MASSIVE ACCUMULATION OF PHYTOENE INDUCED BY NORFLURAZON IN DUNALIELLA BARDAWIL (CHLOROPHYCEAE) PREVENTS RECOVERY FROM PHOTOINHIBITION1

The effects of nanomolar to micromolar concentrations of the herbicide norflurazon were studied in Dunaliella bardawil Ben-Amotz et Avron, a β-carotene-accumulating halotolerant alga. The large amount of β-carotene which Dunaliella bardawil can contain, around 8% of the algal dry weight, is reduced to 0.2% by treatment with 100 nm norflurazon. Simultaneously, phytoene is accumulated to a similar level of about 8%. The gradual increase in phytoene content, in response to increasing norflurazon concentrations, corresponds to the decrease in β-carotene, with no evident change in other isoprenoid intermediates. Carotene-rich Dunaliella bardawil is substantially resistant to high-intensity photoinhibition. This resistance is lost in cells grown to contain low β-carotene and in the norflurazon-treated phytoene-rich cells. These observations are in agreement with the hypothesis that the accumulated β-carotene in Dunaliella bardawil protects the cells against injury by excessive irradiation.     

Production of phytoene by herbicide-treated microalgae Dunaliella bardawil in two-phase systems

In the present study we have optimized the concentration of the bleaching herbicide norflurazon to obtain Dunaliella bardawil cells able to accumulate phytoene without losing viability. The highest concentration of phytoene 10.4 g/gChl was obtained for a concentration of norflurazon of 10 microg/mL. Norflurazon-treated Dunaliella bardawil cells are able to accumulate high concentrations of phytoene if the carotenogenic pathway is stimulated, but the lack of colored carotenoids make these cells particularly sensitive to high light intensities and to UVB radiation, so other stimuli, such as nitrogen starvation, have to be used to force the accumulation of phytoene. Detailed time-course evolution of the carotenoids lutein, violaxanthin, zeaxanthin, phytene and beta-carotene and the photosynthetic pigment chlorophyll was followed upon transfer of Dunaliella bardawil cells to nitrogen starvation in presence and absence of norflurazon. The combined use of the carotenogenic pathway inhibitor norflurazon and biphasic aqueous/organic systems to force the excretion of phytoene into the culture medium has been investigated. Cells cultured in the biphasic system were viable and able to produce phytoene during 3 days. Futhermore the productivity increased from 0.14 g/gChl . h in the aqueous culture to 0.18 g/gChl . h in the biphasic system. About 15% of the total phytoene produced by Dunaliella bardawil was excreted and immediately partionated into the organic phase. The concentration of phytoene in the decane phase was 2.05 g/gChl after 72 h, this means that about 47 g of phytoene per litre of culture were in the organic phase.     

Isolation and Characterization of a Protein Associated with Carotene Globules in the Alga Dunaliella bardawil

The halotolerant alga Dunaliella bardawil accumulates very large amounts of [beta]-carotene when exposed to high light intensity. The accumulated [beta]-carotene is concentrated in small, oily globules within the chloroplast and has been suggested to protect the alga against photodamage by high irradiation (A. Ben-Amotz, A. Katz, M. Avron [1982] J Phycol 18:529-537;A. Ben-Amotz, M. Avron [1983] Plant Physiol 72: 593-597; A. Ben-Amotz, A. Shaish, M. Avron [1989] Plant Physiol 91: 1040-1043). A 38-kD protein was identified and purified from [beta]-carotene globules and was designated carotene globule protein (Cgp). Induction of Cgp occurs in parallel with [beta]-carotene accumulation in D. bardawil grown under different inductive conditions. Cgp is overproduced in a constitutive mutant strain that overproduces [beta]-carotene and is not detected in Dunaliella salina, a species that does not accumulate [beta]-carotene. Cgp production was not suppressed by norflurazon, an inhibitor of [beta]-carotene synthesis that leads to accumulation of the carotenoid precursor phytoene. Immunogold-labeling analysis by electron microscopy demonstrates that the protein is localized at the periphery of the globules. Proteolytic cleavage by trypsin enhances the coalescence and destruction of the globules, in parallel with Cgp disappearance. It is suggested that the function of Cgp is to stabilize the structure of the globules within the chloroplast.     

