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1.
从数株红酵母中选出 1株产类胡萝卜素能力较强的红酵母RY 98(生物量、类胡萝卜素含量和产量分别为19.9g/L ,334 .8μg/ g和 6 .7mg/L) ;研究了该菌株产类胡萝卜素的最适营养与环境条件 ,获得了最佳的发酵生理学条件 :葡萄糖 40 g/L ,(NH4 ) 2 SO4 10 g/L ,酵母膏 3g/L ,蕃茄汁 2mL/L ,花生油 0 .5mL/L ,接种量 30mL/L ,初始pH 6 .0和通气量 (培养基装量 ) 4 0mL/ 2 5 0mL。在此初步优化的培养条件下 ,红酵母RY 98经 72h摇瓶发酵其生物量、类胡萝卜素含量和产量分别可达 2 6 .8g/L ,386 .9μg/ g和 10 .4mg/L ,依次比初筛中提高了 34 .7% ,15 .6 %和 5 5 .2 %。  相似文献   

2.
红酵母RY—981类胡萝卜素发酵助剂的研究   总被引:7,自引:2,他引:5  
通过探索几种促进剂和前体对红酵母RY-981类胡萝卜素发酵的影响,从中选出了番茄汁和花生油2种对红酵母生长及其类胡萝卜素合成具有显著促进作用的发酵助剂,并确定了适宜的用量。应用试验和发酵过程动态分析表明,这2种发酵助剂增产效果明显(当同时添加番茄汁2.6mL/L和花生油1ml/L时,菌体量、类胡萝卜素含量和产量可分别比对照组提高53.13%、20.29%和84.07%),且对发酵过程菌体生长及生理代谢规律无不良影响。  相似文献   

3.
粘红酵母发酵生产类胡萝卜素培养条件的优化   总被引:5,自引:0,他引:5  
目的是通过测定不同条件下类胡萝卜素的产量找出粘红酵母发酵生产类胡萝卜素的最优条件。探讨了不同碳源、氮源对粘红酵母菌体生长和色素形成的影响,并通过正交实验确定了最佳条件组合。实验结果表明,最适发酵培养条件为:蔗糖40g/L、酵母粉20g/L、转速150r/min、装液量30mL/500mL、发酵时间84h。在此条件下,粘红酵母摇瓶发酵的生物量、类胡萝卜素含量及产量分别达15.17g/L、718.6μg/g、10.9mg/L,依次比初始发酵提高了1倍、7.4倍和15.8倍。发酵过程动态分析表明,84h色素产量达最高峰。  相似文献   

4.
通过单因素实验和正交实验对沼泽生红冬孢酵母生长和产类胡萝卜素的培养条件进行研究,最适培养条件为葡萄糖40 g/L,牛肉膏10 g/L,酵母膏10 g/L,NaCl 10 g/L,MgSO4.7H2O 0.1 g/L,K2HPO4 2 g/L,KH2PO4 2 g/L,初始pH 6.3,装液量为50 mL/250 mL,摇床转速170 r/min,培养温度为28℃,接种量为10%。在此发酵条件下,培养72 h后,沼泽生红冬孢酵母生物量和类胡萝卜素产量分别达到11.72 g/L和3.55 mg/L。  相似文献   

5.
目的 对海洋红酵母Y2高产类胡萝卜素的发酵条件进行优化.方法 在摇瓶条件下,研究培养基成分和培养条件对海洋红酵母Y2生长和类胡萝卜素合成的影响,同时进行海洋红酵母Y2发酵过程的动态分析.结果 海洋红酵母Y2优化培养基组合为葡萄糖45 g/L,蔗糖15 g/L,酵母粉5 g/L,蛋白胨2.5 g/L,磷酸二氢钾1 g/L,磷酸二氢钠3 g/L,硫酸镁7.5 g/L,氯化钾3 g/L,氯化钠5 g/L.最适培养参数为:温度20℃,培养基初始pH为5,接种量为10%,250 mL摇瓶装液量为10~50 mL.类胡萝卜素的合成主要集中在对数生长期和稳定期.海洋红酵母Y2最适收获时间为72 h.种龄以36 h为宜.结论 利用优化培养基,在最适条件下培养海洋红酵母Y2,类胡萝卜素产量达到4.97 mg/L,比基础培养基提高了60.32%.  相似文献   

6.
从180余份海水、海泥样品中筛选得到60株产海藻糖较高的菌株,编号为2-14的菌株海藻糖产量最高,为127.9mg/g cell。对2-14菌株进行形态特征、培养特征及生理生化试验,鉴定该菌株为红酵母属(Rhodotorula sp.)。研究摇瓶发酵条件对红酵母海藻糖产量的影响,结果为:初始pH5.5,发酵温度28℃,装液量75mL(250mL三角瓶中)。采用优化后发酵条件红酵母海藻糖产量为193.3mg/g cell,优化前对照值为132.1mg/g cell,优化后的结果是优化前的1.46倍。在5L发酵罐中培养得到最佳发酵时间为54h,发酵罐培养发酵液中海藻糖含量最高达2.5g/L,为摇瓶培养的1.6倍。  相似文献   

