生物技术生产虾青素研究的最新进展

虾青素是一种具有极强的生物抗氧化性的酮式类胡萝卜素在医药,食品,化妆品等方面有着极广阔的应用前景。对目前生物技术生产虾青素的两种主要方法：即雨生红球藻(haematococcus pluvialis)培养法和红发夫酵母(xanthopltyllomyces dendrorhous,formedy Phaffia raodazyma)发酵法的最新研究进展,包括采用的微生物的生理代谢特性、虾青素合成途径、生产技术特点、工程菌种的构建等方面进行了系统的总结。针对天然虾青素生产技术研究中存在的问题和不足,提出了建议和解决的方法。     

法夫酵母虾青素合成途径相关基因的研究进展

法夫酵母能合成一种具有很高商业价值的类胡萝卜素——虾青素。它广泛应用于饲料、保健品、医药、化妆品等行业。探索法夫酵母中虾青素合成途径及其调控机理对天然虾青素资源的开发具有重要的意义。虽然许多学者通过各种方法对该途径进行了一系列的研究, 但其机理目前尚未完全阐明。本文综述了法夫酵母虾青素合成途径以及合成途径中相关基因的研究进展, 并对基于基因调控的产量提高策略进行了讨论, 为利用基因工程技术进行定向育种提供了思路。     

Application of resonance raman microscopy to in vivo carotenoid

The high antioxidant activity of astaxanthin has been attracted considerable attention in these days. One of the major antioxidant activities of this carotenoid is anti-photoaging. We have been focusing our attention on this particular issue. The anti-photoaging activity should be functioning in inner skin. In this study we tried to find out the fact that astaxanthin that has been swabbed on the outer surface of the skin has really passed through and reached to the inner skin. For this purpose resonance Raman microscopy was applied to the rat skin sample on which astaxanthin was swabbed on its outer surface. Astaxanthin gives rise to a unique Raman spectrum that is characteristic of its molecular structure. Therefore, we can easily identify the presence or absence of astaxanthin in the area of the rat skin that is subjected to this spectroscopic measurement. We used 532 nm laser light for probing the resonance Raman scattering of astaxanthin. Astaxanthin shows three strong Raman lines at 1508, 1145, and 993 cm(-1). These three lines are ascribable to the C=C stretching, C-C stretching, and C-CH(3) in-plane rocking vibrational modes, respectively. We have constructed confocal Raman microscope that has the spatial resolution of ca. 500 nm. Three-dimensional mapping of the Raman spectrum of astaxanthin has been performed in order to determine its distribution in the rat skin.     

Metabolic engineering of the astaxanthin-biosynthetic pathway of Xanthophyllomyces dendrorhous

This review describes the different approaches that have been used to manipulate and improve carotenoid production in Xanthophyllomyces dendrorhous. The red yeast X. dendrorhous (formerly known as Phaffia rhodozyma) is one of the microbiological production systems for natural astaxanthin. Astaxanthin is applied in food and feed industry and can be used as a nutraceutical because of its strong antioxidant properties. However, the production levels of astaxanthin in wild-type isolates are rather low. To increase the astaxanthin content in X. dendrorhous, cultivation protocols have been optimized and astaxanthin-hyperproducing mutants have been obtained by screening of classically mutagenized X. dendrorhous strains. The knowledge about the regulation of carotenogenesis in X. dendrorhous is still limited in comparison to that in other carotenogenic fungi. The X. dendrorhous carotenogenic genes have been cloned and a X. dendrorhous transformation system has been developed. These tools allowed the directed genetic modification of the astaxanthin pathway in X. dendrorhous. The crtYB gene, encoding the bifunctional enzyme phytoene synthase/lycopene cyclase, was inactivated by insertion of a vector by single and double cross-over events, indicating that it is possible to generate specific carotenoid-biosynthetic mutants. Additionally, overexpression of crtYB resulted in the accumulation of beta-carotene and echinone, which indicates that the oxygenation reactions are rate-limiting in these recombinant strains. Furthermore, overexpression of the phytoene desaturase-encoding gene (crtI) showed an increase in monocyclic carotenoids such as torulene and HDCO (3-hydroxy-3',4'-didehydro-beta,-psi-carotene-4-one) and a decrease in bicyclic carotenoids such as echinone, beta-carotene and astaxanthin.     