Stereoisomers of beta-Carotene and Phytoene in the Alga Dunaliella bardawil

Dunaliella bardawil, a halotolerant green alga, was previously shown to accumulate high concentrations of β-carotene when grown outdoors under defined conditions. The β-carotene of algae cultivated under high light intensity in media containing a high salt concentration is composed of approximately 50% all-trans β-carotene and 40% 9-cis β-carotene. We show here that the 9-cis to all-trans ratio is proportional to the integral light intensity to which the algae are exposed during a division cycle. In cells grown under a continuous white light of 2000 microeinsteins per square meter per second, the ratio reached a value of around 1.5, while in cells grown under a light intensity of 50 microeinsteins per square meter per second, the ratio was around 0.2. As previously shown, algae treated with the herbicide norflurazon accumulate phytoene in place of β-carotene. Electron micrographs showed that the phytoene is accumulated in many distinct globules located in the interthylakoid spaces of the chloroplast. Here too, two isomers are present, apparently all-trans and 9-cis phytoene, and their ratio is dependent upon the integral light intensity to which the algae are exposed during a division cycle. In the presence of norflurazon, Dunaliella bardawil grown under a light intensity of 2000 microeinsteins per square meter per second contained about 8% phytoene with a 9-cis to all-trans ratio of about 1.0. This ratio decreased to about 0.1 when the light intensity was reduced to 50 microeinsteins per square meter per second. These data suggest that the isomerization reaction which leads to the production of the 9-cis isomer occurs early in the path of carotene biosynthesis, at or before the formation of all-trans phytoene. The presence of the 9-cis isomer of β-carotene and the dependence of its preponderance on light intensity seem to be a common feature of many plant parts. Thus carrots which are exposed to minimal light contain no 9-cis isomer while sun-exposed leaves, fruits, and flowers contain 20 to 50% of the 9-cis isomer.     

Carotenoids as protective response against oxidative damage in Dunaliella bardawil

In the present work the relation between carotenoids production and cell response mechanisms to oxidative damage was studied. High light intensity and nitrogen starvation, both conditions, which may increase the oxidative damage in microalgae, significantly increased total carotenoids content in Dunaliella bardawil, the effect of N-starvation being more noticeable when acting synergetically with light on carotenoid production. S-starvation stimulated carotenoids production as much as N-starvation. The use of norflurazon, inhibitor of phytoene desaturase that blocks formation of epsilon-carotene from phytoene, caused a decrease of carotenoid content down to 5% that of the control cells incubated without the inhibitor. The decrease in the oxygen consumption rate of D. bardawil cells exposed to norflurazon suggests a connection between carotenoids desaturation and chloroplastic oxygen species dissipation processes reported in the literature for other algae. It is an indication of the carotenoids involvement in chloroplastic response mechanisms to oxidative damage.     

Season variability of iron effects on periodic culture of microalgae Dunaliella viridis Teod.

Effects of different iron concentrations (final concentrations of iron in Artari's medium: 3.7, 37.0, 74.0, and 185.0mmol·L-1) on growth rate and contents of protein, triacylglycerides, and β-carotene in Dunaliella viridis cells at cultivation in different months were investigated. It was shown that the dose-dependent effects of iron were notable for season variability. In the 1stexperimental series (October, 2007), iron at researched concentrations did not affect growth rate of culture and protein, triacylglyceride, and [3-carotene contents in cells. In experimental series conducted respectively in Novem-ber 2007, December 2007, and February 2008, the dose-dependent stimulation of microalgae growth was observed. For each of these experimental series, there were particular dose dependences of protein, triacylglyceride, and β-carotene contents in microalgae cells at cultivation on media with iron at different concentrations. Meanwhile, for all of the four experimental series conducted in different months, variability of growth rate and analyzed parameters of microalgae Dunaliella viridis as control (cultivation without iron) was shown. It is suggested that these functional differences of control cultures of microalgae in different months caused variability in the dose-dependent effects of iron in a Dunaliella viridis culture. The possibility of iron usage for increasing microalgae biomass and for enriching it by β-carotene in Dunaliella viridis culture with initial low productivity and low β-carotene content is considered.     