7.
高产虾青素的红发夫酵母菌种的选育   总被引:8,自引:0,他引:8  
红发夫酵母(Phaffia rhodozyma)是发酵法生产虾青素的优良菌株。本采用Cs^137-γ射线重复辐照,并交替进行亚硝基胍(NTG)诱变处理,选育得到一株高产虾青素的红夫酵母YB-20-29突变株。该菌株摇瓶发酵的生物量达36.32g/L,总色素含量为1216.0ug/g,较原始菌株提高308%,虾青素产量达30.9ug/mL,是一株很有开发前景和虾青素高产菌株。  相似文献   

8.
在锁掷酵母(Sporidioboluspararoseus)发酵产类胡萝卜紊的过程中,发酵产物中类胡萝卜紊种类繁多,而且性质相似,加大了不同色素分离纯化的难度。为定向积累不同种类的类胡萝卜素,以本实验室保藏锁挪酵母JD-2为出发菌,研究了氮源种类和浓度及溶氧对锁掷酵母产类胡萝卜素的影响,并在7L发酵罐中进行了补料分批发酵试验。发现培养基中同时添加有机氮源和无机氮源且溶氧控制较低(5%)时有利于β-胡萝卜素的大量积累,最佳有机氮源和无机氮源分别为玉米浆(20g/L)、硫酸铵(5g/L)。补料分批发酵时β-胡萝卜素产量达到31.28mg/L,红酵母烯12.38mg/L。培养基中只添加有机氮源且相对溶氧控制相对较高(30%)时有利于红酵母烯的大量积累,最佳有机氮源为酵母膏(20g/L)。补料分批发酵时红酵母烯产量达到38.96mg/L,8.胡萝卜素12.36mg/L。  相似文献   

9.
红酵母产类胡萝卜素固态发酵工艺条件的研究   总被引:8,自引:1,他引:7  
该文研究了红酵母菌株D固态发酵产类胡萝卜素的培养基配方和发酵条件,得到初步优化的培养基为:啤酒糟∶豆粕∶麸皮=1∶3∶2.通过正交试验优化的培养条件是培养基含水量为60%,装量为6/150(即6g干基按设计的初始含水量用盐溶液配好后装于150ml三角瓶中),接种龄为24h,无机盐为0.5g/L MgSO4,其色素产量为14.2μg/g干基。色素产量随接种量增大而增大,细胞生物量、类胡萝卜素产量和含量均随发酵时间的增加逐渐增加,在96h分别达到最大值67.75mg dry-cell/g干基、9.88μg/g干基、145.80μg/g dry-cell,确定其最佳发酵周期为96h。  相似文献   

10.
红酵母COS—5产胡萝卜素条件的研究   总被引:12,自引:0,他引:12       下载免费PDF全文
研究碳源、氮源和添加剂对红酵母(Rhodotorulasp.)COS-5产胡萝卜素的影响,并通过正交试验优化其产胡萝卜素的培养基组成。结果表明,COS-5产胡萝卜素的适宜培养基:蔗糖50g、蛋白胨5g、酵母膏5g、桔子皮15g、盐酸硫胺素0.002g、定容1L,pH6.0.250mL三角瓶装培养基30mL。在上述条件下28℃振荡培养96h,细胞生物量为27.5mg干重/mL发酵液,胡萝卜素含量达492.7μg/g干重细胞。COS-5胡萝卜素在474.4nm、338.6nm和310.2nm处有  相似文献   

11.
Peters A  Magdeburg S  Delhey K 《Oecologia》2011,166(1):35-43
Carotenoids are widely heralded as central to honest signaling due to their dual roles as pigments and antioxidants/immunostimulants. The aim of this study is to test if diet quality and carotenoids alone or in an interaction influence condition, carotenoid availability in plasma and immune responsiveness. Therefore, a diet experiment during the moult of great tits, Parus major, was performed. In a two-way design, we manipulated general quality (digestibility, protein and vitamin content) as well as carotenoid (lutein) content of semi-synthetic diets. Higher quality diet improved individual condition since birds had greater body mass, and to a lesser extent, higher hematocrit. In addition to the expected positive effect of carotenoid supplementation and individual lutein consumption on circulating lutein, there was a positive effect of enhanced diet quality on plasma carotenoid levels. Carotenoid supplementation, but not diet quality, improved the local inflammatory response and maintenance of body mass during a humoral immune reaction. The enhancement of circulating carotenoid levels by improved general quality of the diet or individual condition could provide a testable, mechanistic explanation for the variation in effects of carotenoid supplementation studies.  相似文献   

12.
13.

