Relationship between cyclic AMP level and accumulation of carotenoid pigments in Neurospora crassa

Dark grown mycelial cells of Neurospora crassa bearing mutant genes crisp-I or frost and having a decreased level of cyclic adenosine 3,5-monophosphate contained more carotenoid pigments than the cells with wild alleles of these genes. A transient decrease of the cyclic AMP occurred following photoinduction of carotenoid synthesis during its lag-period. Its intensity correlated with the increase of carotenoid pigment level due to photoinduction. No correlation in the content of cyclic guanosine 5-phosphate with both constitutive level of carotenoids and its photoinduced increase was observed.     

A study of the nitrate and nitrite discharge from the mutant cells of Neurospora crassa lacking nitrate and nitrite reductase activities

The Neurospora crassa mutants nit-2 (lacking both nitrite and nitrate reductases) and nit-6 (lacking nitrite reductase) grown in the medium with ammonium chloride as a sole source of nitrogen discharged nitrate and nitrite ions into culture medium. For nit-2, the content of nitrate exceeded that of nitrite in both the homogenate of fungal cells and growth medium; moreover, this difference was more pronounced in the culture medium. Unlike nit-2, the content of nitrite in the cultivation medium of the nit-6 mutant irradiated with visible light for 30 min during the lag phase of carotenogenesis photoinduction displayed a trend of increase as compared with the dark control. Further (to 240 min) irradiation of cells, i.e., irradiation during biosynthesis of carotenoid pigments, leveled this difference.     

Photoinduction of carotenoid biosynthesis in Gibberella fujikuroi

Abstract Carotenoid biosynthesis is photoinducible in Gibberella fujikuroi , an organism used in the fermentive production of the gibberellins. The light exposed needed for an appreciable response is higher than those required for other fungi, such as Fusarium aquaeductuum and Neurospora crassa , under identical conditions. Time course of the accumulation of carotenoids is very similar to that for Fusarium aquaeductuum . Growth in one of the culture media used increases the carotenoid content in the dark but does not affect photoinduction. Three mutants with enhanced carotenoid synthesis in the dark show the same response to light as the wild-type. Our results suggest that photoinduction of carotenogenesis in Gibberella fujikori is independent of the carotenoid content already present in dark-grown cultures.     

Concentration and metabolism of cyclic AMP during the early stages of hepatoma 22a growth]

Intracellular levels of cyclic AMP (cAMP), adenylate cyclase, and cAMP-phosphodiesterase activities at lag-period, exponential and stationary growth phases of hepatoma 22a were determined. It was shown that the transition of tumour cells from the lag-period to the exponential phase of growth was accompanied by the two-fold decrease of intracellular cAMP level on account of drastic activation of cAMP phosphodiesterase. Subsequently the cAMP level lowered more slowly until the cells entered the stationary phase of growth. In view of the fact that the adenylate cyclase activity failed to change at different growth phases of hepatoma 22a, it seems very proballe that the rise of cAMP phosphodiesterase activity could be a signal for the exit of tumour cells from the lag-period and their entrance into the mitotic cycle.     

Digital image processing-an alternate tool for monitoring of pigment levels in cultured cells with special reference to green alga Haematococcus pluvialis

A method for analyzing carotenoid content in Haematococcus pluvialis, a green alga was developed using digital image processing (DIP) and an artificial neural network (ANN) model. About 90 images of algal cells in various phases of growth were processed with the tools of DIP. A good correlation of R(2)=0.967 was observed between carotenoid content as estimated by analytical method and DIP. Similar correlation was also observed in case of chlorophyll. Since the conventional methods of carotenoid estimation are time consuming and result in loss of pigments during analysis, DIP method was found to be an effective online monitoring method. This method will be useful in measurement of pigments in cultured cells.     

Untersuchungen über die lichtabhängige Carotinoidsynthese

Summary In conidia-free submerged cultures of Neurospora crassa the various steps of light-dependend carotenoid synthesis were studied. The mycelium produces small amounts of pigments even in the dark. The data obtained are in part in good agreement with earlier results of Zalokar and show that the light-induced pigment production starts after a lag-period of 40 min and is finished after 6–8 hours; the photoreaction is saturated by relatively small dosages. In contrast to Zalokar's results we found that for photoinduction the reciprocity law holds true. The photoreaction is saturated by a certain amount of light independently of the light-intensity. Actidion (Cycloheximide) inhibits carotenoid synthesis completely when added before or up to 10 min after the onset of illumination, whereas addition 60 min after illumination already has no effect. Comparison with the results obtained with Fusarium shows that the reaction mechanism is very similar in both organisms, though the various steps seem to proceed faster in Neurospora.

