Priti Azad • UCSD Profiles (original) (raw)

  1. Integrated multiomics reveals inflammation-driven excessive erythrocytosis in subjects with Monge's disease. bioRxiv. 2025 Oct 21. Azad P, Caldwell AB, Villafuerte FC, Banihani S, Zhou D, Subramaniam S, Haddad GG. PMID: 41278713; PMCID: PMC12633210.
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  2. Long noncoding RNA HIKER regulates erythropoiesis in Monge's disease via CSNK2B. J Clin Invest. 2023 06 01; 133(11). Azad P, Zhou D, Tu HC, Villafuerte FC, Traver D, Rana TM, Haddad GG. PMID: 37022795; PMCID: PMC10231995.
    View in: PubMed Mentions: 7 Fields:
    Translation:HumansAnimals
  3. ARID1B, a molecular suppressor of erythropoiesis, is essential for the prevention of Monge's disease. Exp Mol Med. 2022 06; 54(6):777-787. Azad P, Caldwell AB, Ramachandran S, Spann NJ, Akbari A, Villafuerte FC, Bermudez D, Zhao H, Poulsen O, Zhou D, Bafna V, Subramaniam S, Haddad GG. PMID: 35672450; PMCID: PMC9256584.
    View in: PubMed Mentions: 10 Fields:
    Translation:HumansCells
  4. SLC22 Transporters in the Fly Renal System Regulate Response to Oxidative Stress In Vivo. Int J Mol Sci. 2021 Dec 14; 22(24). Zhang P, Azad P, Engelhart DC, Haddad GG, Nigam SK. PMID: 34948211; PMCID: PMC8706193.
    View in: PubMed Mentions: 8 Fields:
    Translation:HumansAnimalsCells
  5. Protective role of estrogen against excessive erythrocytosis in Monge's disease. Exp Mol Med. 2021 01; 53(1):125-135. Azad P, Villafuerte FC, Bermudez D, Patel G, Haddad GG. PMID: 33473144; PMCID: PMC8080600.
    View in: PubMed Mentions: 32 Fields:
    Translation:HumansCells
  6. Drosophila SLC22 Orthologs Related to OATs, OCTs, and OCTNs Regulate Development and Responsiveness to Oxidative Stress. Int J Mol Sci. 2020 Mar 15; 21(6). Engelhart DC, Azad P, Ali S, Granados JC, Haddad GG, Nigam SK. PMID: 32183456; PMCID: PMC7139749.
    View in: PubMed Mentions: 15 Fields:
    Translation:AnimalsCells
  7. Increased hypoxic proliferative response and gene expression in erythroid progenitor cells of Andean highlanders with chronic mountain sickness. Am J Physiol Regul Integr Comp Physiol. 2020 01 01; 318(1):R49-R56. Bermudez D, Azad P, Figueroa-Mujíca R, Vizcardo-Galindo G, Corante N, Guerra-Giraldez C, Haddad GG, Villafuerte FC. PMID: 31617751; PMCID: PMC6985794.
    View in: PubMed Mentions: 13 Fields:
    Translation:HumansCells
  8. High fat diet induces sex-specific differential gene expression in Drosophila melanogaster. PLoS One. 2019; 14(3):e0213474. Stobdan T, Sahoo D, Azad P, Hartley I, Heinrichsen E, Zhou D, Haddad GG. PMID: 30861021; PMCID: PMC6413938.
    View in: PubMed Mentions: 18 Fields:
    Translation:HumansAnimals
  9. New Insights into the Genetic Basis of Monge's Disease and Adaptation to High-Altitude. Mol Biol Evol. 2017 Dec 01; 34(12):3154-3168. Stobdan T, Akbari A, Azad P, Zhou D, Poulsen O, Appenzeller O, Gonzales GF, Telenti A, Wong EHM, Saini S, Kirkness EF, Venter JC, Bafna V, Haddad GG. PMID: 29029226; PMCID: PMC5850797.
    View in: PubMed Mentions: 24 Fields:
    Translation:HumansAnimals
  10. High-altitude adaptation in humans: from genomics to integrative physiology. J Mol Med (Berl). 2017 Dec; 95(12):1269-1282. Azad P, Stobdan T, Zhou D, Hartley I, Akbari A, Bafna V, Haddad GG. PMID: 28951950; PMCID: PMC8936998.
    View in: PubMed Mentions: 62 Fields:
    Translation:Humans
  11. Senp1 drives hypoxia-induced polycythemia via GATA1 and Bcl-xL in subjects with Monge's disease. J Exp Med. 2016 11 14; 213(12):2729-2744. Azad P, Zhao HW, Cabrales PJ, Ronen R, Zhou D, Poulsen O, Appenzeller O, Hsiao YH, Bafna V, Haddad GG. PMID: 27821551; PMCID: PMC5110013.