烷化剂NTG诱变虾青素产生菌红法夫酵母的研究

虾青素是一种很有效的生物抗氧化剂和某些生物的天然着色剂,应用前景广阔。红法夫酵母是 生产虾青素的一个来源,优点颇多。天然菌株虾青素产量较少,缺少实用价值。实验采用烷化剂ＮＴＧ 诱变红法夫酵母,筛选出类胡萝卜素产量高的诱变株。用薄层层析对红法夫酵母产生的色素及其皂 化产物进行分析,并对各个成分的扫描光谱进行了比较。认为红法夫酵母产生的类胡萝卜素成分主 要是虾青素及虾青素二酯,还有一部分β－胡萝卜素。同时,还对虾青素产生的时相和ＢＨＴ对虾青素 光分解的保护作用进行了初步研究。     

Cis astaxanthin and especially 9-cis astaxanthin exhibits a higher antioxidant activity in vitro compared to the all-trans isomer

In recent years, a number of studies have implicated the potent antioxidant property of astaxanthin in various experimental systems; however, these studies employed only the all-trans isomer. On the other hand, it has been reported that all-trans natural astaxanthin is readily isomerized to cis-trans, especially 9-cis and 13-cis isomers, under certain conditions by chemical analysis; however, the biological activities of the cis isomers of astaxanthin are little known. In the present study, we investigated the antioxidant activity of 9-cis and 13-cis astaxanthin compared to the all-trans isomer in vitro. In a stable radical DPPH scavenging activity test and in rat microsome and rabbit erythrocyte ghost membrane lipid peroxidation systems induced by AAPH and t-BuOOH, respectively, the results apparently showed that cis-astaxanthin, especially 9-cis astaxanthin, exhibited a higher antioxidant effect than the all-trans isomer. In addition, during polyunsaturated fatty acid (PUFA) oxidation, both DHA and linoleic acid hydroperoxides formation were markedly inhibited by astaxanthin isomers addition in the order 9-cis >13-cis >all-trans. Furthermore, 9-cis also exhibited the most effective inhibition of the generation of ROS induced by 6-hydroxydopamine (6-OHDA) in human neuroblastoma SH-SY5Y cells among the astaxanthin isomers, as well as on the degradation of collagen type II induced by DHA and linoleic acid hydroperoxides. The above-mentioned results suggest, for the first time, that cis isomer astaxanthin, especially 9-cis astaxanthin, has a much higher antioxidant potency than that of the all-trans isomer.     

Effects of astaxanthin in obese mice fed a high-fat diet

Astaxanthin is a natural antioxidant carotenoid that occurs in a wide variety of living organisms. We investigated the effects of astaxanthin supplementation in obese mice fed a high-fat diet. Astaxanthin inhibited the increases in body weight and weight of adipose tissue that result from feeding a high-fat diet. In addition, astaxanthin reduced liver weight, liver triglyceride, plasma triglyceride, and total cholesterol. These results suggest that astaxanthin might be of value in reducing the likelihood of obesity and metabolic syndrome in affluent societies.     

Antioxidant defense system in the apple snail eggs, the role of ovorubin

A novel role of ovorubin as a protection system against oxidative damage in eggs from Pomacea canaliculata was investigated. Carotenoid composition, and their antioxidant capacity, as well as the carotenoid-apoprotein interaction, were studied for this lipoglycocarotenoprotein. Carotenoid extracts from ovorubin were analysed by TLC and spectrophotometry. The major carotenoid was astaxanthin in its free (40%), monoester (24%), and diester (35%) forms, mainly esterified with 16:0 fatty acid. The antioxidant capacity of ovorubin carotenoids was studied by the inhibition of microsomal oxidation in a non-enzymatic system, showing strong protection against oxidative damage (IC50=3.9 nmol/mg protein). The carotenoid-apoprotein interaction was studied by spectrophotometry and electrophoresis using reconstituted ovorubin. Astaxanthin does not seem to affect the structural characteristics of ovorubin, however the carotenoid-protein association significantly protected astaxanthin against oxidation. Ovorubin therefore, besides its role in providing energy and structural precursors during embryogenesis, would be an antioxidant carrier, protecting at the same time this pigment from oxidation in the perivitellin fluid environment of the egg.     

