“TMEM8B”的意思、由来-开放百科全书

词条

TMEM8B

释义

Gene
Location Expression
mRNA
Splice Variants
Protein
Protein Analysis Secondary Structure Tertiary Structure
Homologogy
Orthologs Paralogs Divergence of TMEM8B
Clinical significance
Interacting Proteins
References
Further reading
External links

{{Infobox gene}}Transmembrane protein 8B is a protein that in humans is encoded by the TMEM8B gene. It encodes for a transmembrane protein that is 338 amino acids long, and is located on human chromosome 9.^[1] Aliases associated with this gene include C9orf127, NAG-5, and NGX61.^[2]

Gene

Location

Cytogenic location: 9p13.3^[3]

Located on chromosome 9 in the human genome. It starts at base pair 35,814,451, and ends at 35,865,518, and contains 19 exons. There are 13 transcript variants that are protein encoding, and the longest transcript variant is 790 amino acids long.

Expression

Using information from NCBI's EST Abundance Profile page on TMEM8B, expression levels vary in 32 different human tissues. The highest levels of expression can be found in the brain, ovaries, prostate, placenta, and the pancreas.^[4] Expression levels are down regulated in some cancerous tissue, specifically nasopharyngeal and colorectal carcinomas. TMEM8B is expressed in all stages of development, including fetal stages, as low levels of expression are present in the fetal liver, brain, and thymus.^[4]

mRNA

Splice Variants

TMEM8B has 13 known mRNA splice variants in humans: Refer to the table below. All 13 variants are protein encoding, and all contain 19 exons.

Isoform A	[https://www.ncbi.nlm.nih.gov/protein/NP_001036054.1 NP_001036055.1]	472	[https://www.ncbi.nlm.nih.gov/nuccore/390407646 NM_001042589.2]
Isoform X1	[https://www.ncbi.nlm.nih.gov/protein/XP_011516213.1 XP_011516213.1]	508	[https://www.ncbi.nlm.nih.gov/nuccore/1034670349 XM_011517911.2]
Isoform X3	[https://www.ncbi.nlm.nih.gov/protein/XP_024303339.1 XP_024303339.1]	482	[https://www.ncbi.nlm.nih.gov/nuccore/1370514618 XM_024447571.1]
Isoform X5	[https://www.ncbi.nlm.nih.gov/protein/XP_024303338.1 XP_024303338.1]	373	[https://www.ncbi.nlm.nih.gov/nuccore/1370514613 XM_024447570.1]
Isoform X7	[https://www.ncbi.nlm.nih.gov/protein/XP_011516207.1 XP_011516207.1]	334	[https://www.ncbi.nlm.nih.gov/nuccore/767954957 XM_011517905.1]
Isoform X9	[https://www.ncbi.nlm.nih.gov/protein/XP_011516218.1 XP_011516218.1]	450	[https://www.ncbi.nlm.nih.gov/nuccore/1034670356 XM_011517916.2]
Isoform X11	[https://www.ncbi.nlm.nih.gov/protein/XP_011516220.1 XP_011516220.1]	398	[https://www.ncbi.nlm.nih.gov/nuccore/1370514620 XM_011517918.3]

The figure below from NCBI Gene depicts the chromosomal location of each isoform in comparison to TMEM8B.

Protein

Protein Analysis

Protein analysis was completed on Isoform A.

TMEM8B isoform A is 472 amino acids long. The molecular weight is 36.8 kDa,^[5] and the isoelectric point is 6.773.^[6] There are 7 transmembrane domains, resulting in 52% of the protein to be within the plasma membrane.^[7] The C-charge> N-charge, and therefore the C-terminal end is on the inside. Transmembrane domains are conserved in most orthologs, including all mammals. Relative to other proteins, TMEM8B has higher than normal levels of K, Lysine, and L, Leucine.^[5] There are three repeating leucine-rich regions within conserved domains of TMEM8B, all 4 amino acids long. Leucine rich regions can result in hydrophobic interactions within themselves.^[8]

Secondary Structure

Identifying the secondary structure is helpful in further analyzing the function of this protein. Alpha helices are the strongest indicators of transmembrane regions, as the helical structure can satisfy all backbone hydrogen-bonds internally. This is why the secondary structure of this protein is practical, as many of the alpha helices lie in the predicted transmembrane regions. Other key structures identified in this protein include extended strands, which are hypothesized to be important folding regions, and random coils, a class of conformations in the absence of a regular secondary structure.

