Evaluation of salt tolerance in Nicotiana tabacum plants bearing an antisense suppressor of the proline dehydrogenase gene

We studied the stress resistance of genetically modified (GM) tobacco plants bearing an antisense suppressor of the gene for proline dehydrogenase. Such plants are characterized by elevated proline content. The progeny of the transgenic plants were shown to have elevated salt tolerance.     

Tobacco transformants expressing antisense sequence of proline dehydrogenase gene possess tolerance to heavy metals

Analysis of resistance of genetically modified tobacco plants bearing antisense suppressor of proline dehydrogenase gene and characterized with higher content of proline to elevated concentrations of heavy metals was performed. It was demonstrated that progeny of transgenic plants have high resistance to lead, nickel and cadmium ions.     

Tobacco transformants expressing antisense sequence of proline dehydrogenase gene possess tolerance to heavy metals

Analysis of resistance of genetically modified tobacco plants bearing antisense suppressor of proline dehydrogenase gene and characterized with higher content of proline to elevated concentrations of heavy metals was performed. It was demonstrated that progeny of transgenic plants have high resistance to lead, nickel and cadmium ions.     

Evaluation of Abiotic Stress Resistance in Mutated Populations of Cauliflower (Brassica oleracea var. botrytis)

An efficient in vitro screening method has been developed for cauliflower to create NEU and NMU induced mutant lines selected on hydroxyproline containing medium. Mutant lines and control plants were sub-cultured many times on maintenance medium and stored at 5°C for 2 years and then tested for salt and hydroxyproline resistance as in vitro and in vivo plants. In vitro shoot tips were also sub-cultured to media containing hydroxyproline and NaCl for 28 days and then assessed for their leaf proline content. Non-acclimated and acclimated in vivo plants were also assessed for resistance to freezing. Populations of control and selected lines were created by mass pollination and subsequently tested for their NaCl and frost resistance. Control plants had little or no NaCl or hydroxyproline resistance whilst selected plants showed varying degrees of resistance. In vitro and in vivo responses of selected lines were correlated. Leaf proline content was increased markedly in the mutant lines and the greatest proline contents occurred following NaCl stress with the most respondent line having 100-fold levels compared to the controls. Both non-acclimated and acclimated selected lines showed improved frost resistance over controls. Improvements in frost resistance were heritable but improvements in NaCl resistance were not. The results clearly demonstrated that NaCl, frost and hydroxyproline resistance were stable traits over repeated in vitro sub-cultures and prolonged low temperature storage. A complete range of mutants with single, double or triple resistance traits were produced. The level of resistance however was not necessarily correlated with the level of proline and some lines showed resistance without elevated proline. It is concluded that elevated proline is not essential for improved resistance to abiotic stress in cauliflower, but where it does occur it does improve resistance.     

Over-expression of heat shock protein gene <Emphasis Type="Italic">hsp26</Emphasis> in <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> enhances heat tolerance

In the yeast Saccharomyces cerevisiae, the molecular chaperone HSP26 has the remarkable ability to sense increases in temperature directly and can switch from an inactive to a chaperone-active state. In this report, we analyzed the effect of expression of HSP26 in Arabidopsis thaliana plants and their response to high temperature stress. The hsp26 transgenic plants exhibited stronger growth than wild type plants at 45 °C for 16 h. The chlorophyll content and chlorophyll fluorescence decreased much more in wild type than in transgenic plants. Moreover, the transgenic plants had higher proline and soluble sugar contents, and lower relative electrical conductivity and malondialdehyde contents after high temperature stress. Furthermore, we found that over-expression of HSP26 in Arabidopsis increased the amount of free proline, elevated the expression of proline biosynthetic pathway genes and therefore enhanced Arabidopsis tolerance to heat stress.     

Increased tolerance of rice to cold, drought and oxidative stresses mediated by the overexpression of a gene that encodes the zinc finger protein ZFP245

ZFP245 is a cold- and drought-responsive gene that encodes a zinc finger protein in rice. The ZFP245 protein localizes in the nucleus and exhibits trans-activation activity. Transgenic rice plants overexpressing ZFP245 were generated and found to display high tolerance to cold and drought stresses. The transgenic plants did not exhibit growth retardation, but showed growth sensitivity against exogenous abscisic acid, increased free proline levels and elevated expression of rice pyrroline-5-carboxylatesynthetase and proline transporter genes under stress conditions. Overproduction of ZFP245 enhanced the activities of reactive oxygen species-scavenging enzymes under stress conditions and increased the tolerance of rice seedlings to oxidative stress. Our data suggest that ZFP245 may contribute to the tolerance of rice plants to cold and drought stresses by regulating proline levels and reactive oxygen species-scavenging activities, and therefore may be useful for developing transgenic crops with enhanced tolerance to abiotic stress.     