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Herrn Prof. Dr. L. Brauner in Verehrung und Dankbarkeit zum 70. Geburtstag gewidmet.     

A study of the nitrate and nitrite discharge from the mutant cells of <Emphasis Type="Italic">Neurospora crassa</Emphasis> lacking nitrate and nitrite reductase activities

The Neurospora crassa mutants nit-2 (lacking both nitrite and nitrate reductases) and nit-6 (lacking nitrite reductase) grown in the medium with ammonium chloride as a sole source of nitrogen discharged nitrate and nitrite ions into culture medium. For nit-2, the content of nitrate exceeded that of nitrite in both the homogenate of fungal cells and growth medium; moreover, this difference was more pronounced in the culture medium. Unlike nit-2, the content of nitrite in the cultivation medium of the nit-6 mutant irradiated with visible light for 30 min during the lag phase of carotenogenesis photoinduction displayed a trend of increase as compared with the dark control. Further (to 240 min) irradiation of cells, i.e., irradiation during biosynthesis of carotenoid pigments, leveled this difference.     

Isolation of new white collar mutants of Neurospora crassa and studies on their behavior in the blue light-induced formation of protoperithecia

White collar (wc) mutants of Neurospora crassa are thought to be regulatory mutants blocked in the photoinduction of carotenogenesis. Eight new wc mutants have been isolated after UV mutagenesis; their morphology and linear growth rate are not altered, although blue light-induced carotenogenesis is completely blocked. All of the wc mutations fall into two complementation groups corresponding to the already-known wc-1 and wc-2 loci. It is shown that the wc mutations impair another blue light effect, the photoinduction of protoperithecia formation, as well as the low constitutive production of protoperithecia in the dark. These effects are not due to the lack of carotenoids since the albino mutants show a normal sexual development. The pleiotropic effects of the mutations in the wc genes indicate that they play a key role in the mechanisms of regulation of the blue light-induced responses of N. crassa.     

Production of isoprenoid compounds in the facultative methylotroph Protomonas extorquens

Screening of a strain which contained a large amount of ubiquinone Q-10 and a variety of isoprenoid compounds using different culture conditions and mutations was carried out.Protomonas extorquens TK 0045, which was found to contain carotenoid pigments, Hop-22(29)-ene, and Hopan-22-ol, was selected on the basis of cell yield and the content of ubiquinone Q-10. The contents of ubiquinone and sterols increased as the age of the culture increased, and reached a maximum level during the stationary phase.The contents of ubiquinone, sterols and carotenoid pigments, and ubiquinone homologs produced by P. extorquens TK 0045 were varied using mutagenesis. Mutants that had increased or decreased contents of carotenoid pigments were obtained with a high frequency. Most mutants had varying contents of other isoprenoid compounds. The ubiquinone homologs obtained by mutagenesis varied with a high frequency, and mutants which possessed increased levels of ubiquinone Q-9, Q-11 or Q-12 were isolated. However, the major ubiquinone component in these mutants was Q-10 the same as that in the wild strain. The production of ubiquinone was increased considerablyby repeated mutagenesis, with the content of ubiquinone produced by the third generation mutant (strains HB-5) being approximately 3.3 mg·g dry cell⁻¹ (2.5 times that of the wild strain). The acquisition of mutants exhibiting altered synthesis of carotenoid pigments would be useful for increasing the content of ubiquinone Q-10 in bacterial cells.     

Inherent immunological parameters in kutum,Rutilus frisii,larvae obtained from the adult females with orange and green eggs

Kutum (Rutilus frisii) displays different egg colours during the spawning season, mostly due to the presence of carotenoid pigments. In this study, the authors investigated the relationship between the egg colour and muscle lipid of adult female kutum and the correlation between egg carotenoid content and the immune parameters of larvae. The results from this study highlighted the positive influence of egg carotenoid on post-fertilization stages, such as elevating the innate immune parameters in larvae.     

