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382 related items for PubMed ID: 30641214

  • 21. A new model for fish ion regulation: identification of ionocytes in freshwater- and seawater-acclimated medaka (Oryzias latipes).
    Hsu HH, Lin LY, Tseng YC, Horng JL, Hwang PP.
    Cell Tissue Res; 2014 Jul; 357(1):225-43. PubMed ID: 24842048
    [Abstract] [Full Text] [Related]

  • 22. Acclimation of brackish water pearl spot (Etroplus suratensis) to various salinities: relative changes in abundance of branchial Na(+)/K (+)-ATPase and Na (+)/K (+)/2Cl (-) co-transporter in relation to osmoregulatory parameters.
    Chandrasekar S, Nich T, Tripathi G, Sahu NP, Pal AK, Dasgupta S.
    Fish Physiol Biochem; 2014 Jun; 40(3):983-96. PubMed ID: 24482094
    [Abstract] [Full Text] [Related]

  • 23. Interactive effect of high environmental ammonia and nutritional status on ecophysiological performance of European sea bass (Dicentrarchus labrax) acclimated to reduced seawater salinities.
    Sinha AK, Rasoloniriana R, Dasan AF, Pipralia N, Blust R, De Boeck G.
    Aquat Toxicol; 2015 Mar; 160():39-56. PubMed ID: 25625520
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  • 24. Branchial osmoregulation in the euryhaline bull shark, Carcharhinus leucas: a molecular analysis of ion transporters.
    Reilly BD, Cramp RL, Wilson JM, Campbell HA, Franklin CE.
    J Exp Biol; 2011 Sep 01; 214(Pt 17):2883-95. PubMed ID: 21832131
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  • 25. A transcriptomic approach of salinity response in the euryhaline teleost, Dicentrarchus labrax.
    Boutet I, Long Ky CL, Bonhomme F.
    Gene; 2006 Sep 01; 379():40-50. PubMed ID: 16737785
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  • 26. Physiological responses of European sea bass (Dicentrarchus labrax) exposed to increased carbon dioxide and reduced seawater salinities.
    Caneos WG, Shrivastava J, Ndugwa M, De Boeck G.
    Mol Biol Rep; 2024 Apr 08; 51(1):496. PubMed ID: 38587695
    [Abstract] [Full Text] [Related]

  • 27. Branchial ionocyte organization and ion-transport protein expression in juvenile alewives acclimated to freshwater or seawater.
    Christensen AK, Hiroi J, Schultz ET, McCormick SD.
    J Exp Biol; 2012 Feb 15; 215(Pt 4):642-52. PubMed ID: 22279071
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  • 28. Evidence for an apical Na-Cl cotransporter involved in ion uptake in a teleost fish.
    Hiroi J, Yasumasu S, McCormick SD, Hwang PP, Kaneko T.
    J Exp Biol; 2008 Aug 15; 211(Pt 16):2584-99. PubMed ID: 18689412
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  • 29. Hypo-osmotic stress-induced physiological and ion-osmoregulatory responses in European sea bass (Dicentrarchus labrax) are modulated differentially by nutritional status.
    Sinha AK, Dasan AF, Rasoloniriana R, Pipralia N, Blust R, De Boeck G.
    Comp Biochem Physiol A Mol Integr Physiol; 2015 Mar 15; 181():87-99. PubMed ID: 25483239
    [Abstract] [Full Text] [Related]

  • 30. Osmoregulation and expression of ion transport proteins and putative claudins in the gill of southern flounder (Paralichthys lethostigma).
    Tipsmark CK, Luckenbach JA, Madsen SS, Kiilerich P, Borski RJ.
    Comp Biochem Physiol A Mol Integr Physiol; 2008 Jul 15; 150(3):265-73. PubMed ID: 18467139
    [Abstract] [Full Text] [Related]

  • 31. Does Japanese medaka (Oryzias latipes) exhibit a gill Na(+)/K(+)-ATPase isoform switch during salinity change?
    Bollinger RJ, Madsen SS, Bossus MC, Tipsmark CK.
    J Comp Physiol B; 2016 May 15; 186(4):485-501. PubMed ID: 26920794
    [Abstract] [Full Text] [Related]

  • 32. Adaptation of the sea-bass (Dicentrarchus labrax) to fresh water: role of aquaporins and Na+/K+-ATPases.
    Giffard-Mena I, Lorin-Nebel C, Charmantier G, Castille R, Boulo V.
    Comp Biochem Physiol A Mol Integr Physiol; 2008 Jul 15; 150(3):332-8. PubMed ID: 18485772
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  • 33. Immunohistochemical characterization and change in location of branchial ionocytes after transfer from freshwater to seawater in the euryhaline obscure puffer, Takifugu obscurus.
    Ding T, Shi Y, Duan W, Hu S, Zhao Z.
    J Comp Physiol B; 2020 Sep 15; 190(5):585-596. PubMed ID: 32715333
    [Abstract] [Full Text] [Related]

  • 34. Molecular Physiological Evidence for the Role of Na+-Cl- Co-Transporter in Branchial Na+ Uptake in Freshwater Teleosts.
    Shih SW, Yan JJ, Lu SW, Chuang YT, Lin HW, Chou MY, Hwang PP.
    Int J Mol Sci; 2023 Apr 01; 24(7):. PubMed ID: 37047570
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  • 35. Modulation of ion transporter expression in gill mitochondrion-rich cells of eels acclimated to low-Na(+) or-Cl(-) freshwater.
    Tse WK, Chow SC, Lai KP, Au DW, Wong CK.
    J Exp Zool A Ecol Genet Physiol; 2011 Aug 01; 315(7):385-93. PubMed ID: 21455947
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  • 36. Differential effects of cortisol and 11-deoxycorticosterone on ion transport protein mRNA levels in gills of two euryhaline teleosts, Mozambique tilapia (Oreochromis mossambicus) and striped bass (Morone saxatilis).
    Kiilerich P, Tipsmark CK, Borski RJ, Madsen SS.
    J Endocrinol; 2011 Apr 01; 209(1):115-26. PubMed ID: 21282254
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  • 37. Osmoregulatory response to low salinities in the European sea bass embryos: a multi-site approach.
    Sucré E, Bossus M, Bodinier C, Boulo V, Charmantier G, Charmantier-Daures M, Cucchi P.
    J Comp Physiol B; 2013 Jan 01; 183(1):83-97. PubMed ID: 22752053
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  • 38. Microtubule-dependent changes in morphology and localization of chloride transport proteins in gill mitochondria-rich cells of the tilapia, Oreochromis mossambicus.
    Yang WK, Wu YC, Tang CH, Lee TH.
    J Morphol; 2016 Aug 01; 277(8):1113-22. PubMed ID: 27239784
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  • 39. Transient receptor potential vanilloid 4 in the European sea bass Dicentrarchus labrax: a candidate protein for osmosensing.
    Bossus M, Charmantier G, Lorin-Nebel C.
    Comp Biochem Physiol A Mol Integr Physiol; 2011 Sep 01; 160(1):43-51. PubMed ID: 21575738
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  • 40. Gene expression after freshwater transfer in gills and opercular epithelia of killifish: insight into divergent mechanisms of ion transport.
    Scott GR, Claiborne JB, Edwards SL, Schulte PM, Wood CM.
    J Exp Biol; 2005 Jul 01; 208(Pt 14):2719-29. PubMed ID: 16000541
    [Abstract] [Full Text] [Related]

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