雨生红球藻虾青素合成研究进展

虾青素是一种重要的次级类胡萝卜素,具有高活性的抗氧化功能,广泛应用于食品保健、医药、水产养殖等领域。雨生红球藻是一种在胁迫条件下能够大量积累虾青素的微藻。文中回顾了雨生红球藻虾青素的生物合成研究的进展,包括虾青素生物合成的诱导与调控、虾青素合成与光合作用及脂类代谢的关系等研究现状。     

Efficient screening for astaxanthin-overproducing mutants of the yeast Xanthophyllomyces dendrorhous by flow cytometry

Astaxanthin possesses higher antioxidant activity than other carotenoids and, for this and other reasons, has great commercial potential for use in the aquaculture, pharmaceutical, and food industries. The basidiomycetous yeast Xanthophyllomyces dendrorhous is one of the best natural producers of astaxanthin, but wild-type cells accumulate only a small amount of astaxanthin. In this study, we developed an efficient flow cytometry method to screen for astaxanthin-overproducing mutants of X. dendrorhous. We first examined the relationship between cellular astaxanthin content and the intensity of fluorescence emitted from the cell. Although the fluorescence emission maximum of astaxanthin dissolved in acetone occurred at 570 nm, intracellular astaxanthin content correlated better with emission at around 675 nm in different X. dendrorhous strains. Using this emission wavelength, we screened cells mutagenized with ethyl methanesulfonate and successfully isolated mutants that produced 1.5-3.8-fold more astaxanthin than parent cells. This method enabled us to obtain overproducers five times more efficient than conventional screening from plate culture.     

Fatty acids of astaxanthin esters in krill determined by mild mass spectrometry

Krill is a major source of astaxanthin, which has strong antioxidant activity. Fractions with astaxanthin monoesters and diesters of Antarctic krill Euphausia superba were isolated. Astaxanthin esters were separated by C18-HPLC depending on the number of carbons and double bonds of esterified fatty acid(s). Small amounts of other lipids remained in the samples, but relative molecular masses of carotenoid esters could be measured by field desorption mass spectrometry without fragmentation and interference from contaminant lipids. The fatty acids were determined by calculation of difference between astaxanthin and astaxanthin esters. Only five kinds of fatty acids, dodecanoate, tetradecanoate, hexadecanoate, hexadecenoate and octadecenoate, were detected. Fast atom bombardment mass spectrometry and secondary ion mass spectrometry showed similar spectra. The fatty acid composition in astaxanthin esters was different from those in krill lipids. Therefore, determination of fatty acids in carotenoid esters by a combination of HPLC elution profile and mild mass spectrometry is found to be a useful tool.     

Enhancing astaxanthin accumulation in Xanthophyllomyces dendrorhous by a phytohormone: metabolomic and gene expression profiles

Xanthophyllomyces dendrorhous is a promising source of natural astaxanthin due to its ability to accumulate high amounts of astaxanthin. This study showed that 6-benzylaminopurine (6-BAP) is an effective substrate that enhances cell biomass and astaxanthin accumulation in X. dendrorhous. In the current study, the biomass and astaxanthin content in X. dendrorhous were determined to be improved by 21.98% and 24.20%, respectively, induced by 6-BAP treatments. To further understand the metabolic responses of X. dendrorhous to 6-BAP, time-course metabolomics and gene expression levels of X. dendrorhous cultures with and without 6-BAP feeding were investigated. Metabolome analysis revealed that 6-BAP facilitated glucose consumption, promoted the glycolysis, suppressed the TCA cycle, drove carbon flux of acetyl-CoA into fatty acid and mevalonate biosynthesis, and finally facilitated the formation of astaxanthin. ROS analysis suggested that the antioxidant mechanism in X. dendrorhous can be induced by 6-BAP. Additionally, the process of 6-BAP significantly upregulated the expression of six key genes involved in pathways related to astaxanthin biosynthesis. This research demonstrates the metabolomic mechanism of phytohormone stimulation of astaxanthin production iNn X. dendrorhous and presents a new strategy to improve astaxanthin production to prevent the dilemma of choosing between accumulation of astaxanthin and cell biomass.     

Characterization of cyanobacterial β‐carotene ketolase and hydroxylase genes in Escherichia coli,and their application for astaxanthin biosynthesis

Carotenoid biosynthesis is highly conserved and well characterized up to the synthesis of β‐carotene. Conversely, the synthesis of astaxanthin from β‐carotene is less well characterized. Regardless, astaxanthin is a highly sought natural product, due to its various industrial applications and elevated antioxidant capacity. In this article, 12 β‐carotene ketolase and 4 β‐carotene hydroxylase genes, isolated from 5 cyanobacterial species, are investigated for their function, and potential for microbial astaxanthin synthesis. Further, this in vivo comparison identifies and applies the most promising genetic elements within a dual expression vector, which is maintained in Escherichia coli. Here, combined overexpression of individual β‐carotene ketolase and β‐carotene hydroxylase genes, within a β‐carotene accumulating host, enables a 23.5‐fold improvement in total carotenoid yield (1.99 mg g^?1), over the parental strain, with >90% astaxanthin. Biotechnol. Bioeng. 2009;103: 944–955. © 2009 Wiley Periodicals, Inc.     