In planta function of compatible solute transporters of the AtProT family

The three proline transporters of Arabidopsis thaliana (AtProTs) transport the compatible solutes proline and glycine betaine and the stress-induced compound γ-aminobutyric acid when expressed in heterologous systems. The aim of the present study was to show transport and physiological relevance of these three AtProTs in planta. Using single, double, and triple knockout mutants and AtProT-overexpressing lines, proline content, growth on proline, transport of radiolabelled betaine, and expression of AtProT genes and enzymes of proline metabolism were analysed. AtProT2 was shown to facilitate uptake of L- and D-proline as well as [(14)C]glycine betaine in planta, indicating a role in the import of compatible solutes into the root. Toxic concentrations of L- and D-proline resulted in a drastic growth retardation of AtProT-overexpressing plants, demonstrating the need for a precise regulation of proline uptake and/or distribution. Furthermore evidence is provided that AtProT genes are highly expressed in tissues with elevated proline content--that is, pollen and leaf epidermis.     

Impact of soluble sugar concentrations on the acquisition of freezing tolerance in accessions of Arabidopsis thaliana with contrasting cold adaptation – evidence for a role of raffinose in cold acclimation

In the present study the cold acclimation potential of two accessions of Arabidopsis thaliana was investigated. Significant variation was found for basic tolerance as well as the capacity to acclimate to freezing temperatures. During cold acclimation, levels of soluble sugars increased in both genotypes, but raffinose accumulation discriminated the more tolerant accession Col‐0 from C24. Concentrations of other compatible solutes such as proline and glutamine were also higher in cold‐acclimated Col‐0 than C24 plants. Changes of invertase activity during cold exposure corresponded to changes in sucrose and fructose, but not glucose concentrations and were consistent with an initial chilling response and a later decline in hexose metabolization. When vacuolar invertase was suppressed by siRNA expression, reduced sucrolytic activity resulted in elevated leaf sucrose concentration, whereas the fructose content was strongly reduced. This led to elevated freezing tolerance in the cold‐tolerant genotype Col‐0, but not in C24. The most pronounced metabolic changes in invertase‐inhibited Col‐0 plants occurred for proline and glutamine concentrations, indicating indirect metabolic effects of altered sugar concentrations.     

脯氨酸转运相关基因的研究进展

作为植物中普遍存在的一种逆境适应机制, 脯氨酸积累一直被认为是其合成和降解调控的结果。然而越来越多的研究表明, 脯氨酸转运也可能在其积累过程中起重要作用。在植物中, 有多个氨基酸转运蛋白家族, 如氨基酸通透酶家族(AAPs)、赖氨酸组氨酸转运蛋白家族(LHTs)和脯氨酸转运蛋白家族(ProTs)参与脯氨酸在各个器官间的运输。该文对参与脯氨酸运输的基因家族成员的表达模式、生理功能及表达调控进行了综述, 以期为脯氨酸运输与积累在植物抗逆方面的研究提供参考。     

Ethephon mitigates nickel stress by modulating antioxidant system,glyoxalase system and proline metabolism in Indian mustard

The role of ethylene (through application of ethephon) in the regulation of nickel (Ni) stress tolerance was investigated in this study. Ethephon at concentration of 200 µl l^?1 was applied to mustard (Brassica juncea) plants grown without and with 200 mg kg^?1 soil Ni to study the increased growth traits, biochemical attributes, photosynthetic efficiency, nutrients content, activities of antioxidants such as superoxide dismutase, ascorbate peroxidase, glutathione reductase, and glutathione peroxidase, glyoxalase systems and enhanced the proline metabolism. In the absence of ethephon, Ni increased oxidative stress with a concomitant decrease in photosynthesis, growth and nutrients content. However, application of ethephon positively increased growth traits, photosynthetic parameters, nutrients content and also elevated the generation of antioxidants enzymes and glyoxalase systems, proline production to combat oxidative stress. Plants water relations and cellular homeostasis were maintained through increased photosynthetic efficiency and proline production. This signifies the role of ethylene in mediating Ni tolerance via regulating proline production and photosynthetic capacity. Ethephon can be used as an exogenous supplement on plants to confer Ni tolerance. The results can be exploited to develop tolerance in plants via gene editing technology encoding enzymes responsible for proline synthesis, antioxidant defence, glyoxalase systems and photosynthetic effectiveness.

