A novel potential source of β-carotene: Eustigmatos cf. polyphem (Eustigmatophyceae) and pilot β-carotene production in bubble column and flat panel photobioreactors

► Carotenoids profile of Eustigmatos cf. polyphem was first analyzed by HPLC. ► The microalga was first reported to accumulate large amount of β-carotene and biomass. ► Effects of light intensity and N on β-carotene and biomass accumulation were studied. ► Production of β-carotene in bubble column a...

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Published in	Bioresource technology Vol. 117; pp. 257 - 263
Main Authors	Li, Zhen, Ma, Xiaoqin, Li, Aifen, Zhang, Chengwu
Format	Journal Article
Language	English
Published	England Elsevier Ltd 01.08.2012
Subjects	analysis beta Carotene beta Carotene - biosynthesis Biomass bioreactors biosynthesis bubbles carotenoids Cell Culture Techniques Cell Culture Techniques - instrumentation Cell Culture Techniques - methods Chlorophyll Chlorophyll - analysis Chromatography, High Pressure Liquid Eustigmatophyceae Eustigmatos cf. polyphem instrumentation Intracellular Space Intracellular Space - metabolism Intracellular Space - radiation effects Light light intensity metabolism methods Microalgae Microalgae - metabolism Microalgae - radiation effects microbiology nitrates Nitrogen Photobioreactor Photobioreactors Photobioreactors - microbiology Pilot Projects radiation effects Stramenopiles Stramenopiles - metabolism Stramenopiles - radiation effects β-carotene β-carotene Microalgae Nitrogen Eustigmatos cf. polyphem Photobioreactor
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Abstract	► Carotenoids profile of Eustigmatos cf. polyphem was first analyzed by HPLC. ► The microalga was first reported to accumulate large amount of β-carotene and biomass. ► Effects of light intensity and N on β-carotene and biomass accumulation were studied. ► Production of β-carotene in bubble column and large flat panel bioreactors was assessed. Carotenoids profile of the unicellular Eustigmatos cf. polyphem (Eustigmatophyceae) and β-carotene production of the microalga in bubble column and large flat panel bioreactors were studied. The microalga which contained β-carotene, violaxanthin and vaucheriaxanthin as the major carotenoids accumulated large amount of β-carotene. The β-carotene production of this microalga in the bubble column bioreactor was considerable, with the maximum intracellular β-carotene content reaching 60.76mgg−1, biomass reaching 9.2gL−1, and β-carotene yield up to 470.2mgL−1. The β-carotene productions in two large flat panel bioreactors were relatively lower, whereas over 100mg β-carotene L−1 was achieved. Besides, high light intensity helped to accumulate intracellular β-carotene and biomass. Deficient nitrate supply inhibited biomass growth, though it helped to accumulate β-carotene. Our results first proved that E. cf. polyphem was a potential source and producer of β-carotene, making it an interesting subject for further β-carotene study or commercial exploration.
AbstractList	Carotenoids profile of the unicellular Eustigmatos cf. polyphem (Eustigmatophyceae) and β-carotene production of the microalga in bubble column and large flat panel bioreactors were studied. The microalga which contained β-carotene, violaxanthin and vaucheriaxanthin as the major carotenoids accumulated large amount of β-carotene. The β-carotene production of this microalga in the bubble column bioreactor was considerable, with the maximum intracellular β-carotene content reaching 60.76mgg⁻¹, biomass reaching 9.2gL⁻¹, and β-carotene yield up to 470.2mgL⁻¹. The β-carotene productions in two large flat panel bioreactors were relatively lower, whereas over 100mg β-carotene L⁻¹ was achieved. Besides, high light intensity helped to accumulate intracellular β-carotene and biomass. Deficient nitrate supply inhibited biomass growth, though it helped to accumulate β-carotene. Our results first proved that E. cf. polyphem was a potential source and producer of β-carotene, making it an interesting subject for further β-carotene study or commercial exploration. ► Carotenoids profile of Eustigmatos cf. polyphem was first analyzed by HPLC. ► The microalga was first reported to accumulate large amount of β-carotene and biomass. ► Effects of light intensity and N on β-carotene and biomass accumulation were studied. ► Production of β-carotene in bubble column and large flat panel bioreactors was assessed. Carotenoids profile of the unicellular Eustigmatos cf. polyphem (Eustigmatophyceae) and β-carotene production of the microalga in bubble column and large flat panel bioreactors were studied. The microalga which contained β-carotene, violaxanthin and vaucheriaxanthin as the major carotenoids accumulated large amount of β-carotene. The β-carotene production of this microalga in the bubble column bioreactor was considerable, with the maximum intracellular β-carotene content reaching 60.76mgg−1, biomass reaching 9.2gL−1, and β-carotene yield up to 470.2mgL−1. The β-carotene productions in two large flat panel bioreactors were relatively lower, whereas over 100mg β-carotene L−1 was achieved. Besides, high light intensity helped to accumulate intracellular β-carotene and biomass. Deficient nitrate supply inhibited biomass growth, though it helped to accumulate β-carotene. Our results