Готові списки джерел за темами / Genetically engineered cyanobacteria

Добірка наукової літератури з теми "Genetically engineered cyanobacteria"

Автор: Grafiati
Опубліковано: 10 грудня 2022
Оновлено: 28 січня 2023

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Статті в журналах з теми "Genetically engineered cyanobacteria"

1

OSANAI, Takashi. "Hydrogen Production Using Genetically Engineered Cyanobacteria." Hyomen Kagaku 36, no. 2 (2015): 86–90. http://dx.doi.org/10.1380/jsssj.36.86.

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2

Govindasamy, Rajakumar, Ekambaram Gayathiri, Sathish Sankar, Baskar Venkidasamy, Palanisamy Prakash, Kaliaperumal Rekha, Varsha Savaner, Abirami Pari, Natesan Thirumalaivasan, and Muthu Thiruvengadam. "Emerging Trends of Nanotechnology and Genetic Engineering in Cyanobacteria to Optimize Production for Future Applications." Life 12, no. 12 (December 2, 2022): 2013. http://dx.doi.org/10.3390/life12122013.

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Анотація:
Nanotechnology has the potential to revolutionize various fields of research and development. Multiple nanoparticles employed in a nanotechnology process are the magic elixir that provides unique features that are not present in the component’s natural form. In the framework of contemporary research, it is inappropriate to synthesize microparticles employing procedures that include noxious elements. For this reason, scientists are investigating safer ways to produce genetically improved Cyanobacteria, which has many novel features and acts as a potential candidate for nanoparticle synthesis. In recent decades, cyanobacteria have garnered significant interest due to their prospective nanotechnological uses. This review will outline the applications of genetically engineered cyanobacteria in the field of nanotechnology and discuss its challenges and future potential. The evolution of cyanobacterial strains by genetic engineering is subsequently outlined. Furthermore, the recombination approaches that may be used to increase the industrial potential of cyanobacteria are discussed. This review provides an overview of the research undertaken to increase the commercial avenues of cyanobacteria and attempts to explain prospective topics for future research.
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3

Abalde-Cela, Sara, Anna Gould, Xin Liu, Elena Kazamia, Alison G. Smith, and Chris Abell. "High-throughput detection of ethanol-producing cyanobacteria in a microdroplet platform." Journal of The Royal Society Interface 12, no. 106 (May 2015): 20150216. http://dx.doi.org/10.1098/rsif.2015.0216.

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Ethanol production by microorganisms is an important renewable energy source. Most processes involve fermentation of sugars from plant feedstock, but there is increasing interest in direct ethanol production by photosynthetic organisms. To facilitate this, a high-throughput screening technique for the detection of ethanol is required. Here, a method for the quantitative detection of ethanol in a microdroplet-based platform is described that can be used for screening cyanobacterial strains to identify those with the highest ethanol productivity levels. The detection of ethanol by enzymatic assay was optimized both in bulk and in microdroplets. In parallel, the encapsulation of engineered ethanol-producing cyanobacteria in microdroplets and their growth dynamics in microdroplet reservoirs were demonstrated. The combination of modular microdroplet operations including droplet generation for cyanobacteria encapsulation, droplet re-injection and pico-injection, and laser-induced fluorescence, were used to create this new platform to screen genetically engineered strains of cyanobacteria with different levels of ethanol production.
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4

Sekar, Narendran, Rachit Jain, Yajun Yan, and Ramaraja P. Ramasamy. "Enhanced photo-bioelectrochemical energy conversion by genetically engineered cyanobacteria." Biotechnology and Bioengineering 113, no. 3 (September 18, 2015): 675–79. http://dx.doi.org/10.1002/bit.25829.

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5

Gao, Zhengxu, Hui Zhao, Zhimin Li, Xiaoming Tan, and Xuefeng Lu. "Correction: Photosynthetic production of ethanol from carbon dioxide in genetically engineered cyanobacteria." Energy & Environmental Science 9, no. 3 (2016): 1113. http://dx.doi.org/10.1039/c5ee90067k.

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6

Sekar, N., and R. P. Ramasamy. "Genetically Engineered Cyanobacteria Enhances Photocurrent Generation in Photo-bioelectrochemical Cell." ECS Transactions 69, no. 34 (December 28, 2015): 1–8. http://dx.doi.org/10.1149/06934.0001ecst.

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7

Wang, Yu, Fei Tao, Jun Ni, Chao Li, and Ping Xu. "Production of C3 platform chemicals from CO2 by genetically engineered cyanobacteria." Green Chemistry 17, no. 5 (2015): 3100–3110. http://dx.doi.org/10.1039/c5gc00129c.

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8

Gao, Zhengxu, Hui Zhao, Zhimin Li, Xiaoming Tan, and Xuefeng Lu. "Photosynthetic production of ethanol from carbon dioxide in genetically engineered cyanobacteria." Energy Environ. Sci. 5, no. 12 (2012): 9857–65. http://dx.doi.org/10.1039/c2ee22675h.