Carotenoid deficiency triggers autophagy in the model green alga Chlamydomonas reinhardtii

All aerobic organisms have developed sophisticated mechanisms to prevent, detect and respond to cell damage caused by the unavoidable production of reactive oxygen species (ROS). Plants and algae are able to synthesize specific pigments in the chloroplast called carotenoids to prevent photo-oxidative damage caused by highly reactive by-products of photosynthesis. In this study we used the unicellular green alga Chlamydomonas reinhardtii to demonstrate that defects in carotenoid biosynthesis lead to the activation of autophagy, a membrane-trafficking process that participates in the recycling and degradation of damaged or toxic cellular components. Carotenoid depletion caused by either the mutation of phytoene synthase or the inhibition of phytoene desaturase by the herbicide norflurazon, resulted in a strong induction of autophagy. We found that high light transiently activates autophagy in wild-type Chlamydomonas cells as part of an adaptation response to this stress. Our results showed that a Chlamydomonas mutant defective in the synthesis of specific carotenoids that accumulate during high light stress exhibits constitutive autophagy. Moreover, inhibition of the ROS-generating NADPH oxidase partially reduced the autophagy induction associated to carotenoid deficiency, which revealed a link between photo-oxidative damage, ROS accumulation and autophagy activation in Chlamydomonas cells with a reduced carotenoid content.     

Carotenoid deficiency triggers autophagy in the model green alga Chlamydomonas reinhardtii

All aerobic organisms have developed sophisticated mechanisms to prevent, detect and respond to cell damage caused by the unavoidable production of reactive oxygen species (ROS). Plants and algae are able to synthesize specific pigments in the chloroplast called carotenoids to prevent photo-oxidative damage caused by highly reactive by-products of photosynthesis. In this study we used the unicellular green alga Chlamydomonas reinhardtii to demonstrate that defects in carotenoid biosynthesis lead to the activation of autophagy, a membrane-trafficking process that participates in the recycling and degradation of damaged or toxic cellular components. Carotenoid depletion caused by either the mutation of phytoene synthase or the inhibition of phytoene desaturase by the herbicide norflurazon, resulted in a strong induction of autophagy. We found that high light transiently activates autophagy in wild-type Chlamydomonas cells as part of an adaptation response to this stress. Our results showed that a Chlamydomonas mutant defective in the synthesis of specific carotenoids that accumulate during high light stress exhibits constitutive autophagy. Moreover, inhibition of the ROS-generating NADPH oxidase partially reduced the autophagy induction associated to carotenoid deficiency, which revealed a link between photo-oxidative damage, ROS accumulation and autophagy activation in Chlamydomonas cells with a reduced carotenoid content.     

Untersuchungen über die lichtabhängige Carotinoidsynthese

Summary The effect of dithionite, hydroxylamine and hydrogen peroxide on the light dependent carotenoid synthesis in Fusarium aquaeductuum has been investigated in order to find indications whether redox reactions are involved in the first steps of photoinduction.Addition of dithionite (5·10^-3 M/l) to the mycelium some time after illumination prevented carotenoid synthesis completely; however, when dithionite was removed after 30 min by washing the mycelium with buffer, Fusarium synthesized nearly the same amounts of carotenoids as it does without dithionite incubation. To prevent this direct effect on biosynthesis of pigments, the mycelium was treated for only 30 min at different times before and after a short illumination with buffered dithionite solution. When dithionite was present during the illumination or was applied up to 21/2 min after the lights had been switched off, no carotenoids were synthesized at all. The inhibitory effect of dithionite gradually decreased during a 171/2 min period following the end of the illumination time. After this period treatment with dithionite showed no irreversible influence whatsoever on the carotenoid synthesis. Essentially the same results were obtained when hydroxylamine (10^-2 M/l, freshly prepared) was used as a reducing agent.On the other hand incubation with buffered hydrogen peroxide solution (10^-2 to 10^-1 M/l) in the dark simulated the effect of illumination in inducing carotenoid synthesis. Both the kinetics of the pigment production and the inhibition by cycloheximide suggest that treatment with hydrogen peroxide in the dark truly substitutes for photoinduction. From these results it is concluded that dithionite and hydroxylamine are capable of reducing as yet unknown photooxidation products which are produced during illumination, as proposed by several authors. This oxidative action of light can be simulated by incubation of the mycelium with hydrogen peroxide.Furthermore results are presented which suggest that in Fusarium light acts in two ways: 1. it induces a de novo protein synthesis giving rise to an enhanced carotenoid production (light dependent synthesis) and 2. it inhibits a carotenoid synthesizing system (dark synthesis) which functions with low activity in the mycelium in the dark.     

CAROTENOID INTERCONVERSION IN LIGHT-DARK CULTURES OF THE DINOFLAGELLATE AMPHIDINIUM KLEBSII1

The carotenoid pigments of Amphidinium klebsii cultures grown in LD 12:12 light regimes were determined in cells harvested during the log phase growth in the dark and light photoperiods. The analysis of the individual pigments revealed the presence of an endogenous redox carotenoid system involving the epoxide carotenoid diadinoxanthin and an unidentified carotenoid with the properties of a dihydroxy xanthophyll.     

