| Literature DB >> 28486198 |
Jun Cheng1, Hongxiang Lu2, Xin He2, Weijuan Yang2, Junhu Zhou2, Kefa Cen2.
Abstract
Spirulina sp. was mutated by γ-rays from 60Co nuclear irradiation to improve growth and CO2 fixation rate under 15vol.% CO2 (in flue gas from a power plant). Mutants with enhanced growth phenotype were obtained, with the best strain exhibiting 310% increment in biomass yield on day 4. The mutant was then domesticated with elevated CO2 concentration, and the biomass yield increased by 500% after domestication under 15vol.% CO2, with stable inheritance. Ultrastructure of Spirulina sp. shows that the fractal dimension of Spirulina cells decreased by 23% after mutation. Pore size in the cell wall of Spirulina mutant increased by 33% after 15vol.% CO2 domestication. This characteristic facilitated the direct penetration of CO2 into cells, thus improving CO2 biofixation rate.Entities:
Keywords: CO(2) fixation; Domestication; Microalgae; Nuclear irradiation; Ultrastructure
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Year: 2017 PMID: 28486198 DOI: 10.1016/j.biortech.2017.04.107
Source DB: PubMed Journal: Bioresour Technol ISSN: 0960-8524 Impact factor: 9.642