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TEKTIP1
editTEKTIP1, also known as tektin-bundle interacting protein 1 is a protein that in humans is encoded by the TEKTIP1 gene.[1]
Gene
editTektin bundle interacting protein 1 (TEKTIP1) is a protein which in humans is encoded by the TEKTIP1 mRNA.[1] The longest mRNA produced is 826 bases long.[2]
Aliases
editAlias of the protein is C19orf71.[3] Locus
The TEKTIP1 gene is located at 19p13.3.[4]
Transcriptional Regulation
Several predicted transcription factors may bind in the promoter region: TFDP1, PLAGL1, ZSCAN4, POU2F3.[5][6][7][8][9][10][11]
Chemical Interactions
Acrylamide[12], cisplatin[13], and silicon dioxide[14] decrease expression, while butanal (butyraldehyde), and pentanal increase expression[15] of TEKTIP1 mRNA.
Sequence orthology also suggests that valproic acid increases methylation of TEKTIP1 mRNA.[16]
Protein
editThe mRNA of TEKTIP1 is 654 nucleotides long.[1][3] It contains five exons.[1] The human TEKTIP1 protein is 209 amino acids long and and has a predicted molecular mass of 24.5 kDa.[3] The human protein has a theoretical isoelectric point of 9.1.[17]
Isoforms
There are two splice isoforms of the protein, X1[18] and X2[19].
X1 | X2 |
---|---|
Tibetan macaque[20] | Chimpanzee[21] |
Olive baboon[22] | Olive baboon[23] |
Panamanian white-faced capuchin[24] | Common marmoset[25] |
Golden[26] and Black[27]
snub-nosed monkeys |
Golden sub-nosed monkey[28] |
Elk[29] | Elk[30] |
Red deer[31] | Red deer[32] |
Greater horseshoe bat[33] | Bats[34][35][36] |
Red fox[37] | Polar bear[38] |
Characteristics & structure
TEKTIP1 is highly enriched in tryptophan and tyrosine.[40] Additionally, the protein is semi-enriched in arginine and proline.[41]
Expression
editTEKTIP1 is tissue specific and is found in higher levels in the kidney, testis and thymus.[4]
In fetal development, it is found in higher levels in the Adrenal glands during weeks 16-20.[4]
TEKTIP1 protein is said to be specific to the testis and is found in early spermatids during spermatogenesis.[42]
Evolution
editOrthologs
editOver 240 organisms have orthologs with human gene TEKTIP1.[4] The most distant organism with an orthologous sequence to human TEKTIP1 is the West African lungfish (estimated date of divergence of 408 MYA).[44][45]
Genus and Species | Common Name | Taxonomic Group | Median Date of Divergence (MYA) | Accession # | Sequence length (aa) | Sequence Identity to Human Protein % | Sequence Similarity to Human Protein % |
---|---|---|---|---|---|---|---|
Homo sapein | Human | Primates/Hominidae | 0 | NP_001129052.1 | 209 | 100 | 100 |
Pan troglodyte | Chimpanzee | Primates | 6.4 | XP_003316050.1 | 209 | 98.1 | 98.6 |
Mus musculus | Mouse | Rodentia | 87 | NP_001014836.2 | 217 | 45.6 | 60.4 |
Bos taurus | Cow | Artiodactyla | 94 | NP_001070550 | 208 | 76.6 | 84.2 |
Panthera tigris | Tiger | Carnivora | 94 | XP_042833719.1 | 210 | 34.1 | 38.9 |
Orcinus orca | Killer whale | Cetacea | 94 | XP_012394771.2 | 216 | 63 | 73.1 |
Phascolarctos cinereus | Koala | Diprodontia | 160 | XP_020824948.1 | 211 | 52.9 | 67.4 |
Haliaeetus leucocephalus | Bald Eagle | Accipitiformes | 319 | XP_010580112.1 | 206 | 41.4 | 52 |
Dromaius novaehollandiae | Emu | Aves | 319 | XP_025961204.1 | 190 | 44.8 | 56.7 |
