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1.
Plant Sci ; 322: 111348, 2022 Sep.
Article in English | MEDLINE | ID: mdl-35750294

ABSTRACT

Increased synthesis of H2O2 is observed during the initiation of fruit ripening. However, its association with plant cell processes triggering the maturation of fruit has not yet been demonstrated. The aim of this work is to investigate whether H2O2 participates in the tomato ripening process and particularly through its association with the ethylene signaling pathway. The experiments were carried out with two ethyl methanesulfonate mutant lines of Micro-Tom tomato deficient in GDP-L-galactose phosphorylase activity and displaying lower ascorbic acid content than the corresponding parental genotype (i.e. wild type). Plants were subjected to a high irradiance (HI) treatment to stimulate H2O2 synthesis. HI treatment enhanced H2O2 production and reduced the timing of fruit ripening in both mutants and wild-type fruits. These results could be linked to an increase of the expression of H2O2-related genes and changes in the expression of ethylene-related genes. The fruit H2O2 production increased or decreased after applying the treatments that induced ethylene synthesis or blocked its action, respectively. The results presented in this work give an evidence of the association of redox and hormonal components during fruit ripening in which H2O2 participates downstream in the events regulated by ethylene.


Subject(s)
Solanum lycopersicum , Ethylenes/metabolism , Fruit/genetics , Fruit/metabolism , Gene Expression Regulation, Plant , Hydrogen Peroxide/metabolism , Solanum lycopersicum/genetics , Solanum lycopersicum/metabolism , Plant Proteins/genetics , Plant Proteins/metabolism
2.
J Sci Food Agric ; 102(2): 531-539, 2022 Jan 30.
Article in English | MEDLINE | ID: mdl-34143503

ABSTRACT

BACKGROUND: Chilling injury (CI) is a physiological disorder that results in a limitation for cold storage (CS) of many fruits and vegetables. The low temperature-induced changes in the properties and composition of cell membranes are involved in the response to chilling temperature and in the mechanism of CI and tolerance. RESULTS: We compared the changes in the lipid composition by gas chromatography-mass spectrometry before, immediately after CS, as well as during a 3-day subsequent period, of tomato fruits with different chilling-sensitivity: Micro-Tom (tolerant) and Minitomato (susceptible). The changes in linolenic acid content, double bond index and digalactosyldiacylglycerol/monogalactosyldiacylglycerol ratio (DGDG/MGDG) showed membrane fluidity adjustment, depending on the temperature. By a database search, we identified 18 membrane-bound fatty acid desaturase (FAD) genes and five DGDG synthases (DGD) genes that phylogenetically clustered into four and two subfamilies, respectively. The FAD and DGD genes were differentially expressed in response to CS, as determined by quantitative reverse transcriptase-polymerase chain reaction analysis. CONCLUSION: The data strongly suggest that reversion of CS-induced changes during the recovery period is important for the proper function of the membrane and tolerance to postharvest CI in tomato fruit. © 2021 Society of Chemical Industry.


Subject(s)
Fruit/chemistry , Galactolipids/chemistry , Solanum lycopersicum/chemistry , Cold Temperature , Food Handling , Food Storage , Gas Chromatography-Mass Spectrometry
3.
New Phytol ; 231(1): 365-381, 2021 07.
Article in English | MEDLINE | ID: mdl-33826751

ABSTRACT

Moniliophthora perniciosa causes witches' broom disease of cacao and inflicts symptoms suggestive of hormonal imbalance. We investigated whether infection of the tomato (Solanum lycopersicum) model system Micro-Tom (MT) by the Solanaceae (S)-biotype of Moniliophthora perniciosa, which causes stem swelling and hypertrophic growth of axillary shoots, results from changes in host cytokinin metabolism. Inoculation of an MT-transgenic line that overexpresses the Arabidopsis CYTOKININ OXIDASE-2 gene (35S::AtCKX2) resulted in a reduction in disease incidence and stem diameter. RNA-sequencing analysis of infected MT and 35S::AtCKX2 revealed the activation of cytokinin-responsive marker genes when symptoms were conspicuous. The expression of an Moniliophthora perniciosa tRNA-ISOPENTENYL-TRANSFERASE suggests the production of isopentenyladenine (iP), detected in mycelia grown in vitro. Inoculated MT stems showed higher levels of dihydrozeatin and trans-zeatin but not iP. The application of benzyladenine induced symptoms similar to infection, whereas applying the cytokinin receptor inhibitors LGR-991 and PI55 decreased symptoms. Moniliophthora perniciosa produces iP that might contribute to cytokinin synthesis by the host, which results in vascular and cortex enlargement, axillary shoot outgrowth, reduction in root biomass and an increase in fruit locule number. This strategy may be associated with the manipulation of sink establishment to favour infection by the fungus.