Plasma Membrane Sterols Are Essential for Sensing Osmotic Changes in the Halotolerant Alga Dunaliella

The halotolerant alga Dunaliella responds to hyperosmotic stress by synthesis of massive amounts of glycerol. The trigger for this osmotic response is the change in cell volume, but the mechanism that senses volume changes is not known. Preincubation of Dunaliella salina with tridemorph, a specific inhibitor of sterol biosynthesis, inhibits glycerol synthesis and volume recovery. The inhibition is associated with suppression of [14C]bicarbonate incorporation into sterols and is correlated with pronounced depletion of plasma membrane sterols. Incubation of sterol-depleted cells with cholesterol hemisuccinate restores the capacity for volume regulation in response to hyperosmotic stress. Tridemorph as well as lovastatin also inhibit volume changes that are induced by high light in Dunaliella bardawil, a species that responds to high light intensity by synthesis of large amounts of [beta]-carotene. These volume changes result from accumulation of glycerol and are associated with de novo synthesis of sterols. The major plasma membrane sterol in D. salina and the high-light-induced sterol in D. bardawil co-migrate with ergosterol on thin-layer chromatography and on reversed-phase high-performance liquid chromatography. These results suggest that the osmosensory mechanism in Dunaliella resides in the plasma membrane, and that sterols have an important role in sensing osmotic changes.     

THE WAVELENGTH DEPENDENCE OF MASSIVE CAROTENE SYNTHESIS IN DUNALIELLA BARDAWIL (CHLOROPHYCEAE)1

Dunaliella bardawil Ben-Amotz & Avron accumulates high concentrations of β-carotene when grown under high light intensity. The β-carotene is composed mainly of 9-cis and all-trans β-carotene. Accumulation of β-carotene and an increase in the ratio of the 9-cis to the all-trans isomer are strongly dependent on the light intensity under which the algae are cultivated but are independent of light quality within the photosynthetically active radiation range. Cells grown under continuous red (>645 nm) or white light of 500 W·m^?2 reach a value of about 32 pg β-carotene·cell^?1 and a ratio of 9-cis to all-trans β-carotene of around 2, whereas cells grown under low red or white light intensity of 25 W·m^?2 contain about 3 pg·cell^?1 and a ratio of isomers of around 0.3.     

Abstracts of papers read at the Winter Meeting, 1962

The effect of a range of inhibitors on the carotenoid biosynthetic pathway of the microalga Haematococcus pluvialis has been studied during normal growth and during the induction of astaxanthin synthesis. Diflufenican and norflurazon had similar effects and resulted in the almost complete inhibition of secondary carotenoid synthesis together with a build up of the acyclic carotenoid precursor, phytoene. In contrast, the inhibitor CPTA blocked cyclisation of lycopene and was seen to act differentially on the β- and ?-cyclases. Both diphenylamine and 1-aminobenzotriazole had the effect of blocking the synthesis of astaxanthin and the other secondary carotenoids by preventing the introduction of oxygen functions. As a direct result treated cells accumulated large levels of β-carotene instead. Selective use of inhibitors of carotenogenesis demonstrated that the accumulated lycopene and β-carotene could act as a precursor for astaxanthin synthesis.     

ACCUMULATION OF β-CAROTENE IN HALOTOLERANT ALGE: PURIFICATION AND CHARACTERIZATION OF β-CAROTENE-RICH GLOBULES FROM DUNALIELLA BARDAWIL (CHLOROPHYCEAE)1

Dunaliella bardawil Ben-Amotz & Avron, but not most other Dunaliella species, has a unique property of being able to accumulate, in addition to glycerol, large amounts of β-carotene when cultivated under appropriate conditions. These include high light intensity, a high sodium chloride concentration, nitrate deficiency and extreme temperatures. Under conditions of maximal carotene accumulation D. bardawil contains at least 8% of its dry weight as β-carotene while D. salina grown under similar conditions contains only about 0.3%. Electron micrographs of D. bardawil grown under conditions of high β-carotene accumulation show many β-carotene containing globules located in the interthylakoid spaces of the chloroplast. The same algae grown under conditions where β-carotene does not accumulate, contain few to no β-carotene globules. The β-carotene-rich globules were released from the algae into an aqueous medium by a two-stage osmotic shock technique and further purified by centrifugal ion on 10% sucrose. The isolated purified globules were shown by electron microscopy to be free of significant contamination and composed of membrane-free osmiophilic droplets with an average diameter of 150 nm. Reversed phase high performance liquid chromatography of a total pigment extract of the cells revealed the presence of β-carotene as the major pigment, together with chlorophylls a and b, α-carotene and the xanthophylls lutein, neoxauthin and zeaxanthin. β-Carotene accounted for essentially all the pigment in the purified globules. Analysis of the algal and globule β-carotene fractions by HPLC showed that the β-carotene was composed of approximately equal amounts of all-trans β-carotene and of its 9-cis isomer. Intact D. bardawil cells contained on a dry weight basis about 30% glycerol, 30% protein, 18% lipid, 11% carbohydrate, 9%β-carotene and 1% chlorophyll. The β-carotene globules were composed of practically only neutral lipids, more than half of which was β-carotene. It is suggested that the β-carotene globules may serve to protect D. bardawil against injury by the high intensity irradiation to which this alga is usually exposed in nature.     