Tertiary Structure

I-TASSER^[9] predicted the 3D tertiary structure of TMEM8B, with strategic folding of the alpha helices and beta sheets. Although there are no high scoring hydrophobic segments of TMEM8B, that would usually be hidden within the interior of the 3D structure, the high amounts of Leuceine (L) amino acids in this protein creates hydrophobic interactions with itself, and these areas are predicted to be buried on the inside of the structure.^[8] Refer to the figure below to see a predicted tertiary structure.

TMEM8B highly resembles a tertiary structure that is similar to the Reelin protein, predicted by a 42% coverage and 14.79% identity^[10] The Reelin protein has no transmembrane domains, and is mostly found in the cerebral cortex and the hippocampus, where it plays important roles in the control of neuronal migration and formation of cellular layers during brain development.

Homologogy

Orthologs

The orthologs of TMEM8B were sequenced in BLAST^[11] and 20 various orthologs were picked. The orthologs are all multicellular organisms, and vary through mammals, rodents, birds, fish, amphibians, echinoderms, chordates, insects, and cnidarians. Refer to the table below. Time tree was a program that was used to find the evolutionary branching shown in MYA,^[12] and conserved domains of the genome were found and analyzed using ClustalW.^[13]

Homo Sapiens	Humans	--	[https://www.ncbi.nlm.nih.gov/protein/EAW58325.1?report=fasta EAW58325.1]	338	--	--
Trichechus manatus latirostris	Florida manatee	105	[https://www.ncbi.nlm.nih.gov/protein/XP_004372337.1 XP_004372337.1]	273	96%	97%
Pelecanus Crispus	Dalmatian pelican	312	[https://www.ncbi.nlm.nih.gov/protein/XP_009481450.1 XP_009481450.1]	219	75%	86%
Struthio camelus australis	Southern ostrich	312	[https://www.ncbi.nlm.nih.gov/protein/XP_009675834.1 XP_009675834.1]	283	70%	81%
Egretta garzetta	Little egret	312	[https://www.ncbi.nlm.nih.gov/protein/XP_009645653.1 XP_009645653.1]	282	68%	79%
Charadrius vociferus	Kildeer	312	[https://www.ncbi.nlm.nih.gov/protein/699691812 XP_009889203.1]	420	63%	75%
Branchiostoma belcheri	Belcher's Lancelet	684	[https://www.ncbi.nlm.nih.gov/protein/1126223746 XP_019646192.1]	209	37%	54%
Diachasma alloeum	Common house spider	797	[https://www.ncbi.nlm.nih.gov/protein/970879581 XP_015126938.1]	252	29%	47%
Strongylocentrotus purpuratus	Purple sea urchin	684	[https://www.ncbi.nlm.nih.gov/protein/780029420 XP_011666469.1]	240	23%	38%
Exaiptasia pallida	Sea anemone	824	[https://www.ncbi.nlm.nih.gov/protein/XP_020898578.1 XP_020898578.1]	361	29%	28%
15. ^{{cite web \| work = Entrez Gene \| title = C9orf127 chromosome 9 open reading frame 127\| url = https://www.ncbi.nlm.nih.gov/sites/entrez?Db=gene&Cmd=ShowDetailView&TermToSearch=51754\| accessdate = }} 16. ^¹{{cite web\|title=Erythromelalgia - NORD (National Organization for Rare Disorders)\|url=https://rarediseases.org/rare-diseases/erythromelalgia/\|website=NORD (National Organization for Rare Disorders)\|accessdate=2 May 2018}} 17. ^{{cite journal\|last1=Ma\|first1=J.\|title=Role of a novel EGF-like domain-containing gene NGX6 in cell adhesion modulation in nasopharyngeal carcinoma cells\|url=https://academic.oup.com/carcin/article/26/2/281/2476047\|journal=Carcinogenesis\|volume=26\|issue=2\|pages=281–291\|language=en\|doi=10.1093/carcin/bgh312\|date=16 September 2004}} 18. ^{{cite journal\|last1=Lim\|first1=Janghoo\|last2=Hao\|first2=Tong\|last3=Shaw\|first3=Chad\|last4=Patel\|first4=Akash J.