first proved that E. cf. polyphem was a potential source and producer of β-carotene, making it an interesting subject for further β-carotene study or commercial exploration. Carotenoids profile of the unicellular Eustigmatos cf. polyphem (Eustigmatophyceae) and β-carotene production of the microalga in bubble column and large flat panel bioreactors were studied. The microalga which contained β-carotene, violaxanthin and vaucheriaxanthin as the major carotenoids accumulated large amount of β-carotene. The β-carotene production of this microalga in the bubble column bioreactor was considerable, with the maximum intracellular β-carotene content reaching 60.76 mg g(-1), biomass reaching 9.2 g L(-1), and β-carotene yield up to 470.2 mg L(-1). The β-carotene productions in two large flat panel bioreactors were relatively lower, whereas over 100 mg β-carotene L(-1) was achieved. Besides, high light intensity helped to accumulate intracellular β-carotene and biomass. Deficient nitrate supply inhibited biomass growth, though it helped to accumulate β-carotene. Our results first proved that E. cf. polyphem was a potential source and producer of β-carotene, making it an interesting subject for further β-carotene study or commercial exploration. Carotenoids profile of the unicellular Eustigmatos cf. polyphem (Eustigmatophyceae) and β-carotene production of the microalga in bubble column and large flat panel bioreactors were studied. The microalga which contained β-carotene, violaxanthin and vaucheriaxanthin as the major carotenoids accumulated large amount of β-carotene. The β-carotene production of this microalga in the bubble column bioreactor was considerable, with the maximum intracellular β-carotene content reaching 60.76 mg g(-1), biomass reaching 9.2 g L(-1), and β-carotene yield up to 470.2 mg L(-1). The β-carotene productions in two large flat panel bioreactors were relatively lower, whereas over 100 mg β-carotene L(-1) was achieved. Besides, high light intensity helped to accumulate intracellular β-carotene and biomass. Deficient nitrate supply inhibited biomass growth, though it helped to accumulate β-carotene. Our results first proved that E. cf. polyphem was a potential source and producer of β-carotene, making it an interesting subject for further β-carotene study or commercial exploration.Carotenoids profile of the unicellular Eustigmatos cf. polyphem (Eustigmatophyceae) and β-carotene production of the microalga in bubble column and large flat panel bioreactors were studied. The microalga which contained β-carotene, violaxanthin and vaucheriaxanthin as the major carotenoids accumulated large amount of β-carotene. The β-carotene production of this microalga in the bubble column bioreactor was considerable, with the maximum intracellular β-carotene content reaching 60.76 mg g(-1), biomass reaching 9.2 g L(-1), and β-carotene yield up to 470.2 mg L(-1). The β-carotene productions in two large flat panel bioreactors were relatively lower, whereas over 100 mg β-carotene L(-1) was achieved. Besides, high light intensity helped to accumulate intracellular β-carotene and biomass. Deficient nitrate supply inhibited biomass growth, though it helped to accumulate β-carotene. Our results first proved that E. cf. polyphem was a potential source and producer of β-carotene, making it an interesting subject for further β-carotene study or commercial exploration.
Author	Li, Aifen Li, Zhen Ma, Xiaoqin Zhang, Chengwu
Author_xml	– sequence: 1 givenname: Zhen surname: Li fullname: Li, Zhen – sequence: 2 givenname: Xiaoqin surname: Ma fullname: Ma, Xiaoqin – sequence: 3 givenname: Aifen surname: Li fullname: Li, Aifen email: tiger@jnu.edu.cn – sequence: 4 givenname: Chengwu surname: Zhang fullname: Zhang, Chengwu email: tzhangcw@jnu.edu.cn
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Keywords	β-carotene Microalgae Nitrogen Eustigmatos cf. polyphem Photobioreactor
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Snippet	► Carotenoids profile of Eustigmatos cf. polyphem was first analyzed by HPLC. ► The microalga was first reported to accumulate large amount of β-carotene and... Carotenoids profile of the unicellular Eustigmatos cf. polyphem (Eustigmatophyceae) and β-carotene production of the microalga in bubble column and large flat...
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SubjectTerms	analysis beta Carotene beta Carotene - biosynthesis Biomass bioreactors biosynthesis bubbles carotenoids Cell Culture Techniques Cell Culture Techniques - instrumentation Cell Culture Techniques - methods Chlorophyll Chlorophyll - analysis Chromatography, High Pressure Liquid Eustigmatophyceae Eustigmatos cf. polyphem instrumentation Intracellular Space Intracellular Space - metabolism Intracellular Space - radiation effects Light light intensity metabolism methods Microalgae Microalgae - metabolism Microalgae - radiation effects microbiology nitrates Nitrogen Photobioreactor Photobioreactors Photobioreactors - microbiology Pilot Projects radiation effects Stramenopiles Stramenopiles - metabolism Stramenopiles - radiation effects β-carotene
Title	A novel potential source of β-carotene: Eustigmatos cf. polyphem (Eustigmatophyceae) and pilot β-carotene production in bubble column and flat panel photobioreactors
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