不同品系杜氏藻的多相特征研究

杜氏藻(Dunaliella)是一类独特的嗜盐单细胞真核微藻,为对该藻不同地理来源各品系间的特征进行总结及分类鉴定,挖掘特色品系,研究搜集国内外20株不同品系的杜氏藻,利用PCR扩增内部转录间隔区(ITS)和细胞色素C氧化酶(cox2-3)基因,生物信息学软件构建系统发育树对其进行分子鉴定;形态学方法对其显微结构进行观察,利用生理生化研究方法对杜氏藻盐胁迫下的4个代表性指标(最大光合效率、中性脂含量、β-胡萝卜素含量和3-磷酸甘油磷酸酶活性)进行了测定。结果表明, 20株供试藻均属杜氏藻属, ITS和cox2-3的系统发育结果相似,均聚为两大簇,各品系间亲缘关系较为接近;成熟期的D13细胞最大, D14细胞最小并呈长颈形,颜色以绿色或黄绿色为主,鞭毛和眼点各异; D6和D10生长周期短, D18耐盐性最强; D7最大光合效率最高, D6和D18中性脂干重最高, D11的β-胡萝卜含量最高, D7的3-磷酸甘油磷酸酶活性最强。研究结果可为国内外杜氏藻资源的分类鉴定、特色资源的保护、开发与利用奠定基础。     

Contrasting effects of UV-A and UV-B on photosynthesis and photoprotection of beta-carotene in two Dunaliella spp

Photosynthetic and antioxidant responses following exposure to either ultraviolet-A or ultraviolet-B were contrasted in two species of the unicellular green alga, DUNALIELLA: Species selection was based on the ability of Dunaliella bardawil (UTEX 2538) to accumulate inter-thylakoid beta-carotene when subjected to environmental stress while Dunaliella salina (UTEX 200) lacks this ability. Cells were cultured in high and low levels of visible light (150 and 35 micro mol photons m(-2 )s(-1), respectively) and then either ultraviolet-A (320-400 nm) or ultraviolet-B (290-320 nm) was added to visible light for 24-h exposure. A potassium chromate solution was found to be an ideal screen for removal of ultraviolet-A and ultraviolet-C from ultraviolet-B radiation. There were no significant changes in photosynthetic or antioxidant parameters following exposure to ultraviolet-B. Ultraviolet-A exposure significantly decreased photosynthetic parameters (>70% decrease in Fv/Fm and the ratio of light-limited to light-saturated photosynthesis in low beta-carotene cells) and resulted in 50% increases in ascorbate peroxidase activity and ascorbate concentrations. The results suggest exposure to ultraviolet-A (but not ultraviolet-B) directly affects photosynthesis, observed as a loss of photosystem II electron transport efficiency and increased radical formation. This research indicates that the accumulated beta-carotene in D. bardawil prevents UV-related photosynthetic damage through blue-light/ultraviolet-A absorption (supported by trends observed for antioxidant enzyme responses).     

Predictive modeling of β-carotene accumulation by Dunaliella salina as a function of pH,NaCI, and irradiance

Predictive modeling of β-carotene accumulation by Dunaliella salina as a function of NaCI, pH, and irradiance was studied. Modified Logistic, Gompertz, Schnute, Richards, and Stannard models were fitted to describe β-carotene accumulation by the alga under various environmental conditions. Lag time (λ, days), maximum accumulation (A, pg/cell), and the maximum production rate (μ, 1/day) for β-carotene accumulation were calculated by modified Logistic and Gompertz models. Values of λ, A, and μ for β-carotene accumulation varied between 0.26 and 20.14 days, 57.48 to 198.76 pg β-carotene/cell, and 1.80 to 3.68 1/day, respectively. Results revealed that Logistic and Gompertz models could be used to describe the accumulation of β-carotene by D. salina as a function of salt concentrations, pH, and irradiance. The highest asymptotic value was predicted from Logistic and Gompertz models at pH 9.0, 48 kerg/(cm² s) light intensity, and 20% NaCl concentration.     