\|last5=Szabó\|first5=Gábor\|last6=Rual\|first6=Jean-François\|last7=Fisk\|first7=C. Joseph\|last8=Li\|first8=Ning\|last9=Smolyar\|first9=Alex\|last10=Hill\|first10=David E.\|last11=Barabási\|first11=Albert-László\|last12=Vidal\|first12=Marc\|last13=Zoghbi\|first13=Huda Y.\|title=A protein-protein interaction network for human inherited ataxias and disorders of Purkinje cell degeneration\|pmid=16713569\|journal=Cell\|volume=125\|issue=4\|pages=801–814\|doi=10.1016/j.cell.2006.03.032\|date=19 May 2006}} Further reading {{refbegin \| 2}} {{cite thesis \|last1=Matsuyama \|first1=Ayako \| name-list-format = vanc \| title = New insights into pain mechanisms through the study of genes associated with monogenic pain disorders \| type = PhD Thesis \| publisher = University College London \| year = 2017 \| url = http://discovery.ucl.ac.uk/10040307/ }} {{cite journal \| vauthors = Wang L, Ma J, Li J, Li X, Zhang Q, Peng S, Peng C, Zhou M, Xiong W, Yang J, Zhou J, Fan S, Tan C, Yan Q, Shen S, Li G \| title = NGX6 gene inhibits cell proliferation and plays a negative role in EGFR pathway in nasopharyngeal carcinoma cells \| journal = Journal of Cellular Biochemistry \| volume = 95 \| issue = 1 \| pages = 64–73 \| date = May 2005 \| pmid = 15723283 \| doi = 10.1002/jcb.20393 }} {{cite journal \| vauthors = Peng SP, Li XL, Wang L, Ou-Yang J, Ma J, Wang LL, Liu HY, Zhou M, Tang YL, Li WS, Luo XM, Cao L, Tang K, Shen SR, Li GY \| title = The role of NGX6 and its deletion mutants in the proliferation, adhesion and migration of nasopharyngeal carcinoma 5-8F cells \| journal = Oncology \| volume = 71 \| issue = 3–4 \| pages = 273–81 \| year = 2006 \| pmid = 17641538 \| doi = 10.1159/000106073 }} {{cite journal \| vauthors = Ma J, Zhou J, Fan S, Wang L, Li X, Yan Q, Zhou M, Liu H, Zhang Q, Zhou H, Gan K, Li Z, Peng C, Xiong W, Tan C, Shen S, Yang J, Li J, Li G \| title = Role of a novel EGF-like domain-containing gene NGX6 in cell adhesion modulation in nasopharyngeal carcinoma cells \| journal = Carcinogenesis \| volume = 26 \| issue = 2 \| pages = 281–91 \| date = February 2005 \| pmid = 15498789 \| doi = 10.1093/carcin/bgh312 }} {{cite journal \| vauthors = Ma J, Li J, Zhou J, Li XL, Tang K, Zhou M, Yang JB, Yan Q, Shen SR, Hu GX, Li GY \| title = Profiling genes differentially expressed in NGX6 overexpressed nasopharyngeal carcinoma cells by cDNA array \| journal = Journal of Cancer Research and Clinical Oncology \| volume = 128 \| issue = 12 \| pages = 683–90 \| date = December 2002 \| pmid = 12474055 \| doi = 10.1007/s00432-002-0387-5 }} {{cite journal \| vauthors = Li J, Tan C, Xiang Q, Zhang X, Ma J, Wang JR, Yang J, Li W, Shen SR, Liang S, Li G \| title = Proteomic detection of changes in protein synthesis induced by NGX6 transfected in human nasopharyngeal carcinoma cells \| journal = Journal of Protein Chemistry \| volume = 20 \| issue = 3 \| pages = 265–71 \| date = April 2001 \| pmid = 11565907 \| doi = 10.1023/A:1010912311564 }} {{cite journal \| vauthors = Yu W, Andersson B, Worley KC, Muzny DM, Ding Y, Liu W, Ricafrente JY, Wentland MA, Lennon G, Gibbs RA \| title = Large-scale concatenation cDNA sequencing \| journal = Genome Research \| volume = 7 \| issue = 4 \| pages = 353–8 \| date = April 1997 \| pmid = 9110174 \| pmc = 139146 \| doi = 10.1101/gr.7.4.353 }} {{refend}} External links {{UCSC gene info\|TMEM8B}} {{OMIM\|616888\|transmembrane protein 8B; TMEM8B}} ExPasy, Sibs bioinformatics analysis [https://www.ebi.ac.uk/Tools/psa/emboss_needle/ EMBOSS Needle Protein]
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