Enhancement of c-phycocyanin production by varying carbon and nitrogen source and concentration and modeling of growth of C. aponinum AL20115

C-phycocyanin (CPC) is a valuable compound due to its applications in the pharmacological, cosmetics, and food industries. Because of large expenses in the industrial CPC production due to cyanobacteria culturing, extraction, and purification, it is pertinent to examine the capability of novel cyano...

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Bibliographic Details
Main Author: Chan, Cary Albert D.
Format: text
Language:English
Published: Animo Repository 2023
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Online Access:https://animorepository.dlsu.edu.ph/etdm_chemeng/16
https://animorepository.dlsu.edu.ph/context/etdm_chemeng/article/1016/viewcontent/Enhancement_of_c_phycocyanin_production_by_varying_carbon_and_nit_Redacted.pdf
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Institution: De La Salle University
Language: English
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Summary:C-phycocyanin (CPC) is a valuable compound due to its applications in the pharmacological, cosmetics, and food industries. Because of large expenses in the industrial CPC production due to cyanobacteria culturing, extraction, and purification, it is pertinent to examine the capability of novel cyanobacterial strains, such as C. aponinum AL20115, to produce CPC and to model and optimize its cyanobacterial growth and CPC production, consequently minimizing the cost from culturing. Cultivation of the strain in BG-11 medium was accomplished using a double-layer system with varying carbonate and bicarbonate solutions and a photobioreactor with varying CO2-air mixtures and NH4Cl concentrations. Cyanobacterial growth was then monitored for six days, and CPC was extracted for analysis. From the experimental results, the addition of CO2 and bicarbonate generally increased biomass growth and CPC production. A higher nitrogen concentration increased CPC production but illustrated toxic effects on cyanobacterial growth, while a lower nitrogen concentration caused earlier nitrogen starvation and decrease in CPC. Characterization of the antioxidant activity of the crude extract showed 55.79% DPPH, 26.17% hydroxyl, and 16.49% superoxide radicals scavenged. Moreover, the bacterial inhibition zones in E. coli MG1655 were measured to be 1.03 cm and 1.60 cm in diameter for a 30 μL and 60 μL drop of the crude extract, respectively. Modelling of biomass growth suggested that the Monod equation best described the growth and CPC production of C. aponinum AL20115 by comparing the least value of the norm of residuals of all models. Based on the results of the cultivation, the characterization of its antioxidant and antibacterial activities, and the modelling and estimation of kinetic parameters, C. aponinum AL20115 may potentially be a feasible alternative feedstock for CPC production. It is recommended that future research be done to further corroborate the results of the study and provide more insight regarding the viability of the novel strain to produce CPC.