达草灭对橙色大白菜愈伤组织中类胡萝卜素含量的影响

依据橙色大白菜的愈伤组织呈现橙色,而普通大白菜的愈伤组织呈现浅黄色这一现象,以橙色大白菜‘金冠1号’和普通大白菜‘秦白2号’培养的愈伤组织为材料,在培养基中添加0．1mmol．L-1的八氢番茄红素脱氢酶抑制剂达草灭分别处理5、10、20和40d。用HPLC法测定处理后的愈伤组织中各种类胡萝卜素含量的结果表明：‘秦白2号’愈伤组织中以β-胡萝卜紊为主,‘金冠1号’愈伤纽织中的类胡萝卜以番茄红素和β-胡萝卜素为主,且类胡萝卜素总含量比‘秦白2号’高出10．4倍;随着达草灭处理时间的延长,愈伤组织的颜色逐渐变白,其中番茄红素和β-胡萝卜素的含量逐渐下降,而八氢番茄红素的含量则逐渐升高,至处理40d时,两品种的愈伤组织中积累的八氢番茄红索差异不明显。据此,推论橙色大白菜中类胡萝卜素的积累并不是由于类胡萝卜素生物合成能力的提高引起的。     

Effect of salinity on the quantity and quality of carotenoids accumulated by Dunaliella salina (strain CONC-007) and Dunaliella bardawil (strain ATCC 30861) Chlorophyta

Dunaliella salina and D. bardawil are well-known microalgae accumulating high levels of beta-carotene under growth-limiting conditions. In both taxa, this pigment is primarily composed of the isomers 9-cis and all-trans. The 9-cis beta-carotene occurs only in natural sources and is the most attractive from a commercial point of view. The conditions that enhance the preferred accumulation of 9-cis beta-carotene in D. salina are controversial and they have not been well established yet. This study examined the effect of salinity on the quantity and quality of total carotenoids and beta-carotene isomers accumulated by D. salina (strain CONC-007) and D. bardawil (strain ATCC 30861) grown in two media with different nutritional compositions (PES and ART) and at salt concentrations of 1M, 2M and 3M NaCl. Total carotenoids were determined by spectrophotometry and beta-carotene isomers, by HPLC. The highest carotenoid contents per cell were obtained at 2M NaCl in both taxa. In both media, an increase of the 9-cis/all-trans beta-carotene ratio was observed in D. bardawil when the salt concentration increased, with a maximum value of 2.6 (in ART medium at 3M NaCl). In D. salina this ratio did not exhibit the same pattern, and the salt concentrations for maximal ratios were different in both media. The highest ratio obtained for this strain was 4.3 (in ART medium at 2M NaCl).     

Role of carotene in the rapid turnover and assembly of photosystem II in Chlamydomonas reinhardtii

Inhibitors of the phytoene desaturase in carotene biosynthesis were tested in the enhanced rapid turnover of the D1 protein of photosystem II in high light exposure of Chlamydomonas reinhardtii cells. After 1 h high light on heterotrophically grown cells in the presence of norflurazon or fluridone, photosynthesis activity in vivo and PS II activity in vitro is lost. The D1 protein has disappeared. PS I activity is not affected, nor is the D2 protein. It is concluded that β-carotene is essential for the assembly of the D1 protein into functional photosystem II. It is suspected that bleaching of β-carotene in the reaction center of PS II by high light destabilizes the structure and triggers the degradation of the D1 protein.     

Photoinduction of Massive beta-Carotene Accumulation by the Alga Dunaliella bardawil: Kinetics and Dependence on Gene Activation

The massive accumulation of β-carotene by the halotolerant micro alga Dunaliella bardawil, in response to high light intensity and several other environmental factors, has been studied so far under different sets of fixed conditions. To determine the kinetics and characteristics of the induction of β-carotene accumulation, cells continuously grown under white light of approximately 27 microeinsteins per square meter per second were exposed to light of approximately 1650 microeinsteins per square meter per second. The exposed cells accumulate β-carotene in two stages: the first stage, lasting for 24 hours, starts shortly after exposure, whereas the second stage starts concomitantly with the onset of the stationary phase and persists until the cells collapse. Actinomycin D, chloramphenicol, or cycloheximide added to low-illuminated cultures abolish the subsequent induction of β-carotene accumulation by high light intensity. These results, together with the early exponential kinetics of accumulation, point to the role of gene activation in the process. In vivo labeling of proteins and in vitro translation of poly(A)⁺ mRNA revealed several pronounced differences between low-illuminated and high-illuminated cells. A strongly light-induced protein of approximately 55 kilodaltons, as well as other light-induced proteins could possibly fulfill a carotenogenic function.     