Gallus gallus domesticus | Chicken | Aves | 319 | XP_015155269.2 | 188 | 38.2 | 48.4 |
Crocodylus porosus | Saltwater Crocodile | Crocodilia | 319 | XP_019406144.1 | 210 | 54.3 | 68.3 |
Caretta caretta | Loggerhead Sea Turtle | Testudines | 319 | XP_048687032.1 | 216 | 47.8 | 57.3 |
Zootoca vivipara | Common lizard | Squamata | 319 | XP_034975173.1 | 200 | 48.8 | 59.5 |
Crotalus tigris | Tiger Rattlesnake | Squamata | 319 | XP_039190693.1 | 199 | 45.8 | 57.5 |
Protobothrops mucrosquamatus | Venomous Pit Viper | Squamata | 319 | XP_015665555.1 | 199 | 45.1 | 56.7 |
Bufo bufo | Common Toad | Salientia | 353 | XP_040276375 | 136 | 24.7 | 34.3 |
Geotrypetes seraphini | Gaboon Caecilian | Caecilians | 353 | XP_033813379.1 | 156 | 36.1 | 45.8 |
Microcaecilia unicolor | Tiny Caecilian | Caecilians | 353 | XP_030074922.1 | 142 | 34.3 | 42.6 |
Protopterus annectens | West African Lungfish | Actinopterygii | 408 | XP_043910031.1 | 142 | 28.6 | 39 |
- ^ a b c d "Homo sapiens tektin bundle interacting protein 1 (TEKTIP1), mRNA". 2022-08-14.
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(help) - ^ "PREDICTED: Homo sapiens tektin bundle interacting protein 1 (TEKTIP1), transcript variant X1, mRNA". 2022-04-05.
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(help) - ^ a b c "tektin bundle interacting protein 1 [Homo sapiens] - Protein - NCBI". www.ncbi.nlm.nih.gov. Retrieved 2022-10-20.
- ^ a b c d "TEKTIP1 tektin bundle interacting protein 1 [Homo sapiens (human)] - Gene - NCBI". www.ncbi.nlm.nih.gov. Retrieved 2022-12-14.
- ^ Zaragoza, Katrin; Bégay, Valérie; Schuetz, Anja; Heinemann, Udo; Leutz, Achim (2010-05). "Repression of transcriptional activity of C/EBPalpha by E2F-dimerization partner complexes". Molecular and Cellular Biology. 30 (9): 2293–2304. doi:10.1128/MCB.01619-09. ISSN 1098-5549. PMC 2863587. PMID 20176812.
{{cite journal}}
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(help) - ^ Wu, C. L.; Zukerberg, L. R.; Ngwu, C.; Harlow, E.; Lees, J. A. (1995-05). "In vivo association of E2F and DP family proteins". Molecular and Cellular Biology. 15 (5): 2536–2546. doi:10.1128/MCB.15.5.2536. ISSN 0270-7306. PMID 7739537.
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(help) - ^ Helin, K.; Wu, C. L.; Fattaey, A. R.; Lees, J. A.; Dynlacht, B. D.; Ngwu, C.; Harlow, E. (1993-10). "Heterodimerization of the transcription factors E2F-1 and DP-1 leads to cooperative trans-activation". Genes & Development. 7 (10): 1850–1861. doi:10.1101/gad.7.10.1850. ISSN 0890-9369. PMID 8405995.
{{cite journal}}
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(help) - ^ Zaragoza, Katrin; Bégay, Valérie; Schuetz, Anja; Heinemann, Udo; Leutz, Achim (2010-05). "Repression of transcriptional activity of C/EBPalpha by E2F-dimerization partner complexes". Molecular and Cellular Biology. 30 (9): 2293–2304. doi:10.1128/MCB.01619-09. ISSN 1098-5549. PMC 2863587. PMID 20176812.
{{cite journal}}
: Check date values in:|date=
(help) - ^ Wu, C. L.; Zukerberg, L. R.; Ngwu, C.; Harlow, E.; Lees, J. A. (1995-05). "In vivo association of E2F and DP family proteins". Molecular and Cellular Biology. 15 (5): 2536–2546. doi:10.1128/MCB.15.5.2536. ISSN 0270-7306. PMID 7739537.