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9

Mohandass, ShylajaNaciyar, Mangalalakshmi Ragavan, Dineshbabu Gnanasekaran, Uma Lakshmanan, Prabaharan Dharmar, and Sushanta Kumar Saha. "Overexpression of Cu/Zn Superoxide Dismutase (Cu/Zn SOD) in Synechococcus elongatus PCC 7942 for Enhanced Azo Dye Removal through Hydrogen Peroxide Accumulation." Biology 10, no. 12 (December 10, 2021): 1313. http://dx.doi.org/10.3390/biology10121313.

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Анотація:
Discharge of recalcitrant azo dyes to the environment poses a serious threat to environmental health. However certain microorganisms in nature have developed their survival strategies by degrading these toxic dyes. Cyanobacteria are one such prokaryotic, photosynthetic group of microorganisms that degrade various xenobiotic compounds, due to their capability to produce various reactive oxygen species (ROS), and particularly the hydrogen peroxide (H2O2) when released in their milieu. The accumulation of H2O2 is the result of the dismutation of superoxide radicals by the enzyme superoxide dismutase (SOD). In this study, we have genetically modified the cyanobacterium Synechococcus elongatus PCC 7942 by integrating Cu/Zn SOD gene (sodC) from Synechococcus sp. PCC 9311 to its neutral site through homologous recombination. The overexpression of sodC in the derivative strain was driven using a strong constitutive promoter of the psbA gene. The derivative strain resulted in constitutive production of sodC, which was induced further during dye-treated growth. The genetically engineered Synechococcus elongatus PCC 7942 (MS-sodC+) over-accumulated H2O2 during azo dye treatment with a higher dye removal rate than the wild-type strain (WS-sodC−). Therefore, enhanced H2O2 accumulation through SODs overexpression in cyanobacteria may serve as a valuable bioremediation tool.
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10

Tan, Xiaoming, Wei Du, and Xuefeng Lu. "Photosynthetic and extracellular production of glucosylglycerol by genetically engineered and gel-encapsulated cyanobacteria." Applied Microbiology and Biotechnology 99, no. 5 (December 13, 2014): 2147–54. http://dx.doi.org/10.1007/s00253-014-6273-7.

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Більше джерел

Частини книг з теми "Genetically engineered cyanobacteria"

1

Katayama, Noriaki, Hiroko Iijima, and Takashi Osanai. "Production of Bioplastic Compounds by Genetically Manipulated and Metabolic Engineered Cyanobacteria." In Synthetic Biology of Cyanobacteria, 155–69. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-0854-3_7.

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De Andrade, F. P., M. L. F. De Sá Filho, R. R. L. Araújo, T. R. M. Ribeiro, A. E. Silva, and C. E. De Farias Silva. "Photosynthetic Production of Ethanol Using Genetically Engineered Cyanobacteria." In Biofuel and Biorefinery Technologies, 99–113. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-53933-7_6.

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Pakrasi, Himadri B., John G. K. Williams, and Charles J. Arntzen. "Genetically Engineered Cytochrome B559 Mutants of the Cyanobacterium, Synechocystis 6803." In Progress in Photosynthesis Research, 813–16. Dordrecht: Springer Netherlands, 1987. http://dx.doi.org/10.1007/978-94-017-0519-6_171.

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4

Hayashi, H., I. Nishida, O. Ishizaki-Nishizawa, Y. Nishiyama, and N. Murata. "Genetically Engineered Modification of Plant Chilling Sensitivity and Characterization of Cyanobacterial Heat Shock Proteins." In Biochemical and Cellular Mechanisms of Stress Tolerance in Plants, 543–55. Berlin, Heidelberg: Springer Berlin Heidelberg, 1994. http://dx.doi.org/10.1007/978-3-642-79133-8_33.

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Vermaas, W. F. J., M. Ikeuchi, and Y. Inoue. "Protein composition of the photosystem II core complex in genetically engineered mutants of the cyanobacterium Synechocystis sp. PCC 6803." In Molecular Biology of Photosynthesis, 389–405. Dordrecht: Springer Netherlands, 1988. http://dx.doi.org/10.1007/978-94-009-2269-3_18.

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6

Frigaard, Niels-Ulrik. "Sugar and Sugar Alcohol Production in Genetically Modified Cyanobacteria." In Genetically Engineered Foods, 31–47. Elsevier, 2018. http://dx.doi.org/10.1016/b978-0-12-811519-0.00002-9.

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7

Miyasaka, H., H. Nakano, H. Akiyama, S. Kanai, and M. Hirano. "Production of PHA (poly hydroxyalkanoate) by genetically engineered marine cyanobacterium." In Studies in Surface Science and Catalysis, 237–42. Elsevier, 1998. http://dx.doi.org/10.1016/s0167-2991(98)80750-7.

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