Subject(s)
Agaricales , Cacao , Solanum lycopersicum , Cytokinins , Solanum lycopersicum/genetics , Phytoplasma Disease , Plant Diseases
4.
Rev. Ciênc. Agrovet. (Online) ; 20(4): 271-277, 2021. tab, graf
Article in Portuguese | VETINDEX | ID: biblio-1488474

ABSTRACT

O déficit hídrico é um dos principais fatores limitantes da produção agrícola. Por isso, as plantas têm desenvolvido mecanismos de sobrevivência e aclimatação à condição de déficit hídrico, por exemplo, o fechamento estomático que visa minimizar a perda de água pela planta. Com efeito, as respostas das plantas ao déficit hídrico são controladas diretamente pelo balanço hormonal. Assim,o objetivo do presente estudo foi avaliar como diferentes mutantes hormonais de tomateiro respondem à condição de déficit hídrico. Foram utilizados cinco genótipos de tomateiro, o cultivar Micro-Tom (MT), tipo selvagem, os mutantes Never ripe (Nr), com baixa sensibilidade ao etileno, diageotropica(dgt), com baixa sensibilidade à auxina, e os transgênicos L19 (com elevada biossíntese de giberelina) e SL (com baixa biossíntese de estrigolactonas). As plantas foram cultivadas em vasos de polietileno com capacidade para 350 mL preenchidos com substrato comercial. Durante o desenvolvimento, todas as plantas foram diariamente irrigadas até o início do déficit hídrico, 37 dias após a semeadura (DAS). A fim de induzir o déficit hídrico, a irrigação foi suspensa em parte das plantas porum período de sete dias. Plantas-controle foram irrigadas continuamente. Depois de sete dias nas respectivas condições (irrigada e déficit hídrico), as plantas foram colhidas para a realização das análises de crescimento, conteúdo relativo de água (CRA) eextravasamento de eletrólitos. Como esperado, plantas de L19 exibiram maior altura de plantas, enquanto plantas de SL apresentaram maior acúmulo de massa fresca e seca da parte aérea em condição controle. Em condição de déficit hídrico, observou-se redução de massa fresca e altura de plantas em todos os genótipos avaliados. Enquanto que apenas plantas de MT e SL não sofreram redução de massa seca da parte aérea em função da restrição hídrica. Quanto ao CRA, apenas plantas de L19 não apresentaram redução sob condição de déficit hídrico.


Drought stress is one of the main limiting factors of crop production. For this reason, plants have developed mechanisms of survival and acclimatization to the drought condition, for instance, the stomatal closure to minimize the loss of water by the plant. In effect, the plant's responses to water deficit are directly controlled by the hormonal balance. Thus, the present study aimed to evaluate how different tomato hormonal mutants respond to drought stress. Five tomato genotypes were used, the cultivar Micro-Tom (MT), wild-type, the mutantsNever ripe(Nr), with low sensitivity to ethylene,diageotropica(dgt), with low sensitivity to auxin, and the transgenic L19 (with high biosynthesis of gibberellin) and SL (with low biosynthesis of strigolactones). Plants were grown in polyethylene pots with 350 mL filled with commercial substrate. During development, all plants were irrigated daily until the beginning of the drought stress, 37 days after sowing (DAS). Then, irrigation was suspended in part of the plants for seven days to induce drought. Control plants were irrigated continuously. After seven days in the respective conditions (irrigated and drought stress), the plants were harvested to analyze the growth, relative water content (RWC), and electrolyte leakage. As expected, L19 plants exhibited higher height, while SL plants showed greater fresh and dry shoot weight accumulation in control conditions. In drought stress conditions, a reduction in fresh weight and plant height was observed in all evaluated genotypes. In contrast, only MT and SL plants did not suffer a reduction in dry mass of the aerial part due to water restriction. As for the CRA, only L19 plants did not show a reduction under water deficit conditions.


