New Mutants of Phycomyces blakesleeanus for (beta)-Carotene Production

The accumulation of (beta)-carotene by the zygomycete Phycomyces blakesleeanus is increased by mutations in the carS gene. The treatment of spores of carS mutants with N-methyl-N(prm1)-nitro-N-nitrosoguanidine led to the isolation, at very low frequencies, of mutants that produced higher levels of (beta)-carotene. Strain S556 produced about 9 mg of (beta)-carotene per g of dry mass when it was grown on minimal agar. Crosses involving strain S556 separated the original carS mutation from a new, unlinked mutation, carF. The carF segregants produced approximately as much carotene as did carS mutants, but they were unique in their ability to produce zygospores on mating and in their response to agents that increase carotenogenesis in the wild type. The carotene contents of carF segregants and carF carS double mutants were increased by sexual interaction and by dimethyl phthalate but were not increased by light or retinol. Mixed opposite-sex cultures of carF carS mutants contained up to 33 mg of (beta)-carotene per g of dry mass. Another strain, S444, produced more (beta)-carotene than did S556 but was marred by slow growth, defective morphology, and bizarre genetic behavior. In all the strains tested, the carotene concentration was minimal during the early growth phase and became higher and constant for several days in older mycelia.     

Carotenes and Retinal in Phycomyces Mutants

Three different types of beta-carotene mutants of Phycomyces have been studied. In 2 mutants (Type I) beta-carotene is still the principal carotene but scaled down or up relative to wild type. The carotene mixture of 2 mutants (Type II) consists mainly of phytoene and phytofluene. In Type III (2 mutants) beta-carotene is replaced by lycopene.The examination of the mutants reveals that the receptor pigment is very likely neither beta-carotene nor retinal. Transmission spectra through the growing zone of live sporangiophores of 1 of these mutants which contains less than one-thousandth of the beta-carotene content of wild type show that the receptor pigment extinction is less than 0.003 at its maximum.     

A gene for carotene cleavage required for pheromone biosynthesis and carotene regulation in the fungus Phycomyces blakesleeanus

Mating and sexual development in fungi are controlled by molecular mechanisms that are specific for each fungal group. Mating in Phycomyces blakesleeanus and other Mucorales requires pheromones derived from β-carotene. Phycomyces mutants in gene carS accumulate large amounts of β-carotene but do not enter the sexual process. We show that carS encodes a β-carotene-cleaving oxygenase that catalyzes the first step in the biosynthesis of a variety of apocarotenoids, including those that act as pheromones. Therefore carS mutants cannot stimulate their sexual partners, although they respond to them. CarS catalyzes the biosynthesis of a β-ring-containing apocarotenoid that inhibits the activity of the carotenogenic enzyme complex in vegetative cells and provides a feedback regulation for the β-carotene pathway. The carS gene product is a keystone in carotenogenesis and in sexual reproduction.     

Intersexual partial diploids of phycomyces

Sexual interaction between strains of opposite sex in many fungi of the order Mucorales modifies hyphal morphology and increases the carotene content. The progeny of crosses of Phycomyces blakesleeanus usually include a small proportion of anomalous segregants that show these signs of sexual stimulation without a partner. We have analyzed the genetic constitution of such segregants from crosses that involved a carF mutation for overaccumulation of beta-carotene and other markers. The new strains were diploids or partial diploids heterozygous for the sex markers. Diploidy was unknown in this fungus and in the Zygomycetes. Random chromosome losses during the vegetative growth of the diploid led to heterokaryosis in the coenocytic mycelia and eventually to sectors of various tints and mating behavior. The changes in the nuclear composition of the mycelia could be followed by selecting for individual nuclei. The results impose a reinterpretation of the sexual cycle of Phycomyces. Some of the intersexual strains that carried the carF mutation contained 25 mg beta-carotene per gram of dry mass and were sufficiently stable for practical use in carotene production.     