    View in: PubMed Mentions: 25 Fields:
    Translation:HumansCells
  12. The Na+/HCO3- co-transporter is protective during ischemia in astrocytes. Neuroscience. 2016 Dec 17; 339:329-337. Yao H, Azad P, Zhao HW, Wang J, Poulsen O, Freitas BC, Muotri AR, Haddad GG. PMID: 27717805; PMCID: PMC5118130.
    View in: PubMed Mentions: 20 Fields:
    Translation:HumansCells
  13. Wnt pathway activation increases hypoxia tolerance during development. PLoS One. 2014; 9(8):e103292. Gersten M, Zhou D, Azad P, Haddad GG, Subramaniam S. PMID: 25093834; PMCID: PMC4122365.
    View in: PubMed Mentions: 6 Fields:
    Translation:AnimalsCells
  14. Genetic animal models of preconditioning. Transl Stroke Res. 2013 Feb; 4(1):51-5. Azad P, Haddad GG. PMID: 23565128; PMCID: PMC3614364.
    View in: PubMed Mentions: 3 Fields:
    Translation:Animals
  15. Identification of genes underlying hypoxia tolerance in Drosophila by a P-element screen. G3 (Bethesda). 2012 Oct; 2(10):1169-78. Azad P, Zhou D, Zarndt R, Haddad GG. PMID: 23050227; PMCID: PMC3464109.
    View in: PubMed Mentions: 18 Fields:
    Translation:AnimalsCells
  16. Distinct role of Hsp70 in Drosophila hemocytes during severe hypoxia. Free Radic Biol Med. 2011 Jul 15; 51(2):530-8. Azad P, Ryu J, Haddad GG. PMID: 21616137; PMCID: PMC3138732.
    View in: PubMed Mentions: 22 Fields:
    Translation:AnimalsCells
  17. Adaptation of Drosophila melanogaster to increased NaCl concentration due to dominant beneficial mutations. Genetica. 2011 Feb; 139(2):177-86. Zhang M, Azad P, Woodruff RC. PMID: 21128095.
    View in: PubMed Mentions: 5 Fields:
    Translation:AnimalsCells
  18. Rapid increase in viability due to new beneficial mutations in Drosophila melanogaster. Genetica. 2010 Feb; 138(2):251-63. Azad P, Zhang M, Woodruff RC. PMID: 19882309.
    View in: PubMed Mentions: 3 Fields:
    Translation:AnimalsCells
  19. Survival in acute and severe low o environment: use of a genetic model system. Ann N Y Acad Sci. 2009 Oct; 1177:39-47. Azad P, Haddad GG. PMID: 19845605.
    View in: PubMed Mentions: 5 Fields:
    Translation:HumansAnimals
  20. Distinct mechanisms underlying tolerance to intermittent and constant hypoxia in Drosophila melanogaster. PLoS One. 2009; 4(4):e5371. Azad P, Zhou D, Russo E, Haddad GG. PMID: 19401761; PMCID: PMC2670512.
    View in: PubMed Mentions: 38 Fields:
    Translation:AnimalsCells
  21. Mutation and cloning efficiency. Cloning Stem Cells. 2006; 8(4):237-9. Azad P, Woodruff RC. PMID: 17196088.
    View in: PubMed Mentions: 1 Fields:
    Translation:AnimalsCells

This graph shows the number and percent of publications by field. Fields are based on how the National Library of Medicine (NLM) classifies the publications' journals and might not represent the specific topics of the publications. Note that an individual publication can be assigned to more than one field. As a result, the publication counts in this graph might add up to more than the number of publications the person has written. To see the data as text, click here.

This graph shows the number and percent of publications by field. Fields are based on how the National Library of Medicine (NLM) classifies the publications' journals and might not represent the specific topics of the publications. Note that an individual publication can be assigned to more than one field. As a result, the publication counts in this graph might add up to more than the number of publications the person has written. To see the data as text, click here.

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