Acclimation of leaf carotenoid composition and ascorbate levels to gradients in the light environment within an Australian rainforest

The influence of the growth photon flux density (PFD) on the size and composition of the carotenoid pool and the size of the reduced ascorbate pool was determined across a light gradient from the forest floor to the canopy and the forest edge of a sub-tropical rainforest in New South Wales, Australia. Nineteen plant species (most collected from multiple sites) representing a broad taxonomic range consistently possessed larger total carotenoid pools when found growing in more exposed sites. There was a significant positive correlation between β-carotene content and growth PFD and a significant negative correlation between α-carotene content and growth PFD. Neoxanthin content exhibited no significant trend while the trend in lutein content varied with mode of expression. The pigments of the xanthophyll cycle (violaxanthin, antheraxanthin and zeaxanthin) exhibited the most pronounced response to growth PFD; they comprised a much greater portion of the total carotenoid pool in high light-acclimated plants. The pool of reduced ascorbate was also several-fold greater in high light-acclimated plants. These acclimatory changes in carotenoid and ascorbate content are consistent with a need for a greater capacity to dissipate excessive absorbed light energy in high light-acclimated plants.     

Carotenoid pigments and the enhanced resistance of Pseudomonas methanolica to the action of ultraviolet radiation

The correlation was studied between the elevated resistance of Pseudomonas methanolica, a facultative methylotroph, to the bactericidal action of UV (254 nm) and the content of a pink pigment in this organism. Absorption spectra of cell extracts containing the pigment were recorded. The ethanol and acetone extracts had two absorption maxima at 420-430 and 500-510 nm, respectively, which was typical of carotenoids. The culture with the pigment and its variant without the pigment had nearly identical survival rates. Therefore, the elevated resistance of P. methanolica cells seems to stem from the activity of DNA reparation cellular systems rather than from the presence of carotenoid pigments in the cells.     

增强UV-B辐射和氮对谷子叶光合色素及非酶促保护物质的影响

以谷子(Setaria italica(L)Beauv.)为对象,从拔节期开始持续给予低氮(1.875 mmol/L)和高氮(15 mmol/L)两种氮供应条件并从抽穗期开始进行26 d两种强度(4.29、7.12 kJ·m-2·d-1)的增强UV-B辐射处理,研究了谷子叶中光合色素含量、类黄酮含量和苯丙氨酸解氨酶(PAL)活性的变化.结果表明:与高氮供应条件相比,低氮供应条件明显降低了谷子叶中光合色素含量但提高了类胡萝卜素/叶绿素含量比值;在开花期中段和灌浆期中段,高氮供应条件下谷子叶中光合色素含量对增强UV-B辐射比低氮供应条件下的谷子更敏感.从灌浆期开始到处理结束,两种影响因子对谷子叶中类黄酮含量均有显著影响,增强UV-B辐射导致谷子叶中类黄酮含量逐渐升高,且相同增强UV-B辐射强度下低氮供应条件下的谷子叶中类黄酮含量明显高于高氮供应条件下的谷子.谷子叶中PAL活性对两种影响因子的响应较类黄酮含量更加敏感,低氮供应条件使谷子叶中PAL活性明显提高.结合上述指标的相关性分析结果可知,低氮供应条件加强了处于繁殖期主要阶段的谷子叶中类黄酮的积累,并使谷子叶中的类胡萝卜素/叶绿素含量比值明显提高,进而有助于维持谷子叶中光合色素含量在增强UV-B辐射条件下的相对稳定性,对植株抵抗UV-B辐射伤害有利.     

Superoxide dismutase and catalase activities in carotenoid-synthesizing fungi Blakeslea trispora and Neurospora crassa under the oxidative stress

The addition of menadione into the medium during cultivation of Neurospora crassa in the dark activated its constitutive superoxide dismutase. Exposure to light not only activated superoxide dismutase and catalase, but also increased the content of neurosporaxanthin. Superoxide dismutase activity in the mixed (+/-) mycelium of Blakeslea trispora synthesizing beta-carotene in the dark was much lower than that in Neurospora crassa. The superoxide dismutase activity further decreased in oxidative stress. The catalase activity decreased with an increase in the content of beta-carotene. Our results indicate that neurosporaxanthin possesses photoprotective properties in Neurospora crassa. In Blakeslea trispora (+/-) fungi, this compound acts as a major antioxidant during inactivation of enzymes that detoxify reactive oxygen species.