Sterols in erg mutants of Phycomyces: metabolic pathways and physiological effects

Phycomyces is a fungal producer of beta-carotene and other beneficial metabolites. Several erg mutants of Phycomyces, originally selected to study the effects of membrane alteration on physiological responses, have now been used to gain information about sterol biosynthesis in filamentous fungi. One mutant, H23, and its progeny were found to be blocked at episterol C-5 dehydrogenase and did not produce ergosterol or any other sterol with a conjugated Delta(5,7) diene system. This mutant showed abnormal phototropism, which was correlated with the altered sterol composition. Another mutant, H25, seems to be a regulatory mutant. All analyzed mutants synthesized ergosta-7,22,24(28)-trien-3beta-ol, demonstrating for the first time that the sterol C-22 dehydrogenase of Phycomyces is capable of recognizing sterols with a 24(28) unsaturated side chain. New evidence regarding the biogenesis of neoergosterol and phycomysterols, the potential sparking function of cholesterol, as well as the regulation of sterol biosynthesis in this fungus is also reported. Given these results, a pathway for sterol biosynthesis in Phycomyces is proposed.     

β-Carotene biosynthesis by extracts of the C115 mutant of Phycomyces blakesleeanus

A cell extract of the yellow C115 car-42 mad-107(?) mutant of Phycomyces blakesleeanus, capable of converting MVA-[2-¹⁴C] into isoprenoids, was used to investigate the formation of β-carotene. The incorporation of radioactivity into β-carotene was reduced by the addition of unlabelled carotenes, solubilised using detergent, to the incubation mixtures. On reisolation of these carotenes after anaerobic incubations, they were found to carry radioactivity. The relative efficiencies of these carotenes as trapping agents are discussed in relation to the pathways of carotene cyclisation and to the apparent operation of a system for the negative feedback control of carotene biosynthesis.     

Relationships among the biosyntheses of ubiquinone, carotene, sterols, and triacylglycerols in Zygomycetes

The Zygomycetes Phycomyces blakesleeanus and Blakeslea trispora are actual or potential sources of β-carotene, ergosterol, ubiquinone, edible oil, and other compounds. By feeding [¹⁴C]acetyl-CoA, L-[¹⁴C]leucine, or R-[¹⁴C]mevalonate in the presence of excess unlabeled glucose, we found that ubiquinone (the terpenoid moiety), β-carotene, and triacylglycerols were made from separate pools of all their common intermediates; the pools for ubiquinone and ergosterol were indistinguishable. Fatty acids were not labeled from mevalonate, showing the absence in these fungi of a shunt pathway that would recycle carbon from mevalonate and its products back to central metabolism. The overproduction of carotene in a Phycomyces mutant and in sexually mated cultures of Blakeslea modified the relative use of labeled and unlabeled carbon sources in the production of carotene, but not of the other compounds. We concluded that carotene, ubiquinone, and triacylglycerols are synthesized in separate subcellular compartments, while sterols and ubiquinone are synthesized in the same compartments or in compartments that exchange precursors. Carotene biosynthesis was regulated specifically and not by flow diversion in a branched pathway.     

Ubiquinone and carotene production in the <Emphasis Type="Italic">Mucorales Blakeslea</Emphasis> and <Emphasis Type="Italic">Phycomyces</Emphasis>

The filamentous fungi Phycomyces blakesleeanus and Blakeslea trispora (Zygomycota, Mucorales) are actual or potential industrial sources of β-carotene and lycopene. These chemicals and the large terpenoid moiety of ubiquinone derive from geranylgeranyl pyrophosphate. We measured the ubiquinone and carotene contents of wild-type and genetically modified strains under various conditions. Light slightly increased the ubiquinone content of Blakeslea and had no effect on that of Phycomyces. Oxidative stress modified ubiquinone production in Phycomyces and carotene production in both fungi. Sexual interaction and mutations in both organisms made the carotene content vary from traces to 23 mg/g dry mass, while the ubiquinone content remained unchanged at 0.3 mg/g dry mass. We concluded that the biosyntheses of ubiquinone and carotene are not coregulated. The specific regulation for carotene biosynthesis does not affect even indirectly the production of ubiquinone, as would be expected if terpenoids were synthesized through a branched pathway that could divert precursor flows from one branch to another.     