Subject(s)
Dehydration , Gibberellins , Solanum lycopersicum/growth & development , Solanum lycopersicum/enzymology , Plant Growth Regulators
5.
R. Ci. agrovet. ; 20(4): 271-277, 2021. tab, graf
Article in Portuguese | VETINDEX | ID: vti-765256

ABSTRACT

O déficit hídrico é um dos principais fatores limitantes da produção agrícola. Por isso, as plantas têm desenvolvido mecanismos de sobrevivência e aclimatação à condição de déficit hídrico, por exemplo, o fechamento estomático que visa minimizar a perda de água pela planta. Com efeito, as respostas das plantas ao déficit hídrico são controladas diretamente pelo balanço hormonal. Assim,o objetivo do presente estudo foi avaliar como diferentes mutantes hormonais de tomateiro respondem à condição de déficit hídrico. Foram utilizados cinco genótipos de tomateiro, o cultivar Micro-Tom (MT), tipo selvagem, os mutantes Never ripe (Nr), com baixa sensibilidade ao etileno, diageotropica(dgt), com baixa sensibilidade à auxina, e os transgênicos L19 (com elevada biossíntese de giberelina) e SL (com baixa biossíntese de estrigolactonas). As plantas foram cultivadas em vasos de polietileno com capacidade para 350 mL preenchidos com substrato comercial. Durante o desenvolvimento, todas as plantas foram diariamente irrigadas até o início do déficit hídrico, 37 dias após a semeadura (DAS). A fim de induzir o déficit hídrico, a irrigação foi suspensa em parte das plantas porum período de sete dias. Plantas-controle foram irrigadas continuamente. Depois de sete dias nas respectivas condições (irrigada e déficit hídrico), as plantas foram colhidas para a realização das análises de crescimento, conteúdo relativo de água (CRA) eextravasamento de eletrólitos. Como esperado, plantas de L19 exibiram maior altura de plantas, enquanto plantas de SL apresentaram maior acúmulo de massa fresca e seca da parte aérea em condição controle. Em condição de déficit hídrico, observou-se redução de massa fresca e altura de plantas em todos os genótipos avaliados. Enquanto que apenas plantas de MT e SL não sofreram redução de massa seca da parte aérea em função da restrição hídrica. Quanto ao CRA, apenas plantas de L19 não apresentaram redução sob condição de déficit hídrico.(AU)


Drought stress is one of the main limiting factors of crop production. For this reason, plants have developed mechanisms of survival and acclimatization to the drought condition, for instance, the stomatal closure to minimize the loss of water by the plant. In effect, the plant's responses to water deficit are directly controlled by the hormonal balance. Thus, the present study aimed to evaluate how different tomato hormonal mutants respond to drought stress. Five tomato genotypes were used, the cultivar Micro-Tom (MT), wild-type, the mutantsNever ripe(Nr), with low sensitivity to ethylene,diageotropica(dgt), with low sensitivity to auxin, and the transgenic L19 (with high biosynthesis of gibberellin) and SL (with low biosynthesis of strigolactones). Plants were grown in polyethylene pots with 350 mL filled with commercial substrate. During development, all plants were irrigated daily until the beginning of the drought stress, 37 days after sowing (DAS). Then, irrigation was suspended in part of the plants for seven days to induce drought. Control plants were irrigated continuously. After seven days in the respective conditions (irrigated and drought stress), the plants were harvested to analyze the growth, relative water content (RWC), and electrolyte leakage. As expected, L19 plants exhibited higher height, while SL plants showed greater fresh and dry shoot weight accumulation in control conditions. In drought stress conditions, a reduction in fresh weight and plant height was observed in all evaluated genotypes. In contrast, only MT and SL plants did not suffer a reduction in dry mass of the aerial part due to water restriction. As for the CRA, only L19 plants did not show a reduction under water deficit conditions.(AU)


Subject(s)
Solanum lycopersicum/enzymology , Solanum lycopersicum/growth & development , Dehydration , Plant Growth Regulators , Gibberellins
6.
Plant Cell Environ ; 42(5): 1575-1589, 2019 05.
Article in English | MEDLINE | ID: mdl-30523629