     

Characterization of an Arabidopsis thaliana Mutant that Has a Defect in ABA Accumulation: ABA-Dependent and ABA-Independent Accumulation of Free Amino Acids during Dehydration

In an attempt to elucidate the physiological role of ABA inseed dormancy and the adaptive response to dehydration, we isolatedan ABA-deficient mutant of Arabidopsis thaliana (L.) Heynh.which germinated in the presence of a gibberellin biosyntheticinhibitor. Genetic analysis showed this mutation is a new alleleof a recently reported locus aba2, and therefore has been designatedaba2-2. The levels of endogenous ABA in fresh and dehydratedtissues of the aba2-2 mutant were highly reduced compared tothose of wild-type plants. As a consequence, aba2-2 plants wiltand produce seeds with reduced dormancy. Dark germinated seedlingsof the aba2-2 mutant showed true leaves, which were not observedin those of the wild type, indicating that abal-2 em bryos grewprecociously during seed maturation. In the dehydrated tissuesof the wild-type plants, the levels of free proline, isoleucineand leucine were elevated to a content approximately 100-foldhigher than those in fresh tissues. In contrast to the wild-typeplants, dehydration-induced accumulation of proline was highlysuppressed in the aba2-2 mutant plants while that of leucineand isoleucine accumulated. Furthermore, exogenous applicationof ABA to wild-type plants promoted accumulation of free proline,but not leucine nor isoleucine. These results suggest that dehydration-inducedaccumulation of free leucine and isoleucine is achieved independentof ABA. (Received March 5, 1998; Accepted June 2, 1998)     

Effect of drought stress at supraoptimal temperature on polyamine concentrations in transgenic soybean with increased proline levels

The effect of drought stress at supraoptimal temperature on free proline and polyamine levels was compared in wild type and transgenic soybean (Glycine max cv. Ibis) plants having increased proline levels. Since glutamate and arginine are precursors of both proline and polyamines, it was assumed that the genetic manipulation of proline levels would also affect the polyamine levels. The proline and spermine concentrations increased, while the putrescine concentration generally decreased or did not change after the treatments in both genotypes. Following drought higher proline and lower spermine levels were detected in the transgenic plants compared to the wild type ones, which could be explained by the increased use of their common precursors for proline biosynthesis in the transgenic plants.     

Influence of Water Stress on the Vacuole/Extravacuole Distribution of Proline in Protoplasts of Nicotiana rustica

Tobacco (Nicotiana rustica) plants were stressed by addition of polyethylene glycol solution (−20 bar) to the growth medium. The proline contents and concentrations in total protoplasts, vacuoles, and extravacuolar fractions of these plants have been determined and compared with protoplasts and cell fractions of well-watered plants. As compared to the control, the stress treatment of intact plants results in a 7-fold increase of the proline content in the extravacuolar fraction while the vacuolar content was enriched only 2.6-fold. In protoplasts of control plants, a proline concentration ratio (extravacuole to vacuole) of 1 was measured. In protoplasts of stressed plants, this ratio was nearly 3. Thus, water stress seems to have an effect on a tonoplast-localized transport system for proline.     

Expression of the Vigna aconitifolia P5CSF129A gene in transgenic pigeonpea enhances proline accumulation and salt tolerance

Abiotic stress is the major limiting factor of plant growth and crop yield which can be improved by osmoprotectants. Proline acts as an osmoprotectant and plays an important role in osmotic balancing, protection of sub-cellular structures, enzymes and in increasing cellular osmolarity that provide the turgor necessary for cell expansion under stress conditions. ?1-pyrroline-5-carboxylate synthetase (P5CS), a rate-limiting enzyme in proline biosynthesis which is known for conferring enhanced salt and drought stress is subjected to feedback inhibition by proline. Therefore, in the present study, we used a mutagenized version P5CSF129A of wild P5CS which is not subjected to feedback control. Efficient in vitro transformation of embryonic structures of pigeonpea (Cajanus cajan (L.) Millsp.) was obtained using Agrobacterium tumefaciens strain LBA4404 harbouring a modified binary vector pCAMBIA 1301 carrying the hptII gene for resistance to hygromycin sulphate, GUS reporter gene, encoding β-glucuronidase, and the Vigna aconitifolia P5CSF129A genes under a constitutive 35S promoter. Embryonic structures showed blue color when tested for GUS after first cycle of antibiotic selection. Integration of T-DNA into nuclear genome of transformed plants and its sexual transmission to the progeny of the transgenic plants are confirmed by PCR amplification of 340 bp hptII, 800 bp P5CSF129A fragments and Southern blot hybridization analysis. The resultant primary transgenic plants showed more proline accumulation than their non-transformed plants. Levels of proline were also elevated in T1 transgenic plants when grown in the presence of 200 mM NaCl. In addition to their enhanced growth performance, more chlorophyll and relative water content under high salinity, these plants also had lower levels of lipid peroxidation. This suggests that overproduction of proline might play an important role against salt shock and cellular integrity.     