Mutants and intersexual heterokaryons of Blakeslea trispora for production of beta-carotene and lycopene

The industrial production of beta-carotene with the zygomycete Blakeslea trispora involves the joint cultivation of mycelia of opposite sex in the presence of beta-ionone and other chemical activators. We have obtained improved strains by mutation and heterokaryosis. We chose wild strains on the basis of their growth and carotene content in single and mated cultures. Following exposure of their spores to N-methyl-N'-nitro-N-nitrosoguanidine, we obtained high-carotene mutants, which were more productive than their parents but similar to them in having beta-carotene as the main product. Further increases in carotene content were obtained after a new round of mutagenesis in one of the mutants. The production was shifted to lycopene in cultures incubated in the presence of nicotine and in lycopene-rich mutants derived from the wild strains. The highest production levels were achieved in intersexual heterokaryons, which contained mutant nuclei of opposite sex. These contained up to 39 mg of beta-carotene or 15 mg of lycopene per g (dry mass) under standard laboratory conditions in which the original wild strains contained about 0.3 mg of beta-carotene per g (dry mass). Beta-ionone did not increase the carotene content of these strains. Not all wild strains lent themselves to these improvements, either because they produced few mutants or because they did not increase their carotene production in mated cultures.     

The transport of alpha-tocopherol and beta-carotene in human blood.

The concentrations and distributions of major lipids (cholesterol, phospholipid, and triglyceride), tocopherol and carotenoids were determined in the plasma lipoprotein fractions (VLDL, LDL, and HDL) of (1) normal human subjects, (2) patients with hyperlipoproteinemia, and (3) patients with erythropoietic protoporphyria treated with oral beta-carotene and/or alpha-tocopherol. The distribution of tocopherol (in percent) was most closely correlated with the distribution of total lipids in the individual lipoproteins, while the major portion of beta-carotene was present in the low density lipoproteins, irrespective of the lipid distribution in the lipoproteins (except for one subject with hyperchylomicronemia). The alpha-tocopherol and beta-carotene concentrations of plasma and RBC in patients treated with tocopherol and carotene were determined periodically for a one-year period. Plasma and RBC tocopherol concentrations showed a rapid, parallel increase in response to tocopherol supplementation. In contrast, the plasma and RBC carotene concentrations showed a much slower and nonparallel increase in response to carotene administration. When carotene supplementation was stopped, the elevated carotene levels in both plasma and RBC persisted for several months; the elevated plasma carotene level persisted longer than the raised RBC carotene levels. These results suggest that alpha-tocopherol and beta-carotene are transported differently in the circulation and that the tissue storage and mobilization of these compounds are different.     

江苏省灌西盐场盐藻及其β—胡萝卜素资源调查

为了开发利用富含β-胡萝卜素的江苏沿海盐田盐藻(Dunaliellasalina)资源,我们采用常规调查方法,对江苏省灌西盐场的天然盐藻进行调查,并推算出约有259公斤左右的β-胡萝卜素年产量。而且,藻数量和β-胡萝卜素含量都受到光照、温度、雨水等气候因素影响。本调查为灌西盐场盐藻资源开发提供了一个可靠的依据,为其它盐场估计本场资源量提供了一个参考。     

胡萝卜(Daucus carota L.)中主要胡萝卜素和番茄红素含量的QTL分析

以高胡萝卜素自交系P50006和HCM A.C.为亲本构建的F2群体为作图群体,对胡萝卜中α-胡萝卜素、α-胡萝卜素、总胡萝卜素和番茄红素含量进行QTL定位及遗传分析。结果表明,α、β-胡萝卜素、总胡萝卜素和番茄红素含量的广义遗传力分别为0.75、0.50、0.31和0.93。遗传图谱包含91个SRAP(Sequence-related amplified polymorphism)标记,分布于9个连锁群,总长度502.9cM,标记间平均距离5.5cM。除α-胡萝卜素含量外,α-胡萝卜素、总胡萝卜素和番茄红素含量分别检测到1个主效QTL,均为加性遗传效应,分别解释表型变异为12.79%、12.87%和14.61%。此外,α-胡萝卜素和番茄红素含量还分别检测到1对上位性QTL,最大遗传效应分别为显性×加性互作和显性×显性互作,分别解释表型变异为15.1%和6.5%。文章中与QTL连锁的分子标记可用于高胡萝卜素、番茄红素的种质筛选和聚合育种。     