The photoswitchable orange carotenoid protein (OCP) is indispensable for cyanobacterial photoprotection by quenching phycobilisome fluorescence upon photoconversion from the orange OCPO to the red OCPR form. Cyanobacterial genomes frequently harbor, besides genes for orange carotenoid proteins (OCPs), several genes encoding homologs of OCP’s N- or C-terminal domains (NTD, CTD). Unlike the well-studied NTD homologs, called Red Carotenoid Proteins (RCPs), the role of CTD homologs remains elusive. We show how OCP can be reassembled from its functional domains. Expression of Synechocystis OCP-CTD in carotenoid-producing Escherichia coli yielded violet-colored proteins, which, upon mixing with the RCP-apoprotein, produced an orange-like photoswitchable form that further photoconverted into a species that quenches phycobilisome fluorescence and is spectroscopically indistinguishable from RCP, thus demonstrating a unique carotenoid shuttle mechanism. Spontaneous carotenoid transfer also occurs between canthaxanthin-coordinating OCP-CTD and the OCP apoprotein resulting in formation of photoactive OCP. The OCP-CTD itself is a novel, dimeric carotenoid-binding protein, which can coordinate canthaxanthin and zeaxanthin, effectively quenches singlet oxygen and interacts with the Fluorescence Recovery Protein. These findings assign physiological roles to the multitude of CTD homologs in cyanobacteria and explain the evolutionary process of OCP formation.

  相似文献   

14.
Carotenoids have drawn much attention recently because of their potentially positive benefits to human health as well as their utility in both food and animal feed. Previous work in canola (Brassica napus) seed over-expressing the bacterial phytoene synthase gene (crtB) demonstrated a change in carotenoid content, such that the total levels of carotenoids, including phytoene and downstream metabolites like beta-carotene, were elevated 50-fold, with the ratio of beta- to alpha-carotene being 2:1. This result raised the possibility that the composition of metabolites in this pathway could be modified further in conjunction with the increased flux obtained with crtB. Here we report on the expression of additional bacterial genes for the enzymes geranylgeranyl diphosphate synthase (crtE), phytoene desaturase (crtI) and lycopene cyclase (crtY and the plant B. napus lycopene beta-cyclase) engineered in conjunction with phytoene synthase (crtB) in transgenic canola seed. Analysis of the carotenoid levels by HPLC revealed a 90% decrease in phytoene levels for the double construct expressing crtB in conjunction with crtI. The transgenic seed from all the double constructs, including the one expressing the bacterial crtB and the plant lycopene beta-cyclase showed an increase in the levels of total carotenoid similar to that previously observed by expressing crtB alone but minimal effects were observed with respect to the ratio of beta- to alpha-carotene compared to the original construct. However, the beta- to alpha-carotene ratio was increased from 2:1 to 3:1 when a triple construct consisting of the bacterial phytoene synthase, phytoene desaturase and lycopene cyclase genes were expressed together. This result suggests that the bacterial genes may form an aggregate complex that allows in vivo activity of all three proteins through substrate channeling. This finding should allow further manipulation of the carotenoid biosynthetic pathway for downstream products with enhanced agronomic, animal feed and human nutritional values.  相似文献   

15.
Zsila F  Bikádi Z  Deli J  Simonyi M 《Chirality》2001,13(8):446-453
Carotenoid assemblies were produced by aqueous dilution of ethanolic solutions. UV/VIS and CD spectroscopy revealed the formation of J- and H-types of aggregates of both right- and left-handed kinds. Simulation of UV/VIS spectra of the aggregates showed characteristic differences between the two types. 6'-Epimers of capsanthol ((all-E,3R,3'S,5'R)-beta,kappa-carotene-3,3',6'-triols) formed assemblies with increased chirality in dilute solution. While the absorption of 6'R-capsanthol giving H-type aggregate does not depend on the concentration, 6'S-capsanthol yielding J-type assembly showed concentration-dependent absorption intensity. Dilute aggregate of 6'R-capsanthol is characterized by an extremely large A value of -6,600. The transformation of J- to H-type assembly was observed in the mixtures of the epimers producing an intermediate kind of aggregate. A hypothetical structure for H-type assemblies is proposed.  相似文献   