Glutamate kinase from Thermotoga maritima: characterization of a thermophilic enzyme for proline biosynthesis

Glutamate kinase (GK), an enzyme involved in osmoprotection in plants and microorganisms, catalyses the first and controlling step of proline biosynthesis. The proB gene encoding GK was cloned from the hyperthermophilic bacterium Thermotoga maritima and overexpressed in Escherichia coli, and the resulting protein was purified to homogeneity in three simple steps. T. maritima GK behaved as a tetramer, showing maximal activity at 83°C, and was inhibited by ADP and proline. Although T. maritima GK exhibited high amino acid similarity to the mesophilic E. coli GK, it was less dependent of Mg ions and was not aggregated in the presence of proline. Moreover, it displayed a greater thermostability and higher catalytic efficiency than its mesophilic counterpart at elevated temperatures.     

Mutant cell lines resistant to azetidine-2-carboxylic acid: alterations in the synthesis of proline from glutamic acid

Two mutant Chinese hamster lung fibroblast lines have been isolated that are resistant to the toxic proline analog L-azetidine-2-carboxylic acid. The line designated AZCA-1 has 30-fold elevated activity of pyrroline-5-carboxylate synthase and a large increase in the rate of proline production and release compared to controls. Pyrroline-5-carboxylate synthase activity is not elevated in the resistant line designated AZCA-4, but the enzyme is less sensitive to inhibition by ornithine and proline than control enzyme. Intracellular proline is elevated in AZCA-4 cells, with no change in the rate of release of proline synthesized from glutamate. Resistance to azetidine carboxylic acid in both mutant lines is attributed to the expanded intracellular proline pool that results from alterations in pyrroline-5-carboxylate synthase. These results indicate that intracellular proline levels are determined at least in part by the regulated activity of pyrroline-5-carboxylate synthase.     

Overexpression of a TFIIIA-type zinc finger protein gene ZFP252 enhances drought and salt tolerance in rice (Oryza sativa L.)

We previously identified a salt and drought stress-responsive TFIIIA-type zinc finger protein gene ZFP252 from rice. Here we report the functional analysis of ZFP252 using gain- and loss-of-function strategies. We found that overexpression of ZFP252 in rice increased the amount of free proline and soluble sugars, elevated the expression of stress defense genes and enhanced rice tolerance to salt and drought stresses, as compared with ZFP252 antisense and non-transgenic plants. Our findings suggest that ZFP252 plays an important role in rice response to salt and drought stresses and is useful in engineering crop plants with enhanced tolerance to salt and drought stresses.     

Transformation with a gene for myo-inositol O-methyltransferase enhances the cold tolerance of Arabidopsis thaliana

In this study, we report a function of myo-inositol-O-methyltransferase (Imt1) in response to low temperature stress using transgenic Arabidopsis thaliana. Imt1 gene was constructed identical to the Imt1 gene from a halophyte Mesembryanthemum crystallinum. After cold stress, the Imt1 transgenic plants exhibited stronger growth than the wild type plants. The elevated cold tolerance of the Imt1 over-expressing plants was confirmed by the lower electrolyte leakage and accumulation of malondialdehyde, but higher proline and soluble sugar contents in transgenic than wild type plants.     

Effect of disabling bacteroid proline catabolism on the response of soybeans to repeated drought stress

The aim of this study is to evaluate the contribution of bacteroidproline catabolism as an adaptation to drought stress in soybeanplants. To accomplish this, soybeans (Glycine max L. Merr.)were inoculated with either a parental strain of Bradyrhizobiumjaponicum which was able to catabolize proline, or a mutantstrain unable to catabolize proline. A large strain-dependentdifference in nodule number and size was observed. In orderto separate inoculant-dependent effects on nodulation from effectson bacteroid proline catabolism, plants inoculated with eachstrain were only compared to other plants inoculated with thesame strain, thus removing the observed inoculant-dependentdifferences in nodulation as a bar to interpretation of theresults. This experimental design allowed a comparison of thedrought penalty on yield for plants with parental bacteroidsand for plants with mutant bacteroids. The two results werethen compared to each other in order to evaluate the impactof the ability of bacteroids to catabolize proline on the responseto drought stress. When water stress was mild, soybean plants inoculated with bacteriaunable to catabolize proline suffered twice the percentage decreasein seed yield as did plants inoculated with bacteria able tocatabolize proline. However, when stress was severe there wasno significant effect of the ability of bacteroids to catabolizeproline on drought imposed decrease in seed yield. These resultssuggest that increasing the oxidative flux of proline in bacteroidsmight provide an agronomically significant yield advantage whenstress is modest, but that severe drought stress would probablyoverwhelm this yield benefit. Key words: N₂-fixation, proline dehydrogenase, drought stress