Season variability of iron effects on periodic culture of microalgae Dunaliella viridis Teod.

Effects of different iron concentrations (final concentrations of iron in Artari’s medium: 3.7, 37.0, 74.0, and 185.0 mmol·L⁻¹) on growth rate and contents of protein, triacylglycerides, and β-carotene in Dunaliella viridis cells at cultivation in different months were investigated. It was shown that the dose-dependent effects of iron were notable for season variability. In the 1^st experimental series (October, 2007), iron at researched concentrations did not affect growth rate of culture and protein, triacylglyceride, and β-carotene contents in cells. In experimental series conducted respectively in November 2007, December 2007, and February 2008, the dose-dependent stimulation of microalgae growth was observed. For each of these experimental series, there were particular dose dependences of protein, triacylglyceride, and β-carotene contents in microalgae cells at cultivation on media with iron at different concentrations. Meanwhile, for all of the four experimental series conducted in different months, variability of growth rate and analyzed parameters of microalgae Dunaliella viridis as control (cultivation without iron) was shown. It is suggested that these functional differences of control cultures of microalgae in different months caused variability in the dose-dependent effects of iron in a Dunaliella viridis culture. The possibility of iron usage for increasing microalgae biomass and for enriching it by β-carotene in Dunaliella viridis culture with initial low productivity and low β-carotene content is considered.     

EFFECT OF LOW TEMPERATURE ON THE STEREOISOMER COMPOSITION OF β-CAROTENE IN THE HALOTOLERANT ALGA DUNALIELLA BARDAWIL (CHLOROPHYTA)1

Dunaliella bardawil Ben-Amotz & Avron, a β-carotene-accumulating halotolerant alga, was analyzed for the effect of growth temperatures on its pigment content and on the stereoisomeric composition of β-carotene by the use of advanced liquid chromatography and photodiode array detection. Decreasing culture temperature from 30° to 10°C increased the β-carotene content twofold and the ratio of 9-cis to all-trans β-carotene fourfold, with no significant changes in the other cell pigments. The variation of total β-carotene content by temperature was correlated with the integral irradiance received by the algal culture during a cell division cycle, whereas the 9-cis stereoisomer increased over the amount expected by that integration. The massive accumulation of 9-cisβ-carotene within the β-carotene globules is interpreted as indicating that the oily 9-cis stereoisomer protects against the crystallization of all-trans β-carotene at low temperatures.     

The induction of salt stress tolerance by propyl gallate treatment in green microalga <Emphasis Type="Italic">Dunaliella bardawil</Emphasis>, through enhancing ascorbate pool and antioxidant enzymes activity

The effect of propyl gallate (PG), a synthetic antioxidant, on antioxidant responses and salinity tolerance was investigated in the cells of the green microalga, Dunaliella bardawil. Algal suspensions grown at three salinity levels of 1, 2, and 3 M NaCl were incubated with 1 mM of PG. The number of cells was significantly lower in all PG-treated cells compared to untreated controls. Despite PG-induced cell death, the fresh weight of all PG-treated cells was considerably higher than controls. PG-treated cells had enhanced antioxidant capacity because of increased levels of Chlorophyll a, β-carotene, reduced ascorbate, protein, and enzymatic activities, but accumulated lower levels of malonyldialdehyde and hydrogen peroxide compared to untreated cells. The results suggest that PG acts as a signal molecule both directly by reducing of free radical oxidants and indirectly by augmenting ascorbate pool levels, β-carotene production, and antioxidant enzymes activity to boost the capacity of antioxidant systems and radical oxygen species scavenging. Therefore, induction of salt stress tolerance by PG in D. bardawil is associated with metabolic adjustments through activation or synthesis of both enzymatic and non-enzymatic molecules involved in antioxidant systems.