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MC1000 8通道藻类培养与在线监测系统部分参考文献名录

MC1000 8通道藻类培养与在线监测系统部分参考文献名录

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26.     Jouhet J, et al. 2017. LC-MS/MS versus TLC plus GC methods: Consistency of glycerolipid and fatty acid profiles in microalgae and higher plant cells and effect of a nitrogen starvation. PLOS ONE 13(10): e0206397

27.     Miazek K, et al. 2017. Effect of enzymatic beech fagus sylvatica wood hydrolysate on Chlorella biomass, fatty acid and pigment production. Applied Sciences 7(9): 871

28.     VidalMeireles A, et al. 2017. Regulation of ascorbate biosynthesis in green algae has evolved to enable rapid stressinduced response via the VTC2 gene encoding GDPlgalactose phosphorylase. New Phytologist 214: 668–681

29.     Rademacher N, et al. 2017. Transcriptional response of the extremophile red alga Cyanidioschyzon merolae to changes in CO2 concentrations. Journal of Plant Physiology 217: 49-56

30.     Bernardi A, et al. 2017. Semi-empirical modeling of microalgae photosynthesis in different acclimation states–Application to N. gaditana. Journal of Biotechnology 259: 63-72

31.     Mitchell MC, et al. 2017. Pyrenoid loss impairs carbon-concentrating mechanism induction and alters primary metabolism in Chlamydomonas reinhardtii. Journal of Experimental Botany, 68(14): 3891–3902

32.     Nelson DR, et al. 2017. The genome and phenome of the green alga Chloroidium sp. UTEX 3007 reveal adaptive traits for desert acclimatization. eLife 6: e25783.

33.     Gandini C, et al. 2017. The transporter SynPAM71 is located in the plasma membrane and thylakoids, and mediates manganese tolerance in Synechocystis PCC6803. New Phytologist 215: 256–268

34.     Glemser J, et al. 2016. Application of light-emitting diodes (LEDs) in cultivation of phototrophic microalgae: current state and perspectives. Applied Microbiology and Biotechnology 100(3): 1077-1088

35.     Gérin S, et al. 2016. New Features on the Environmental Regulation of Metabolism Revealed by Modeling the Cellular Proteomic Adaptations Induced by Light, Carbon, and Inorganic Nitrogen in Chlamydomonas reinhardtii. Front. Plant Sci. 7:1158

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38.     Alboresi A, et al. 2016. Light remodels lipid biosynthesis in Nannochloropsis gaditana by modulating carbon partitioning between organelles. Plant Physiology 171: 2468–2482

39.     Zuliani L, et al. 2016. Microalgae cultivation on anaerobic digestate of municipal wastewater, sewage sludge and agro-waste. International Journal of Molecular Sciences 17(10): 1692

40.     Zhu Y, et al. 2016. A novel redoxin in the thylakoid membrane regulates the titer of photosystem I. The Journal of Biological Chemistry 291: 18689-18699.

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44.     Varshney P, et al. 2016. Effect of high CO2 concentrations on the growth and macromolecular composition of a heat- and high-light-tolerant microalga. Journal of Applied Phycology 28(5): 2631–2640

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47.     Yu J, et al. 2015. Synechococcus elongatus UTEX 2973, a fast growing cyanobacterial chassis for biosynthesis using light and CO2. Scientific Reports 5:8132, DOI: 10.1038/srep08132

48.     Grama B S, et al. 2015. Balancing photosynthesis and respiration increases microalgal biomass productivity during photoheterotrophy on glycerol. ACS Sustainable Chem. Eng. DOI: 10.1021/acssuschemeng.5b01544

49.     Davis R W, et al. 2015. Growth of mono- and mixed cultures of Nannochloropsis salina and Phaeodactylum tricornutum on struvite as a nutrient source. Bioresource Technology 198, 577-585

50.     Patzelt D J, et al. 2015. Hydrothermal gasification of Acutodesmus obliquus for renewable energy production and nutrient recycling of microalgal mass cultures. Journal of Applied Phycology, 27(6), 2239-2250

51.     Patzelt D J, et al. 2015. Microalgal growth and fatty acid productivity on recovered nutrients from hydrothermal gasification of Acutodesmus obliquus. Algal Research 10, 164-171

52.     Flowers J M, et al. 2015. Whole-Genome Resequencing Reveals Extensive Natural Variation in the Model Green Alga Chlamydomonas reinhardti. The Plant Cell 27(9), 2353-2369

53.     Makower A K, et al. 2015. Transcriptomics-aided dissection of the intracellular and extracellular roles of microcystin in Microcystis aeruginosa PCC 7806. Appl. Environ. Microbiol. 81(2), 544-554

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58.     Hasan R, et al. 2014. Bioremediation of Swine Wastewater and Biofuel Potential by using Chlorella vulgaris, Chlamydomonas reinhardtii, and Chlamydomonas debaryana. J Pet Environ Biotechnol 5:175. doi: 10.4172/2157-7463.1000175

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60.     Zhang B, et al. 2014. Characterization of a Native Algae Species Chlamydomonas debaryana: Strain Selection, Bioremediation Ability, and Lipid Characterization. BioResources 9(4), 6130-6140

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