Phycomyces and the biology of light and color

Phycomyces has been in the laboratories for about 140 years, sometimes following trends and fashions, but often anticipating them. Researchers have been attracted by the sensitive and precise responses of Phycomyces to light and other stimuli, coupled with easy manipulations and good adaptation to laboratory life. It is a simple prototype of the many organisms that use light as a source of information but not as a significant source of energy. Growth, development, genetics, and carotene production have been other subjects of pioneering research. Phycomyces was the second organism, after us, known to require a vitamin. It was one of the first organisms in the research on spontaneous mutants and the second, after Drosophila, in which mutations were induced artificially. It was used to coin the concept and the name of heterokaryosis. Phycomyces heterokaryons offer unique experimental possibilities, for instance in the study of gene function in vivo and the causes of cell death. An overall impression of parsimony and combinatorial gene usage arises from the genetic analysis of the complex functions of this fungus. The main subjects of recent attention have been the various reactions to light, gravitropism, and some aspects of metabolism, particularly the production of carotene. Interest in Phycomyces is slacking because of the repeated failures at transforming it stably with exogenous DNA.     

Carotene-superproducing strains of Phycomyces.

Production of beta-carotene by wild-type Phycomyces blakesleeanus can be stimulated by light, chemicals, regulatory mutations, and sexual interaction between mycelia of opposite sex. Through genetic manipulations, we have isolated strains which have simultaneously and constitutively incorporated several of these stimulatory effects. In the dark and in a simple medium, some of the strains produce up to 25 mg of beta-carotene per g (dry weight), or about 500 times the wild-type production under the same conditions. High lycopene-producing strains have also been isolated by using carR mutants, which are blocked in the conversion of lycopene to beta-carotene. These strains should be useful in both industrial production of these pigments and basic research related to carotenogenesis.     

Long-term kinetic study of beta-carotene, using accelerator mass spectrometry in an adult volunteer

We present a sensitive tracer method, suitable for in vivo human research, that uses beta-[(14)C]carotene coupled with accelerator mass spectrometry (AMS) detection. Using this approach, the concentration-time course of a physiological (306 microgram 200 nCi) oral dose of beta-[(14)C]carotene was determined for 209 days in plasma. Analytes included beta-[(14)C]carotene, [(14)C]retinyl esters, [(14)C]retinol, and several [(14)C]retinoic acids. There was a 5.5-h lag between dosing and the appearance of (14)C in plasma. Labeled beta-carotene and [(14)C]retinyl esters rose and displayed several maxima with virtually identical kinetic profiles over the first 24-h period; elevated [(14)C]retinyl ester concentrations were sustained in the plasma compartment for >21 h postdosing. The appearance of [(14)C]retinol in plasma was also delayed 5.5 h postdosing and its concentration rose linearly for 28 h before declining. Cumulative urine and stool were collected for 17 and 10 days, respectively, and 57.4% of the dose was recovered in the stool within 48 h postdosing. The stool was the major excretion route for the absorbed dose. The turnover times (1/k(el)) for beta-carotene and retinol were 58 and 302 days, respectively. Area under the curve analysis of the plasma response curves suggested a molar vitamin A value of 0.53 for beta-carotene, with a minimum of 62% of the absorbed beta-carotene being cleaved to vitamin A.In summary, AMS is an excellent tool for defining the in vivo metabolic behavior of beta-carotene and related compounds at physiological concentrations. Further, our data suggest that retinyl esters derived from beta-carotene may undergo hepatic resecretion with VLDL in a process similar to that observed for beta-carotene.     