ABSTRACT

Coordination between structural and physiological traits is key to plants' responses to environmental fluctuations. In heterobaric leaves, bundle sheath extensions (BSEs) increase photosynthetic performance (light-saturated rates of photosynthesis, Amax ) and water transport capacity (leaf hydraulic conductance, Kleaf ). However, it is not clear how BSEs affect these and other leaf developmental and physiological parameters in response to environmental conditions. The obscuravenosa (obv) mutation, found in many commercial tomato varieties, leads to absence of BSEs. We examined structural and physiological traits of tomato heterobaric and homobaric (obv) near-isogenic lines grown at two different irradiance levels. Kleaf , minor vein density, and stomatal pore area index decreased with shading in heterobaric but not in homobaric leaves, which show similarly lower values in both conditions. Homobaric plants, on the other hand, showed increased Amax , leaf intercellular air spaces, and mesophyll surface area exposed to intercellular airspace (Smes ) in comparison with heterobaric plants when both were grown in the shade. BSEs further affected carbon isotope discrimination, a proxy for long-term water-use efficiency. BSEs confer plasticity in traits related to leaf structure and function in response to irradiance levels and might act as a hub integrating leaf structure, photosynthetic function, and water supply and demand.


Subject(s)
Plant Leaves , Plant Vascular Bundle/cytology , Plant Vascular Bundle/physiology , Light , Solanum lycopersicum , Photosynthesis/physiology , Plant Leaves/anatomy & histology , Plant Leaves/growth & development , Plant Leaves/physiology , Plants, Genetically Modified , Water/physiology
7.
Arch Microbiol ; 199(5): 787-798, 2017 Jul.
Article in English | MEDLINE | ID: mdl-28283681

ABSTRACT

Plant responses to the environment and microorganisms, including arbuscular mycorrhizal fungi, involve complex hormonal interactions. It is known that abscisic acid (ABA) and ethylene may be involved in the regulation of arbuscular mycorrhiza (AM) and that part of the detrimental effects of ABA deficiency in plants is due to ethylene overproduction. In this study, we aimed to determine whether the low susceptibility to mycorrhizal colonization in ABA-deficient mutants is due to high levels of ethylene and whether AM development is associated with changes in the steady-state levels of transcripts of genes involved in the biosynthesis of ethylene and ABA. For that, tomato (Solanum lycopersicum) ethylene overproducer epinastic (epi) mutant and the ABA-deficient notabilis (not) and sitiens (sit) mutants, in the same Micro-Tom (MT) genetic background, were inoculated with Rhizophagus clarus, and treated with the ethylene biosynthesis inhibitor aminoethoxyvinylglycine (AVG). The development of AM, as well as the steady-state levels of transcripts involved in ethylene (LeACS2, LeACO1 and LeACO4) and ABA (LeNCED) biosynthesis, was determined. The intraradical colonization in epi, not and sit mutants was significantly reduced compared to MT. The epi mutant completely restored the mycorrhizal colonization to the levels of MT with the application of 10 µM of AVG, probably due to the inhibition of the ACC synthase gene expression. The steady-state levels of LeACS2 and LeACO4 transcripts were induced in mycorrhizal roots of MT, whereas the steady-state levels of LeACO1 and LeACO4 transcripts were significantly induced in sit, and the steady-state levels of LeNCED transcripts were significantly induced in all genotypes and in mycorrhizal roots of epi mutants treated with AVG. The reduced mycorrhizal colonization in sit mutants seems not to be limited by ethylene production via ACC oxidase regulation. Both ethylene overproduction and ABA deficiency impaired AM fungal colonization in tomato roots, indicating that, besides hormonal interactions, a fine-tuning of each hormone level is required for AM development.


