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The production of sustainable biochemicals has been a major topic of discussion in recent years. Using microbial cells for their production through genetic engineering has been a major topic of research. Cyanobacteria have been considered as a viable candidate for such production. However, the slow growth rate of the cells

The production of sustainable biochemicals has been a major topic of discussion in recent years. Using microbial cells for their production through genetic engineering has been a major topic of research. Cyanobacteria have been considered as a viable candidate for such production. However, the slow growth rate of the cells presents a challenge for the possibility of scaling for use in industrial settings. This project focuses on two different solutions for this problem. The first is using four different engineered strains of Synechocystis sp. PCC 6803 that overexpress the proteins in the b6f complex to improve photosynthetic efficiency. It was found that the strains PetB and PetD showed an increase in growth rate compared to wild type cells. This was especially true under mixotrophic conditions and with a light intensity of 100 µmol photons*m-2s-1 for 3 days. The second solution is by using a newly discovered marine strain of cyanobacteria, Synechococcus sp. PCC 11901, which has a higher reported growth rate. Higher growth rates were achieved for this strain when it was grown mixotrophically with glycerol, and when grown in bubble cultures with aeration.

ContributorsWinsor, Kira Varga (Author) / Varman, Arul Mohzy (Thesis director) / Vermaas, Wim (Committee member) / School of International Letters and Cultures (Contributor) / Chemical Engineering Program (Contributor, Contributor) / Barrett, The Honors College (Contributor)
Created2021-05