饲料中添加雨生红球藻粉对三疣梭子蟹雌体卵巢发育、色泽、抗氧化能力和生化组成的影响

研究采用雨生红球藻(Haematococcus pluvialis)藻粉作为天然虾青素源, 配制4种不同虾青素含量(含量分别为0、26.60、41.62和81.37 mg/kg)的饲料(记为饲料1#—4#), 对三疣梭子蟹(Portunus trituberculatus)雌体进行为期45d的育肥实验, 研究其对雌蟹卵巢发育、色泽、抗氧化能力、免疫性能和生化组成的影响。结果表明: (1)育肥饲料中虾青素含量对雌蟹性腺指数(GSI)和肝胰腺指数(HSI)均无显著影响。(2)肝胰腺、卵巢和头胸甲中的总类胡萝卜素含量、红度(a*)值和黄度(b*)值均随饲料虾青素含量的升高而升高, 而3种组织的亮度(L*)值呈显著下降趋势(P<0.05)。(3)对抗氧化指标而言, 虾青素添加组(饲料2#—4#)血淋巴超氧化物歧化酶(SOD)和过氧化物酶(POD)活力均显著低于无虾青素组(饲料1#); 血淋巴中的总抗氧化能力(T-AOC)、谷胱甘肽过氧化物酶(GSH-Px)及肝胰腺中的SOD和T-AOC活力均随饲料中虾青素水平升高而上升, 而血淋巴和肝胰腺中的丙二醛(MDA)含量呈下降趋势。(4)对免疫指标而言, 血淋巴和肝胰腺中的酸性磷酸酶(ACP)活力均在饲料4#组最高, 而饲料1#组血淋巴中的血蓝蛋白(Hc)含量显著高于其他组(P<0.05)。(5)对生化组成而言, 肌肉和肝胰腺中的总脂、总碳水化合物及卵巢中总脂含量均随饲料中虾青素含量的升高呈上升趋势, 饲料2#组卵巢中的总碳水化合物含量最高(P<0.05)。综上所述, 三疣梭子蟹雌体育肥饲料中添加虾青素对其卵巢发育无显著影响, 但可改善色泽和提高其抗氧化能力及可食组织中的总脂和碳水化合物含量, 三疣梭子蟹雌体育肥饲料中虾青素适宜含量为50 mg/kg饲料左右。     

城市生活污水用于培养雨生红球藻的研究

虾青素是自然界广泛存在的一种橘红色类胡萝卜素,广泛应用于食品、药品和化妆品行业。在虾青素的制备中,雨生红球藻是生产虾青素的最有效来源,目前提高虾青素产量的方式主要为提高生物量和产物合成率。目前已有大量研究针对生物量的优化,但依然存在改善空间。为此,尝试用城市生活污水作为培养基对雨生红球藻进行培养。结果表明,生活污水能促进雨生红球藻的生长,其产量是现有BG11培养基的2倍;虾青素的合成时期显著提前（P<0.05）,且体内重金属含量未明显富集,处在安全浓度范围。此外,养藻后的城市生活污水中氮、磷含量显著降低（P<0.05）,高氮、磷富余的情形得到有效改善。证实利用污水培养雨生红球藻的双重效应,一方面有利于积累藻类生物量,另一方面有助于净化水质,在经济效益和生态效益上具有极好的发展潜力。     

The present perspective of astaxanthin with reference to biosynthesis and pharmacological importance