16.
This study examined the effect of dietary carotenoid availability on carotenoid and retinoid concentrations in the flesh, plasma, skin and eggs of female Chinook salmon Oncorhynchus tshawytscha. Carotenoid concentrations in all tissues were closely related to dietary availability. Early in the breeding season, carotenoids were stored primarily in the muscle, with a flesh carotenoid concentration of 9·9 µg g?1 in fish fed a high carotenoid diet compared with 1·9 µg g?1 in fish fed a low carotenoid diet. During the breeding season, carotenoid reserves were mobilized predominantly to the eggs and also to the skin. By the end of the breeding season, carotenoid concentrations in the eggs were 17·9 µg g?1 in fish fed a high carotenoid diet and 3·9 µg g?1 in fish fed a low carotenoid diet. Conversely, egg retinoid concentrations were only c. 20% lower in fish fed a low v. high carotenoid diet, which suggests that retinoid concentrations were not limited by the availability of carotenoid precursors. Egg carotenoid concentrations were not correlated with either skin carotenoid concentration or colouration, which suggests that female carotenoid displays are not a reliable signal that males can use to evaluate egg carotenoid resources.  相似文献   

17.
18.
Chromoplasts are special organelles that possess superior ability to synthesize and store massive amounts of carotenoids. They are responsible for the distinctive colors found in fruits, flowers, and roots. Chromoplasts exhibit various morphologies and are derived from either pre-existing chloroplasts or other non-photosynthetic plastids such as proplastids, leucoplasts or amyloplasts. While little is known about the molecular mechanisms underlying chromoplast biogenesis, research progress along with proteomics study of chromoplast proteomes signifies various processes and factors important for chromoplast differentiation and development. Chromoplasts act as a metabolic sink that enables great biosynthesis and high storage capacity of carotenoids. The formation of chromoplasts enhances carotenoid metabolic sink strength and controls carotenoid accumulation in plants. The objective of this review is to provide an integrated view on our understanding of chromoplast biogenesis and carotenoid accumulation in plants.  相似文献   

19.
Mammals and higher vertebrates including humans have only three members of the carotenoid cleavage dioxygenase family of enzymes. This review focuses on the two that function as carotenoid oxygenases. β-Carotene 15,15′-dioxygenase (BCO1) catalyzes the oxidative cleavage of the central 15,15′ carbon-carbon double of β-carotene bond by addition of molecular oxygen. The product of the reaction is retinaldehyde (retinal or β-apo-15-carotenal). Thus, BCO1 is the enzyme responsible for the conversion of provitamin A carotenoids to vitamin A. It also cleaves the 15,15′ bond of β-apocarotenals to yield retinal and of lycopene to yield apo-15-lycopenal. β-Carotene 9′,10′-dioxygenase (BCO2) catalyzes the cleavage of the 9,10 and 9′,10′ double bonds of a wider variety of carotenoids, including both provitamin A and non-provitamin A carotenoids, as well as the xanthophylls, lutein and zeaxanthin. Indeed, the enzyme shows a marked preference for utilization of these xanthophylls and other substrates with hydroxylated terminal rings. Studies of the phenotypes of BCO1 null, BCO2 null, and BCO1/2 double knockout mice and of humans with polymorphisms in the enzymes, has clarified the role of these enzymes in whole body carotenoid and vitamin A homeostasis. These studies also demonstrate the relationship between enzyme expression and whole body lipid and energy metabolism and oxidative stress.In addition, relationships between BCO1 and BCO2 and the development or risk of metabolic diseases, eye diseases and cancer have been observed. While the precise roles of the enzymes in the pathophysiology of most of these diseases is not presently clear, these gaps in knowledge provide fertile ground for rigorous future investigations.This article is part of a Special Issue entitled Carotenoids: Recent Advances in Cell and Molecular Biology edited by Johannes von Lintig and Loredana Quadro.  相似文献   

20.
A quenching mechanism mediated by the orange carotenoid protein (OCP) is one of the ways cyanobacteria protect themselves against photooxidative stress. Here, we present a femtosecond spectroscopic study comparing OCP and RCP (red carotenoid protein) samples binding different carotenoids. We confirmed significant changes in carotenoid configuration upon OCP activation reported by Leverenz et al. (Science 348:1463–1466. doi:  10.1126/science.aaa7234, 2015) by comparing the transient spectra of OCP and RCP. The most important marker of these changes was the magnitude of the transient signal associated with the carotenoid intramolecular charge-transfer (ICT) state. While OCP with canthaxanthin exhibited a weak ICT signal, it increased significantly for canthaxanthin bound to RCP. On the contrary, a strong ICT signal was recorded in OCP binding echinenone excited at the red edge of the absorption spectrum. Because the carbonyl oxygen responsible for the appearance of the ICT signal is located at the end rings of both carotenoids, the magnitude of the ICT signal can be used to estimate the torsion angles of the end rings. Application of two different excitation wavelengths to study OCP demonstrated that the OCP sample contains two spectroscopically distinct populations, none of which is corresponding to the photoactivated product of OCP.  相似文献   

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