Subject(s)
Abscisic Acid/metabolism , Ethylenes/metabolism , Fungi/growth & development , Mycorrhizae/growth & development , Solanum lycopersicum/metabolism , Abscisic Acid/biosynthesis , Amino Acid Oxidoreductases/antagonists & inhibitors , Ethylenes/biosynthesis , Glycine/analogs & derivatives , Glycine/pharmacology , Lyases/antagonists & inhibitors , Solanum lycopersicum/genetics , Solanum lycopersicum/microbiology , Mycorrhizae/metabolism , Plant Roots/microbiology
8.
Mol Plant Pathol ; 18(8): 1101-1112, 2017 10.
Article in English | MEDLINE | ID: mdl-27454588

ABSTRACT

Programmed cell death (PCD) plays a key role in plant responses to pathogens, determining the success of infection depending on the pathogen lifestyle and on which participant of the interaction triggers cell death. The hemibiotrophic basidiomycete Moniliophthora perniciosa is the causal agent of witches' broom disease of Theobroma cacao L. (cacao), a serious constraint for production in South America and the Caribbean. It has been hypothesized that M. perniciosa pathogenesis involves PCD, initially as a plant defence mechanism, which is diverted by the fungus to induce necrosis during the dikaryotic phase of the mycelia. Here, we evaluated whether the expression of a cacao anti-apoptotic gene would affect the incidence and severity of M. perniciosa infection using the 'Micro-Tom' (MT) tomato as a model. The cacao Bax-inhibitor-1 (TcBI-1) gene, encoding a putative basal attenuator of PCD, was constitutively expressed in MT to evaluate function. Transformants expressing TcBI-1, when treated with tunicamycin, an inducer of endoplasmic reticulum stress, showed a decrease in cell peroxidation. When the same transformants were inoculated with the necrotrophic fungal pathogens Sclerotinia sclerotiorum, Sclerotium rolfsii and Botrytis cinerea, a significant reduction in infection severity was observed, confirming TcBI-1 function. After inoculation with M. perniciosa, TcBI-1 transformant lines showed a significant reduction in disease incidence compared with MT. The overexpression of TcBI-1 appears to affect the ability of germinating spores to penetrate susceptible tissues, restoring part of the non-host resistance in MT against the S-biotype of M. perniciosa.


Subject(s)
Basidiomycota/physiology , Cacao/genetics , Genes, Plant , Solanum lycopersicum/genetics , Solanum lycopersicum/microbiology , Amino Acid Sequence , Base Sequence , Caulimovirus/genetics , Disease Resistance , Plant Diseases/genetics , Plant Diseases/microbiology , Plant Proteins/chemistry , Plant Proteins/genetics , Plant Proteins/metabolism , Plants, Genetically Modified , Promoter Regions, Genetic/genetics , Transformation, Genetic
9.
PeerJ ; 4: e2673, 2016.
Article in English | MEDLINE | ID: mdl-27994959

ABSTRACT

RNA interference (RNAi), a gene-silencing mechanism that involves providing double-stranded RNA molecules that match a specific target gene sequence, is now widely used in functional genetic studies. The potential application of RNAi-mediated control of agricultural insect pests has rapidly become evident. The production of transgenic plants expressing dsRNA molecules that target essential insect genes could provide a means of specific gene silencing in larvae that feed on these plants, resulting in larval phenotypes that range from loss of appetite to death. In this report, we show that the tomato leafminer ( Tuta absoluta ), a major threat to commercial tomato production, can be targeted by RNAi. We selected two target genes (Vacuolar ATPase-A and Arginine kinase) based on the RNAi response reported for these genes in other pest species. In view of the lack of an artificial diet for T. absoluta, we used two approaches to deliver dsRNA into tomato leaflets. The first approach was based on the uptake of dsRNA by leaflets and the second was based on "in planta-induced transient gene silencing" (PITGS), a well-established method for silencing plant genes, used here for the first time to deliver in planta-transcribed dsRNA to target insect genes. Tuta absoluta larvae that fed on leaves containing dsRNA of the target genes showed an ∼60% reduction in target gene transcript accumulation, an increase in larval mortality and less leaf damage. We then generated transgenic 'Micro-Tom' tomato plants that expressed hairpin sequences for both genes and observed a reduction in foliar damage by T. absoluta in these plants. Our results demonstrate the feasibility of RNAi as an alternative method for controlling this critical tomato pest.