Astaxanthin is an important natural pigment, a diketo carotenoid that besides being a food ingredient has importance as a nutraceutical. Astaxanthin is a fat-soluble nutrient with a molecular weight of 596.8 Da (Dalton) and a molecular formula of C₄₀H₅₂O_4. It is water insoluble and lipophilic. Organisms that produce astaxanthin include the basidiomycetous yeast; Phaffia rhodozyma, the green alga; Haematococcus pluvialis and the Gram-negative bacteria; Agrobacterium aurantiacum, Paracoccus marcusii, P. carotinifaciens, Paracoccus sp. strain MBIC 01143, and P. haeundaensis. Xanthophyllomyces dendrorhous and Haematococcus pluvialis, which are potential sources of astaxanthin. The antioxidant properties of astaxanthin are believed to have a key role in the medicinal, pharmaceutical, and food industries. Astaxanthin acts as a free-radical scavenger and an immunomodulator. It is a medicinal ingredient against degenerative diseases such as cancer, skin related illness, and heart disease. Presently, this carotenoid is used as a major pigmentation source and a feed supplement in aquaculture, primarily salmon, trout, crabs, shrimp, chickens, and red sea bream. The present review focuses on the pharmacological connotations of astaxanthin and specifies the natural sources and pathways of its production along with other relevant aspects.     

UV-B辐射对雨生红球藻光合特性和虾青素含量的影响及其响应

实验研究了不同强度的UV-B(280-320 nm)辐射对雨生红球藻(Haematococcus pluvialis)的光合活性、生物量、色素含量、活性氧(ROS)含量和抗氧化酶活性等的影响, 以探讨利用UV-B辐射诱导虾青素生物合成增强的可能性。结果发现, 经UV-B辐射处理后,雨生红球藻的光合活性降低、生物量增长被抑制。UV-B辐射对叶绿素影响不大, 但会改变细胞的类胡萝卜素和虾青素含量:0.1和0.3 W/m2强度的UV-B辐射使细胞中的这两种色素含量升高, 0.5 W/m2组的色素含量短暂升高后恢复到对照水平。中低强度的UV-B可以促进雨生红球藻单细胞虾青素含量的增加, 但由于其对细胞生长的抑制作用, 并不能使虾青素大量积累。随辐射时间延长, 细胞内ROS含量未明显增加,但抗氧化酶(过氧化氢酶和超氧化物歧化酶)活性下降, 雨生红球藻可能主要依靠虾青素来淬灭ROS。以上结果表明, UV-B辐射对雨生红球藻的主要生理生化过程有抑制作用, UV-B辐射既可以诱导虾青素的合成又会消耗一部分虾青素, 对虾青素含量的影响与其强度有关, 而利用虾青素来清除细胞内的ROS可能是雨生红球藻抵御这种不利环境条件的最重要的途径。       

Bioavailability of Astaxanthin in Haematococcus Algal Extract: The Effects of Timing of Diet and Smoking Habits

Astaxanthin is a caroteonid that possesses strong antioxidant activity. Recently, many studies on biological activity have been reported. In general, the absorption of carotenoids is affected greatly by diet and by smoking. In this report, we investigated astaxanthin pharmacokinetics after administration of Haematococcus algal extract, a source of astaxanthin, to smokers and nonsmokers before and after a meal; astaxanthin was given before the meal to nonsmokers (n=7), after the meal to nonsmokers (n=6), and after the meal to smokers (n=7), then serum samples were analyzed. The timing of administration greatly affected astaxanthin bioavailability including the area under the curve (AUC_0–168, 2,968±959 μg h/l in the before-meal group vs. 7,219±3,118 μg h/l in the after-meal group), indicating high availability in the after-meal group. Smoking also affected the pharmacokinetic parameters and reduced the half-life (t_1?2) of astaxanthin elimination significantly.     

Tailoring cyanobacteria as a new platform for highly efficient synthesis of astaxanthin

With the ability to recycle CO₂ into value-added chemicals, cyanobacteria have been considered as renewable microbial cell factories. Astaxanthin, a highly valued carotenoid with potent antioxidant activity, could be beneficial to human health. Astaxanthin biosynthesis in engineered chassis has been achieved previously, but it generated a relatively low yield. Here, we successfully constructed a highly efficient astaxanthin biosynthetic pathway in cyanobacterium Synechocystis sp. PCC 6803, and achieved more than a 500-fold increase in astaxanthin production via stepwise reconstruction of the biosynthetic pathway and rational rewiring of the endogenous metabolism. The engineered strain produced up to 29.6 mg/g of astaxanthin (dry cell weight), which is the highest yield reported in the engineered chassis to date. Moreover, multi-omics analyses revealed that establishing a high astaxanthin flux may enhance photosynthesis and central metabolism in the engineered strain to compensate for the depleted pigments, which could be valuable for astaxanthin overproduction. This study presents a novel alternative for high-efficiency biosynthesis of astaxanthin directly from CO₂.