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Journal Abstract Search

152 related items for PubMed ID: 34907539

  • 21. Diversity of CO2-concentrating mechanisms and responses to CO2 concentration in marine and freshwater diatoms.
    Clement R, Jensen E, Prioretti L, Maberly SC, Gontero B.
    J Exp Bot; 2017 Jun 01; 68(14):3925-3935. PubMed ID: 28369472
    [Abstract] [Full Text] [Related]

  • 22. Enzyme activity highlights the importance of the oxidative pentose phosphate pathway in lipid accumulation and growth of Phaeodactylum tricornutum under CO2 concentration.
    Wu S, Huang A, Zhang B, Huan L, Zhao P, Lin A, Wang G.
    Biotechnol Biofuels; 2015 Jun 01; 8():78. PubMed ID: 26052345
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  • 23. Elevated CO2 improves both lipid accumulation and growth rate in the glucose-6-phosphate dehydrogenase engineered Phaeodactylum tricornutum.
    Wu S, Gu W, Huang A, Li Y, Kumar M, Lim PE, Huan L, Gao S, Wang G.
    Microb Cell Fact; 2019 Sep 23; 18(1):161. PubMed ID: 31547820
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  • 24. Molecular aspects of the biophysical CO2-concentrating mechanism and its regulation in marine diatoms.
    Tsuji Y, Nakajima K, Matsuda Y.
    J Exp Bot; 2017 Jun 01; 68(14):3763-3772. PubMed ID: 28633304
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  • 25. Effect of ocean acidification on iron availability to marine phytoplankton.
    Shi D, Xu Y, Hopkinson BM, Morel FM.
    Science; 2010 Feb 05; 327(5966):676-9. PubMed ID: 20075213
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  • 26. Pyrenoid-core CO2-evolving machinery is essential for diatom photosynthesis in elevated CO2.
    Shimakawa G, Okuyama A, Harada H, Nakagaito S, Toyoshima Y, Nagata K, Matsuda Y.
    Plant Physiol; 2023 Nov 22; 193(4):2298-2305. PubMed ID: 37625790
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  • 27. Carbon concentrating mechanisms in eukaryotic marine phytoplankton.
    Reinfelder JR.
    Ann Rev Mar Sci; 2011 Nov 22; 3():291-315. PubMed ID: 21329207
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  • 28. Abrupt and acclimation responses to changing temperature elicit divergent physiological effects in the diatom Phaeodactylum tricornutum.
    Rehder L, Rost B, Rokitta SD.
    New Phytol; 2023 Aug 22; 239(3):1005-1013. PubMed ID: 37247339
    [Abstract] [Full Text] [Related]

  • 29. Examination of metabolic responses to phosphorus limitation via proteomic analyses in the marine diatom Phaeodactylum tricornutum.
    Feng TY, Yang ZK, Zheng JW, Xie Y, Li DW, Murugan SB, Yang WD, Liu JS, Li HY.
    Sci Rep; 2015 May 28; 5():10373. PubMed ID: 26020491
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  • 31. Interacting Effects of Light and Iron Availability on the Coupling of Photosynthetic Electron Transport and CO2-Assimilation in Marine Phytoplankton.
    Schuback N, Schallenberg C, Duckham C, Maldonado MT, Tortell PD.
    PLoS One; 2015 May 28; 10(7):e0133235. PubMed ID: 26171963
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  • 32. Effects of increasing atmospheric CO2 on the marine phytoplankton and bacterial metabolism during a bloom: A coastal mesocosm study.
    Huang Y, Liu X, Laws EA, Chen B, Li Y, Xie Y, Wu Y, Gao K, Huang B.
    Sci Total Environ; 2018 Aug 15; 633():618-629. PubMed ID: 29597159
    [Abstract] [Full Text] [Related]

  • 33. Community composition has greater impact on the functioning of marine phytoplankton communities than ocean acidification.
    Eggers SL, Lewandowska AM, Barcelos E Ramos J, Blanco-Ameijeiras S, Gallo F, Matthiessen B.
    Glob Chang Biol; 2014 Mar 15; 20(3):713-23. PubMed ID: 24115206
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  • 35. The role of the C4 pathway in carbon accumulation and fixation in a marine diatom.
    Reinfelder JR, Milligan AJ, Morel FM.
    Plant Physiol; 2004 Aug 15; 135(4):2106-11. PubMed ID: 15286292
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  • 40. Molecular adaptations to phosphorus deprivation and comparison with nitrogen deprivation responses in the diatom Phaeodactylum tricornutum.
    Alipanah L, Winge P, Rohloff J, Najafi J, Brembu T, Bones AM.
    PLoS One; 2018 Aug 15; 13(2):e0193335. PubMed ID: 29474408
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