Tetraselmis chuii biomass as a potential feed additive to improve survival and oxidative stress status of Pacific white-leg shrimp Litopenaeus vannamei postlarvae

Rahman, Norazira Abdu; Khatoon, Helena; Yusuf, Norhayati; Banerjee, Sanjoy; Haris, Noor Azilah; Lananan, Fathurrahman; Katayama, Tomoyo

doi:10.1007/s40071-017-0173-2

Cited by 34 publications

(18 citation statements)

References 49 publications

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“…This protein fraction includes antioxidant enzymes, such as superoxide dismutase (SOD), catalase and glutathione peroxidase, that repair or prevent cellular damage caused by reactive oxygen species, [44] , [45] , [46] , [47] . Microalgae produce antioxidant molecules when exposed to nutrient-limiting conditions [35] and can improve survival and resistance to salinity stress of prey organisms such as the Pacific white-leg shrimp post-larvae [48] . A previously reported method for precipitation and concentration of low molecular weight proteins using organic solvents [34] was customized in the present study (see, method details section).…”

Section: Additional Informationmentioning

confidence: 99%

Extracting protein from microalgae (Tetraselmis chuii) for proteome analysis

Anjos

Estêvão

Infante³

et al. 2022

MethodsX

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Section: Additional Informationmentioning

confidence: 99%

Extracting protein from microalgae (Tetraselmis chuii) for proteome analysis

Anjos

Estêvão

Infante³

et al. 2022

MethodsX

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“…Zhang et al (2013) observed that the addition of astaxanthin to Pacific white shrimp diets could enhance shrimp growth and reduce free reactive oxygen species (ROS) which subsequently reduced antioxidant gene expression of superoxide dismutase (SOD) and catalase. In another study, using the green microalgae T. chuii as an additive feed for L. vannamei larvae could increase larval growth and antioxidant activity while reducing stress (Rahman et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Effects of dietary marine microalgae,Tetraselmis suecica, on production, gene expression, protein markers and bacterial count of Pacificwhite shrimp Litopenaeus vannamei

Sharawy

Ashour

Abbas

et al. 2020

Aquaculture Research

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The marine flagellated Chlorophyta Tetraselmis suecica is among the most important live food species in marine aquaculture. In the present study, the effects of dietary supplementation of dried marine microalgae, Tetraselmis suecica, on growth performance; feed utilization; chemical composition; gene expression of superoxide dismutase (SOD), glutathione peroxidase (GPx) and insulin-like growth factor 2 (IGF-II) gene of Pacific white shrimp, Litopenaeus vannamei; muscle protein polymorphism; and microbial count were assessed and evaluated. Three hundred and sixty L. vannamei (postlarvae) Pls (0.124 ± 0.002 g) were randomly stocked into 40-L glass aquaria (30 shrimp/aquarium) and fed three times daily four tested diets: a basal diet (control), diet incorporated with 2.5 g kg −1 dried T. suecica (T1), 5 g kg −1 dried T. suecica (T2) and 7.5 g kg −1 dried T. suecica (T3) in triplicates, for 90 days. At the end of the trial, the survival rate (SR) of L. vannamei fed diets supplemented with different levels of T. suecica was significantly (p < .05) higher than the control diet. The highest weight gain and specific growth rate and the best feed conversion ratio were recorded on L. vannamei fed a diet supplemented with a 7.5 g/kg dried T. suecica. The highest protein, lipid and ash contents were obtained in L. vannamei fed the diet containing 7.5 g/ kg T. suecica, when compared with the remaining tested diets. The gene expression of antioxidant genes SOD and GPx was the lowest in the T3 group in comparison with the control group. Meanwhile, expression level of IGF-II was higher in the T2 group.The total heterotrophic bacterial count was significantly (p < .05) increased with the cumulative T. suecica level, while no significant (p > .05) differences were found in the total Vibrio count among treatments. Overall, the present results have shown that the diet supplemented with the highest inclusion level of dried T. suecica resulted in improved growth and nutrient utilization.

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“…The microalgae (Schizochytrium sp., Chlorella vulgaris, Amphora coffeaformis, Schizochytrium limacinum, Acutodesmus obliquus, Nannochloropsis spp., Tetraselmis chuii and Botryococcus braunii) were mostly included in the animal feed as dry microalgae with a percentage of inclusion mainly going from 1-10% or as a molecule equivalent of given antioxidant compounds. The results are variable depending on species from no effect of the microalgae tested [120,123] to a decrease in oxidative stress measurements such as the malondialdehyde or hydrogen peroxide content [124][125][126][127][128][129] or a decrease in DNA damage [123]. In most cases, it seems that the inclusion of microalgae directly in the fed has a positive effect on the animal physiology, which is promising regarding further used of microalgae in the food industry either in human or animal nutrition as functional ingredients.…”

Section: Antioxidant Activity Of Microalgaementioning

confidence: 99%

Antioxidant Compounds from Microalgae: A Review

Coulombier¹,

2021

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The demand for natural products isolated from microalgae has increased over the last decade and has drawn the attention from the food, cosmetic and nutraceutical industries. Among these natural products, the demand for natural antioxidants as an alternative to synthetic antioxidants has increased. In addition, microalgae combine several advantages for the development of biotechnological applications: high biodiversity, photosynthetic yield, growth, productivity and a metabolic plasticity that can be orientated using culture conditions. Regarding the wide diversity of antioxidant compounds and mode of action combined with the diversity of reactive oxygen species (ROS), this review covers a brief presentation of antioxidant molecules with their role and mode of action, to summarize and evaluate common and recent assays used to assess antioxidant activity of microalgae. The aim is to improve our ability to choose the right assay to assess microalgae antioxidant activity regarding the antioxidant molecules studied.

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Tetraselmis chuii biomass as a potential feed additive to improve survival and oxidative stress status of Pacific white-leg shrimp Litopenaeus vannamei postlarvae

Cited by 34 publications

References 49 publications

Extracting protein from microalgae (Tetraselmis chuii) for proteome analysis

Extracting protein from microalgae (Tetraselmis chuii) for proteome analysis

Effects of dietary marine microalgae,Tetraselmis suecica, on production, gene expression, protein markers and bacterial count of Pacificwhite shrimp Litopenaeus vannamei

Antioxidant Compounds from Microalgae: A Review

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