10.
Sci. agric ; 73(1): 24-28, Jan.-Feb.2016. tab, ilus, graf
Article in English | VETINDEX | ID: biblio-1497540

ABSTRACT

A standard protocol to evaluate the effects of biostimulants on plant physiology is still lacking. The proton pumps present in the vacuolar and plasma membranes are the primary agents responsible for the regulation of the electrochemical gradient that energizes the nutrient uptake system and acid growth mechanism of plant cells. In this study, two of these enzymes were characterized as biochemical markers of biostimulant activity. A simple and fast protocol based on the degree of root acidification using a pH sensitive dye and the Micro-Tom tomato as a plant model is proposed as an efficient methodology to prove the efficacy of biostimulants that are claimed to improve nutrient acquisition and root growth. The results agree with the data from more conventional, expensive and time-consuming proton pump assays. A direct correlation was found between plasmalemma proton-adenosine triphosphatase (H+-ATPase) activation and the amount of rhizosphere acidification observed in the bromocresol gel. Moreover, roots of the diageotropica (dgt) Micro-Tom plants, defective in auxin responses, barely acidify bromocresol purple gel even in the presence of indole-3-acetic acid (IAA, 1 M). The biostimulant TEA (vermicompost water extract, 25 %) enhances proton extrusion by 40 % in wild type (WT) plants, but no effect was induced in dgt plants. These results reinforce the notion that the class of biostimulant known as humic substances stimulates plant proton pumps and promotes root growth by exerting an auxin-like bioactivity and establish the usefulness of an economically and technically feasible assay to certify this kind of biostimulant.


Subject(s)
Acidification/analysis , Biomarkers/analysis , Plant Physiological Phenomena , Rhizosphere
11.
Sci. Agric. ; 73(1): 24-28, Jan.-Feb.2016. tab, ilus, graf
Article in English | VETINDEX | ID: vti-16191

ABSTRACT

A standard protocol to evaluate the effects of biostimulants on plant physiology is still lacking. The proton pumps present in the vacuolar and plasma membranes are the primary agents responsible for the regulation of the electrochemical gradient that energizes the nutrient uptake system and acid growth mechanism of plant cells. In this study, two of these enzymes were characterized as biochemical markers of biostimulant activity. A simple and fast protocol based on the degree of root acidification using a pH sensitive dye and the Micro-Tom tomato as a plant model is proposed as an efficient methodology to prove the efficacy of biostimulants that are claimed to improve nutrient acquisition and root growth. The results agree with the data from more conventional, expensive and time-consuming proton pump assays. A direct correlation was found between plasmalemma proton-adenosine triphosphatase (H+-ATPase) activation and the amount of rhizosphere acidification observed in the bromocresol gel. Moreover, roots of the diageotropica (dgt) Micro-Tom plants, defective in auxin responses, barely acidify bromocresol purple gel even in the presence of indole-3-acetic acid (IAA, 1 M). The biostimulant TEA (vermicompost water extract, 25 %) enhances proton extrusion by 40 % in wild type (WT) plants, but no effect was induced in dgt plants. These results reinforce the notion that the class of biostimulant known as humic substances stimulates plant proton pumps and promotes root growth by exerting an auxin-like bioactivity and establish the usefulness of an economically and technically feasible assay to certify this kind of biostimulant.(AU)


Subject(s)
Biomarkers/analysis , Rhizosphere , Acidification/analysis , Plant Physiological Phenomena
12.
Biometals ; 28(5): 803-16, 2015 Oct.
Article in English | MEDLINE | ID: mdl-26077192

ABSTRACT

Many aspects related to ROS modulation of signaling networks and biological processes that control stress responses still remain unanswered. For this purpose, the grafting technique may be a powerful tool to investigate stress signaling and specific responses between plant organs during stress. In order to gain new insights on the modulation of antioxidant stress responses mechanisms, gas-exchange measurements, lipid peroxidation, H2O2 content, proline, superoxide dismutase (SOD), catalase (CAT), glutathione reductase (GR), ascorbate peroxidase (APX) and guaiacol peroxidase (GPOX) were analyzed in Micro-Tom grafted plants submitted to cadmium (Cd). The results observed revealed that higher amounts of Cd accumulated mainly in the roots and rootstocks when compared to leaves and scions. Macronutrients uptake (Ca, S, P and Mg) decreased in non-grafted plants, but differed among plant parts in all grafted plants. The results showed that the accumulation of proline observed in scions of grafted plants could be associated to the lower MDA contents in the scions of grafted plants. In the presence of Cd, non-grafted plants displayed increased CAT, GR, GPOX and APX activities for both tissues, whilst grafted plants revealed distinct trends that clearly indicate signaling responses from the rootstocks, allowing sufficient time to activate defense mechanisms in shoot. The information available concerning plants subjected to grafting can provide a better understanding of the mechanisms of Cd detoxification involving root-to-shoot signaling, opening new possibilities on strategies which can be used to manipulate heavy metal tolerance, since antioxidant systems are directly involved in such mechanism.


