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Journal Abstract Search

294 related items for PubMed ID: 23581177

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  • 4. Adaptive genetic changes related to haemoglobin concentration in native high-altitude Tibetans.
    Simonson TS, Huff CD, Witherspoon DJ, Prchal JT, Jorde LB.
    Exp Physiol; 2015 Nov; 100(11):1263-8. PubMed ID: 26454145
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  • 6. Tibetans living at sea level have a hyporesponsive hypoxia-inducible factor system and blunted physiological responses to hypoxia.
    Petousi N, Croft QP, Cavalleri GL, Cheng HY, Formenti F, Ishida K, Lunn D, McCormack M, Shianna KV, Talbot NP, Ratcliffe PJ, Robbins PA.
    J Appl Physiol (1985); 2014 Apr 01; 116(7):893-904. PubMed ID: 24030663
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  • 9. HMOX2 Functions as a Modifier Gene for High-Altitude Adaptation in Tibetans.
    Yang D, Peng Y, Ouzhuluobu, Bianbazhuoma, Cui C, Bianba, Wang L, Xiang K, He Y, Zhang H, Zhang X, Liu J, Shi H, Pan Y, Duojizhuoma, Dejiquzong, Cirenyangji, Baimakangzhuo, Gonggalanzi, Liu S, Gengdeng, Wu T, Chen H, Qi X, Su B.
    Hum Mutat; 2016 Feb 01; 37(2):216-23. PubMed ID: 26781569
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  • 10. Genetic and immune changes in Tibetan high-altitude populations contribute to biological adaptation to hypoxia.
    Bai J, Li L, Li Y, Zhang L.
    Environ Health Prev Med; 2022 Feb 01; 27():39. PubMed ID: 36244759
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  • 11. How Placenta Promotes the Successful Reproduction in High-Altitude Populations: A Transcriptome Comparison between Adaptation and Acclimatization.
    Wu D, Liu Y, Chen W, Shao J, Zhuoma P, Zhao D, Yu Y, Liu T, Yu R, Gan Y, Yuzheng B, Huang Y, Zhang H, Bi X, Tao C, Lai S, Luo Q, Zhang D, Wang H, Zhaxi P, Zhang J, Qiao J, Zeng C.
    Mol Biol Evol; 2022 Jun 02; 39(6):. PubMed ID: 35642306
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  • 12. Genetic variants in EPAS1 contribute to adaptation to high-altitude hypoxia in Sherpas.
    Hanaoka M, Droma Y, Basnyat B, Ito M, Kobayashi N, Katsuyama Y, Kubo K, Ota M.
    PLoS One; 2012 Jun 02; 7(12):e50566. PubMed ID: 23227185
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  • 15. Natural selection on EPAS1 (HIF2alpha) associated with low hemoglobin concentration in Tibetan highlanders.
    Beall CM, Cavalleri GL, Deng L, Elston RC, Gao Y, Knight J, Li C, Li JC, Liang Y, McCormack M, Montgomery HE, Pan H, Robbins PA, Shianna KV, Tam SC, Tsering N, Veeramah KR, Wang W, Wangdui P, Weale ME, Xu Y, Xu Z, Yang L, Zaman MJ, Zeng C, Zhang L, Zhang X, Zhaxi P, Zheng YT.
    Proc Natl Acad Sci U S A; 2010 Jun 22; 107(25):11459-64. PubMed ID: 20534544
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  • 19. Identification of a Tibetan-specific mutation in the hypoxic gene EGLN1 and its contribution to high-altitude adaptation.
    Xiang K, Ouzhuluobu, Peng Y, Yang Z, Zhang X, Cui C, Zhang H, Li M, Zhang Y, Bianba, Gonggalanzi, Basang, Ciwangsangbu, Wu T, Chen H, Shi H, Qi X, Su B.
    Mol Biol Evol; 2013 Aug 22; 30(8):1889-98. PubMed ID: 23666208
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  • 20. Two functional loci in the promoter of EPAS1 gene involved in high-altitude adaptation of Tibetans.
    Xu XH, Huang XW, Qun L, Li YN, Wang Y, Liu C, Ma Y, Liu QM, Sun K, Qian F, Jin L, Wang J.
    Sci Rep; 2014 Dec 12; 4():7465. PubMed ID: 25501874
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