Sexualreaktion und Carotin-Synthese bei Zygomyceten

Zusammenfassung Gamonbildung und Carotinsynthese sind bei den Zygomyceten Mucor mucedo, Blakeslea trispora und Phycomyces Blakesleeanus gekoppelte Reaktionen. Die Gamonbildung verläuft parallel zur Carotinbiosynthese. Damit kann ein Weg zur Klärung der Gamonsynthese gefunden werden.

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Sexual reaction and carotene synthesis in Zygomycetes

Summary In the Zygomycetes Mucor mucedo, Blakeslea trispora and Phycomyces Blakesleeanus, gamon formation and carotene synthesis are coupled reactions. The gamon formation goes parallel with the carotene biosynthesis. This provides a way by which gamon synthesis can be elucidated.

     

Blue light signaling chains in Phycomyces: phototransduction of carotenogenesis and morphogenesis involves distinct protein kinase/phosphatase elements

Carotenogenesis and morphogenesis represent two of the several responses sensitive to blue light which characterize the lower eukaryote Phycomyces blakesleeanus. Speculating that reversible phosphorylation may be an intracellular event beyond the photoperception step, we resorted to the use of first-choice inhibitors of protein phosphatases and protein kinases. The mycelial beta-carotene content of dark-grown cultures was induced by all agents administered, while the morphogenic output showed the typical trend effected by light only with one of the protein kinase inhibitors. Our data provide convincing evidence that protein phosphorylation plays a regulatory role in photocarotenogenesis and photomorphogenesis of Phycomyces. According to the model we propose, the putative signaling elements involved are anticipated to have a repressive function in the dark so that the responses are maintained in the "off" mode until the moment photon information has to flow through the regulatory circuit.     

Availability and antiperoxidative effects of beta-carotene from Dunaliella bardawil in alcohol-drinking rats

The present study demonstrated the high bioavailability and antiperoxidative capacity of the natural beta-carotene isomer mixture of Dunaliella bardawil compared with synthetic beta-carotene under alcohol-induced oxidative stress. Weanling rats were adapted to ethanol by increasing ethanol levels in their drinking water to 30% at 5% intervals per week; other rats received water with no added ethanol. One water-drinking group and one alcohol-drinking group with no dietary carotene were used as controls. Two water-drinking groups were supplemented with 1 g/kg diet beta-carotene either from Dunaliella or a synthetic source, and due to reduced food intake, two ethanol-fed groups received 2 g beta-carotene per kilogram of diet from each source. Following 3 months of ethanol consumption, both carotene sources were found to prevent ethanol-induced lipid peroxidation as expressed by the hepatic conjugated oxidized dienes level. However, in the algal-fed rats, hepatic carotene and vitamin A levels were higher. In addition to a lower performance of the group fed ethanol and synthetic beta-carotene, there were three deaths in this group.     

Modification of sexual development and carotene production by acetate and other small carboxylic acids in Blakeslea trispora and Phycomyces blakesleeanus

In Phycomyces blakesleeanus and Blakeslea trispora (order Mucorales, class Zygomycetes), sexual interaction on solid substrates leads to zygospore development and to increased carotene production (sexual carotenogenesis). Addition of small quantities of acetate, propionate, lactate, or leucine to mated cultures on minimal medium stimulated zygospore production and inhibited sexual carotenogenesis in both Phycomyces and Blakeslea. In Blakeslea, the threshold acetate concentration was <1 mmol/liter for both effects, and the concentrations that had one-half of the maximal effect were <2 mmol/liter for carotenogenesis and >7 mmol/liter for zygosporogenesis. The effects on Phycomyces were similar, but the concentrations of acetate had to be multiplied by ca. 3 to obtain the same results. Inhibition of sexual carotenogenesis by acetate occurred normally in Phycomyces mutants that cannot use acetate as a carbon source and in mutants whose dormant spores cannot be activated by acetate. Small carboxylic acids may be signals that, independent of their ability to trigger spore germination in Phycomyces, modify metabolism and development during the sexual cycle of Phycomyces and Blakeslea, uncoupling two processes that were thought to be linked and mediated by a common mechanism.