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Journal Abstract Search

145 related items for PubMed ID: 31127177

  • 41. The dynamic response to hypo-osmotic stress reveals distinct stages of freshwater acclimation by a euryhaline diatom.
    Downey KM, Judy KJ, Pinseel E, Alverson AJ, Lewis JA.
    Mol Ecol; 2023 Jun; 32(11):2766-2783. PubMed ID: 36151935
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  • 42. PtAUREO1a and PtAUREO1b knockout mutants of the diatom Phaeodactylum tricornutum are blocked in photoacclimation to blue light.
    Mann M, Serif M, Jakob T, Kroth PG, Wilhelm C.
    J Plant Physiol; 2017 Oct; 217():44-48. PubMed ID: 28610707
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  • 43. Transcriptional Response of Osmolyte Synthetic Pathways and Membrane Transporters in a Euryhaline Diatom During Long-term Acclimation to a Salinity Gradient.
    Nakov T, Judy KJ, Downey KM, Ruck EC, Alverson AJ.
    J Phycol; 2020 Dec; 56(6):1712-1728. PubMed ID: 32750159
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  • 44. Death-specific protein in a marine diatom regulates photosynthetic responses to iron and light availability.
    Thamatrakoln K, Bailleul B, Brown CM, Gorbunov MY, Kustka AB, Frada M, Joliot PA, Falkowski PG, Bidle KD.
    Proc Natl Acad Sci U S A; 2013 Dec 10; 110(50):20123-8. PubMed ID: 24277817
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  • 45. The evolution of diatoms and their biogeochemical functions.
    Benoiston AS, Ibarbalz FM, Bittner L, Guidi L, Jahn O, Dutkiewicz S, Bowler C.
    Philos Trans R Soc Lond B Biol Sci; 2017 Sep 05; 372(1728):. PubMed ID: 28717023
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  • 46. Molecular and photosynthetic responses to prolonged darkness and subsequent acclimation to re-illumination in the diatom Phaeodactylum tricornutum.
    Nymark M, Valle KC, Hancke K, Winge P, Andresen K, Johnsen G, Bones AM, Brembu T.
    PLoS One; 2013 Sep 05; 8(3):e58722. PubMed ID: 23520530
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  • 47. Physiological and molecular analysis of carbon source supplementation and pH stress-induced lipid accumulation in the marine diatom Phaeodactylum tricornutum.
    Mus F, Toussaint JP, Cooksey KE, Fields MW, Gerlach R, Peyton BM, Carlson RP.
    Appl Microbiol Biotechnol; 2013 Apr 05; 97(8):3625-42. PubMed ID: 23463245
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  • 48. Pan-transcriptomic analysis identifies coordinated and orthologous functional modules in the diatoms Thalassiosira pseudonana and Phaeodactylum tricornutum.
    Ashworth J, Turkarslan S, Harris M, Orellana MV, Baliga NS.
    Mar Genomics; 2016 Apr 05; 26():21-8. PubMed ID: 26560047
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  • 49. Long-term adaptation to elevated temperature but not CO2 alleviates the negative effects of ultraviolet-B radiation in a marine diatom.
    Jin P, Wan J, Dai X, Zhou Y, Huang J, Lin J, Lu Y, Liang S, Xiao M, Zhao J, Xu L, Li M, Peng B, Xia J.
    Mar Environ Res; 2023 Apr 05; 186():105929. PubMed ID: 36863076
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  • 50. Genome and low-iron response of an oceanic diatom adapted to chronic iron limitation.
    Lommer M, Specht M, Roy AS, Kraemer L, Andreson R, Gutowska MA, Wolf J, Bergner SV, Schilhabel MB, Klostermeier UC, Beiko RG, Rosenstiel P, Hippler M, LaRoche J.
    Genome Biol; 2012 Jul 26; 13(7):R66. PubMed ID: 22835381
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  • 51. Perception of environmental signals by a marine diatom.
    Falciatore A, d'Alcalà MR, Croot P, Bowler C.
    Science; 2000 Jun 30; 288(5475):2363-6. PubMed ID: 10875921
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  • 52. Acclimation and adaptation to elevated pCO2 increase arsenic resilience in marine diatoms.
    Xu D, Schaum CE, Li B, Chen Y, Tong S, Fu FX, Hutchins DA, Zhang X, Fan X, Han W, Wang Y, Ye N.
    ISME J; 2021 Jun 30; 15(6):1599-1613. PubMed ID: 33452476
    [Abstract] [Full Text] [Related]

  • 53. Changes in gene expression associated with acclimation to constant temperatures and fluctuating daily temperatures in an annual killifish Austrofundulus limnaeus.
    Podrabsky JE, Somero GN.
    J Exp Biol; 2004 Jun 30; 207(Pt 13):2237-54. PubMed ID: 15159429
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  • 54. Environmental fluctuations accelerate molecular evolution of thermal tolerance in a marine diatom.
    Schaum CE, Buckling A, Smirnoff N, Studholme DJ, Yvon-Durocher G.
    Nat Commun; 2018 Apr 30; 9(1):1719. PubMed ID: 29712900
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  • 55. Dynamics of short-term acclimation to UV radiation in marine diatoms.
    Fouqueray M, Mouget JL, Morant-Manceau A, Tremblin G.
    J Photochem Photobiol B; 2007 Nov 12; 89(1):1-8. PubMed ID: 17766142
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  • 56. Growth form defines physiological photoprotective capacity in intertidal benthic diatoms.
    Barnett A, Méléder V, Blommaert L, Lepetit B, Gaudin P, Vyverman W, Sabbe K, Dupuy C, Lavaud J.
    ISME J; 2015 Jan 12; 9(1):32-45. PubMed ID: 25003964
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  • 57. Recent progresses on the genetic basis of the regulation of CO2 acquisition systems in response to CO2 concentration.
    Matsuda Y, Nakajima K, Tachibana M.
    Photosynth Res; 2011 Sep 12; 109(1-3):191-203. PubMed ID: 21287273
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  • 58. Differential effects of changes in spectral irradiance on photoacclimation, primary productivity and growth in Rhodomonas salina (Cryptophyceae) and Skeletonema costatum (Bacillariophyceae) in simulated blackwater environments.
    Lawrenz E, Richardson TL.
    J Phycol; 2017 Dec 12; 53(6):1241-1254. PubMed ID: 28815594
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  • 59. Grazing-induced changes in cell wall silicification in a marine diatom.
    Pondaven P, Gallinari M, Chollet S, Bucciarelli E, Sarthou G, Schultes S, Jean F.
    Protist; 2007 Jan 12; 158(1):21-8. PubMed ID: 17081802
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  • 60. Multisignal control of expression of the LHCX protein family in the marine diatom Phaeodactylum tricornutum.
    Taddei L, Stella GR, Rogato A, Bailleul B, Fortunato AE, Annunziata R, Sanges R, Thaler M, Lepetit B, Lavaud J, Jaubert M, Finazzi G, Bouly JP, Falciatore A.
    J Exp Bot; 2016 Jun 12; 67(13):3939-51. PubMed ID: 27225826
    [Abstract] [Full Text] [Related]

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