Bioprocess Strategy of Haematococcus lacustris for Biomass and Astaxanthin Production Keys to Commercialization: Perspective and Future Direction

Oslan, Siti Nur Hazwani; Oslan, Siti Nurbaya; Mohamad, Rosfarizan; Tan, Joo Shun; Yusoff, Abdul Hafidz; Matanjun, Patricia; Mokhtar, Ruzaidi Azli Mohd; Shapawi, Rossita; Huda, Nurul

doi:10.3390/fermentation8040179

Cited by 15 publications

(3 citation statements)

References 66 publications

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“…Hence, upscaling the pigment production process from the ask to the fermentor scale is essential. The upscaling process reduces production costs by e ciently utilizing raw materials, energy and labour and ensures consistency in the pigments yield under an optimized controlled environment [5]. The culture media, pH, temperature, aeration, agitation, inoculum size and fermentation time are critical parameters to upscale pigment production [6].…”

Section: Introductionmentioning

confidence: 99%

Valorisation of prawn carapace waste by Exiguobacterium sp GM010 for pilot scale pigment production and its safety efficacy in Wistar rats

Mekalaa,

Peddha,

DHALE

2023

Preprint

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Purpose Utilisation of prawn carapace hydrolysate by Exiguobacterium sp GM010 for the growth and bioactive pigment production as fermentative substrate. To produce the pigment in pilot scale, the culture conditions were optimized and safety efficacy studies of the pigment were evaluated for commercial application in food and nutraceutical industries. Methods Exiguobacterium sp GM010 was grown in prawn carapace (biowaste) hydrolysate as fermentative substrate in a 10L medium using a 15L capacity fermentor. Based on our previous studies, fermentation parameters were set (pH 8.0, 30˚C, five days) by varying the aeration (0.5 to 3.0L min− 1). The pigment produced was quantitatively and qualitatively analysed in comparison with pigment produced in lab scale fermentation. Both acute (OECD 423) and sub-acute (OECD 427) toxicity studies were performed to determine its safety efficacy. Results The biomass and pigment extract yield were 28.76 ± 1.78 and 0.82 ± 0.04 g/L, respectively, at 1.5 L of aeration and higher than other aeration concentrations. The UV-visible spectrum of pigment extract revealed the absorption peak at 357, 466, and 491nm. The colour distribution of pigment was in the yellowish-orange region of the CIE Lab spectrum. Similar qualitative and quantitative pigment characteristics were observed in the fermentor and flask. The acute and sub-acute toxicity of the pigment extract confirmed no significant changes in feed intake, body weight (bw) gain and relative vital organ weight in Wistar rats. Similarly, no significant changes in biochemical and haematological parameters at 250, 500 and 1000 mg kg− 1 bw confirmed no sign of toxicity. Histopathological examination of all the vital organs was regular. Serum biochemistry results of the treated and control groups have shown insignificant changes. Conclusion Prawn carapace hydrolysate can be valorised on a pilot scale to produce Exiguobacterium sp GM010 pigment. Further, the pigments so produced were found to be non-toxic to Wistar rats, indicating its potential use as food additives and nutraceuticals.

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Section: Introductionmentioning

confidence: 99%

Valorisation of prawn carapace waste by Exiguobacterium sp GM010 for pilot scale pigment production and its safety efficacy in Wistar rats

Mekalaa,

Peddha,

DHALE

2023

Preprint

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“…Inorganic carbon sources directly affect microalgal growth as a result of the high concentration of CO 2 gas and pH control [17]. Astaxanthin production can be promoted by increasing the concentration of CO 2 ; ≤5% CO 2 favored the growth and astaxanthin accumulation of Haematococcus, whereas higher concentrations of CO 2 suppressed growth [18][19][20][21]. Astaxanthin assimilation can be enhanced by adding carbon sources such as acetate, ribose, and mannose to mixotrophic cultures.…”

Section: Introductionmentioning

confidence: 99%

Effects of Four Organic Carbon Sources on the Growth and Astaxanthin Accumulation of Haematococcus lacustris

Byeon,

An,

Kim

et al. 2023

Life

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The microalga Haematococcus lacustris has a complex life cycle and a slow growth rate, hampering its mass cultivation. Culture of microalgae with organic carbon sources can increase the growth rate. Few studies have evaluated the effects of organic carbon sources on H. lacustris. We compared the vegetative and inductive stages of H. lacustris under autotrophic and mixotrophic conditions using four organic carbon sources: sodium acetate, glycerol, sodium gluconate, and ribose, each at various concentrations (0.325, 0.65, 1.3, and 2.6 g/L). The cell density was increased by 1.3 g/L of glycerol in the vegetative stage. The rapid transition to the inductive stage under nitrogen-depletion conditions caused by 1.3 or 2.6 g/L sodium acetate promoted the accumulation of astaxanthin. The production of astaxanthin by H. lacustris in mass culture using organic carbon sources could increase profitability.

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“…H. lacustris is a single-celled freshwater biflagellate green alga of the class Chlorophyceae, order Volvocales, and family of Haematococcaseae [19] , [20] . Haematococcus lacustris (previously named Haematococcus pluvialis ) is regarded as the most hopeful microalgae for production of natural astaxanthin [21] . It is well acknowledged for its outstanding capability in synthesizing bioactive molecules with a wide range of biological activities, including like carotenoids, proteins, and fatty acids (FAs), in particular astaxanthin, a powerful antioxidant [22] .…”

Section: Introductionmentioning

confidence: 99%

Isolation of Haematococcus lacustris as source of novel anti-multi-antibiotic resistant microbes agents; fractionation and identification of bioactive compounds

Darwesh

Mahmoud

Abdo

et al. 2022

Biotechnology Reports

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Bioprocess Strategy of Haematococcus lacustris for Biomass and Astaxanthin Production Keys to Commercialization: Perspective and Future Direction

Cited by 15 publications

References 66 publications

Valorisation of prawn carapace waste by Exiguobacterium sp GM010 for pilot scale pigment production and its safety efficacy in Wistar rats

Valorisation of prawn carapace waste by Exiguobacterium sp GM010 for pilot scale pigment production and its safety efficacy in Wistar rats

Effects of Four Organic Carbon Sources on the Growth and Astaxanthin Accumulation of Haematococcus lacustris

Isolation of Haematococcus lacustris as source of novel anti-multi-antibiotic resistant microbes agents; fractionation and identification of bioactive compounds

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