{{cite journal}}
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(help) - ^ Hildesheim, J.; Foster, R. A.; Chamberlin, M. E.; Vogel, J. C. (1999-09-10). "Characterization of the regulatory domains of the human skn-1a/Epoc-1/Oct-11 POU transcription factor". The Journal of Biological Chemistry. 274 (37): 26399–26406. doi:10.1074/jbc.274.37.26399. ISSN 0021-9258. PMID 10473598.
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: CS1 maint: unflagged free DOI (link) - ^ Portney, Benjamin A.; Khatri, Raju; Meltzer, W. Alex; Mariano, Jennifer M.; Zalzman, Michal (2018-03-25). "ZSCAN4 is negatively regulated by the ubiquitin-proteasome system and the E3 ubiquitin ligase RNF20". Biochemical and Biophysical Research Communications. 498 (1): 72–78. doi:10.1016/j.bbrc.2018.02.155. ISSN 1090-2104. PMC 5928792. PMID 29477841.
- ^ Bu, Qian; Huang, Yan; Li, Meng; Dai, Yanping; Fang, Xin; Chen, Ke; Liu, Qian; Xue, Aiqin; Zhong, Kai; Huang, Yina; Gao, Hong; Cen, Xiaobo (2020-10). "Acrylamide exposure represses neuronal differentiation, induces cell apoptosis and promotes tau hyperphosphorylation in hESC-derived 3D cerebral organoids". Food and Chemical Toxicology: An International Journal Published for the British Industrial Biological Research Association. 144: 111643. doi:10.1016/j.fct.2020.111643. ISSN 1873-6351. PMID 32763439.
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(help) - ^ Lu, Jun; Chen, Jian; Xu, Nianjun; Wu, Jun; Kang, Yani; Shen, Tingting; Kong, Hualei; Ma, Chao; Cheng, Ming; Shao, Zhifeng; Xu, Ling; Zhao, Xiaodong (2016-09-06). "Activation of AIFM2 enhances apoptosis of human lung cancer cells undergoing toxicological stress". Toxicology Letters. 258: 227–236. doi:10.1016/j.toxlet.2016.07.002. ISSN 1879-3169. PMID 27392435.
- ^ Pisani, Cédric; Gaillard, Jean-Charles; Nouvel, Virginie; Odorico, Michaël; Armengaud, Jean; Prat, Odette (2015-04-18). "High-throughput, quantitative assessment of the effects of low-dose silica nanoparticles on lung cells: grasping complex toxicity with a great depth of field". BMC genomics. 16 (1): 315. doi:10.1186/s12864-015-1521-5. ISSN 1471-2164. PMC 4404697. PMID 25895662.
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: CS1 maint: unflagged free DOI (link) - ^ Song, Mi-Kyung; Lee, Hyo-Sun; Ryu, Jae-Chun (2015-08-06). "Integrated analysis of microRNA and mRNA expression profiles highlights aldehyde-induced inflammatory responses in cells relevant for lung toxicity". Toxicology. 334: 111–121. doi:10.1016/j.tox.2015.06.007. ISSN 1879-3185. PMID 26079696.
- ^ van Breda, Simone G. J.; Claessen, Sandra M. H.; van Herwijnen, Marcel; Theunissen, Daniël H. J.; Jennen, Danyel G. J.; de Kok, Theo M. C. M.; Kleinjans, Jos C. S. (2018-01-15). "Integrative omics data analyses of repeated dose toxicity of valproic acid in vitro reveal new mechanisms of steatosis induction". Toxicology. 393: 160–170. doi:10.1016/j.tox.2017.11.013. ISSN 1879-3185. PMID 29154799.
- ^ "Expasy - Compute pI/Mw tool". web.expasy.org. Retrieved 2022-12-14.
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- ^ "uncharacterized protein C19orf71 isoform X2 [Homo sapiens] - Protein - NCBI". www.ncbi.nlm.nih.gov. Retrieved 2022-10-20.
- ^ "tektin bundle interacting protein 1 isoform X1 [Macaca thibetana thibe - Protein - NCBI". www.ncbi.nlm.nih.gov. Retrieved 2022-10-20.
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