Subject(s)
Antioxidants/metabolism , Cadmium/toxicity , Oxidative Stress/drug effects , Solanum lycopersicum/growth & development , Ascorbate Peroxidases/metabolism , Catalase/metabolism , Glutathione Reductase/metabolism , Hydrogen Peroxide/metabolism , Lipid Peroxidation/drug effects , Solanum lycopersicum/drug effects , Solanum lycopersicum/genetics , Metabolic Detoxication, Phase I/genetics , Plant Leaves/drug effects , Plant Leaves/metabolism , Plant Roots/drug effects , Plant Roots/metabolism , Plant Shoots/drug effects , Plant Shoots/metabolism , Superoxide Dismutase/metabolism
13.
J Plant Physiol ; 177: 11-19, 2015 Apr 01.
Article in English | MEDLINE | ID: mdl-25659332

ABSTRACT

Tomato (Solanum lycopersicum) shows three growth habits: determinate, indeterminate and semi-determinate. These are controlled mainly by allelic variation in the self-pruning (SP) gene family, which also includes the "florigen" gene single flower TRUSS (SFT). Determinate cultivars have synchronized flower and fruit production, which allows mechanical harvesting in the tomato processing industry, whereas indeterminate ones have more vegetative growth with continuous flower and fruit formation, being thus preferred for fresh market tomato production. The semi-determinate growth habit is poorly understood, although there are indications that it combines advantages of determinate and indeterminate growth. Here, we used near-isogenic lines (NILs) in the cultivar Micro-Tom (MT) with different growth habit to characterize semi-determinate growth and to determine its impact on developmental and productivity traits. We show that semi-determinate genotypes are equivalent to determinate ones with extended vegetative growth, which in turn impacts shoot height, number of leaves and either stem diameter or internode length. Semi-determinate plants also tend to increase the highly relevant agronomic parameter Brix × ripe yield (BRY). Water-use efficiency (WUE), evaluated either directly as dry mass produced per amount of water transpired or indirectly through C isotope discrimination, was higher in semi-determinate genotypes. We also provide evidence that the increases in BRY in semi-determinate genotypes are a consequence of an improved balance between vegetative and reproductive growth, a mechanism analogous to the conversion of the overly vegetative tall cereal varieties into well-balanced semi-dwarf ones used in the Green Revolution.


Subject(s)
Crops, Agricultural/physiology , Solanum lycopersicum/physiology , Water/metabolism , Crops, Agricultural/genetics , Crops, Agricultural/growth & development , Genotype , Solanum lycopersicum/genetics , Solanum lycopersicum/growth & development , Plant Leaves/growth & development , Plant Leaves/metabolism , Plant Stems/growth & development , Plant Stems/metabolism , Reproduction
14.
New Phytol ; 205(2): 618-26, 2015 Jan.
Article in English | MEDLINE | ID: mdl-25267094

ABSTRACT

Bundle sheath extensions (BSEs) are key features of leaf structure whose distribution differs among species and ecosystems. The genetic control of BSE development is unknown, so BSE physiological function has not yet been studied through mutant analysis. We screened a population of ethyl methanesulfonate (EMS)-induced mutants in the genetic background of the tomato (Solanum lycopersicum) model Micro-Tom and found a mutant lacking BSEs. The leaf phenotype of the mutant strongly resembled the tomato mutant obscuravenosa (obv). We confirmed that obv lacks BSEs and that it is not allelic to our induced mutant, which we named obv-2. Leaves lacking BSEs had lower leaf hydraulic conductance and operated with lower stomatal conductance and correspondingly lower assimilation rates than wild-type leaves. This lower level of function occurred despite similarities in vein density, midvein vessel diameter and number, stomatal density, and leaf area between wild-type and mutant leaves, the implication being that the lack of BSEs hindered water dispersal within mutant leaves. Our results comparing near-isogenic lines within a single species confirm the hypothesised role of BSEs in leaf hydraulic function. They further pave the way for a genetic model-based analysis of a common leaf structure with deep ecological consequences.


