services. Retrieved 2023-12-07.
- ^ "I-TASSER results". zhanggroup.org. Retrieved 2023-12-07.
- ^ "iCn3D: Web-based 3D Structure Viewer". National Center for Bioinformatics (NCBI). U.S. National Library of Medicine. Retrieved 2023-12-07.
- ^ "C11orf97 protein (human)". STRING interaction network. Retrieved 2023-12-16.
- ^ "GPS-SUMO: Prediction of SUMOylation Sites & SUMO-interacting Motifs". sumo.biocuckoo.cn. Retrieved 2023-12-16.
- ^ "Phylogeny fr".
- ^ Stauber M, Boldt K, Wrede C, Weidemann M, Kellner M, Schuster-Gossler K, et al. (September 2017). "1700012B09Rik, a FOXJ1 effector gene active in ciliated tissues of the mouse but not essential for motile ciliogenesis". Developmental Biology. 429 (1): 186–199. doi:10.1016/j.ydbio.2017.06.027. PMID 28666954.
- ^ Merlino J (2022). "Role of the Primary Cilium in the Crosstalk Between Obesity and Cancer". cdr.lib.unc.edu. doi:10.17615/gqs5-kz52. Retrieved 2023-12-16.
- ^ Vastrad B, Vastrad C, Tengli A (December 2020). "Bioinformatics analyses of significant genes, related pathways, and candidate diagnostic biomarkers and molecular targets in SARS-CoV-2/COVID-19". Gene Reports. 21: 100956. doi:10.1016/j.genrep.2020.100956. PMC 7854084. PMID 33553808.