Subject(s)
Mutation , Solanum lycopersicum/genetics , Biological Transport/genetics , Solanum lycopersicum/metabolism , Solanum lycopersicum/physiology , Phenotype , Plant Leaves/genetics , Plant Leaves/metabolism , Plant Leaves/physiology , Plant Stomata/genetics , Plant Stomata/metabolism , Plant Stomata/physiology , Plant Transpiration/genetics , Water/metabolism
15.
Biosci. j. (Online) ; 30(2): 447-457, mar./apr. 2014. tab, graf
Article in English | LILACS | ID: biblio-947149

ABSTRACT

The aim of this study was to analyze photosynthate partitioning in tomato photomorphogenic mutants at the ends of the vegetative (40 days after emergence [DAE]) and reproductive (69 DAE) stages and to determine its interaction with morphoanatomical aspects. The mutants aurea (au), phytochrome-deficient, high pigment-1 (hp1), light-exaggerated response, were studied along with the non-mutant Micro-Tom (MT) cultivar. The plants were analyzed at 40 and 68 DAE to identify photosynthate source organs and tissues as well as the target organs of remobilized photosynthate during the reproductive stage. The plants were evaluated for their internal and external morphology as well as the percentage of dry mass of their organs. Photosynthate allocation in the hp1 mutant occurred primarily in the roots and leaves, and allocation in the au mutant occurred primarily in fruits. The au mutant showed a high capacity for photosynthate remobilization to fruit during the reproductive stage, and the predominant sources of these remobilized photosynthates were the leaf spongy parenchyma, the root vascular cylinder and the marrow stem.


O objetivo deste estudo foi analisar a partição de fotoassimilados em tomateiros mutantes fotomorfogenéticos ao final da fase vegetativa, aos 40 dias após a emergência (DAE), e ao final da fase reprodutiva, aos 69 DAE, e sua interação com aspectos morfoanatômicos. Foram estudados os mutantes aurea (au), deficiente em fitocromo, e hp1, o qual expressa resposta exagerada à luz, e o tomateiro selvagem cultivar Micro-Tom (MT). As plantas foram analisadas 40 dias após a emergência (DAE) e 68 DAE, tentando identificar os órgãos e tecidos dos fotoassimilados remobilizados e seus órgãos de destino durante o estádio reprodutivo. As plantas foram avaliadas quanto à sua morfologia interna e externa e percentagem de massa seca entre os órgãos. A alocação de fotoassimilados no mutante hp1 ocorreu prioritariamente em raízes e folhas comparativamente aos demais órgãos, e no mutante au ocorreu prioritariamente em frutos comparativamente aos demais órgãos. O mutante au deteve alta capacidade de remobilização de fotoassimilados durante sua fase reprodutiva para os frutos e os fotoassimilados remobilizados tiveram origem preponderante do parênquima lacunoso foliar, do cilindro vascular radicular e da medula caulinar.


Subject(s)
Phytochrome , Solanum lycopersicum , Crop Production , Light
16.
Ciênc. agrotec., (Impr.) ; 33(5): 1213-1219, set.-out. 2009. ilus
Article in Portuguese | LILACS | ID: lil-531531

ABSTRACT

Objetivou-se, neste trabalho, caracterizar aspectos fisiológicos de microtomateiros (Lycopersicon esculentum P. Miller cv. Micro-Tom) fitocromo-mutantes. A cultivar Micro-Tom e os mutantes aurea (deficiente na biossíntese do cromóforo dos fitocromos), atroviolacea (atv) e high pigment1 (hp1;ambos superexpressam eventos mediados por fitocromos) foram cultivados em condições controladas de luz e temperatura e caracterizados no estágio de floração. O mutante hp1 obteve as maiores taxas de fotossíntese potencial e de conteúdo de carotenóides. O mutante aurea manteve taxas de fotossíntese potencial similares à cultivar Micro-Tom, mesmo expressando o mais baixo conteúdo de clorofilas, e também expressou o maior conteúdo de nitrogênio entre os demais microtomateiros. Os mutantes aurea e hp1 obtiveram os menores conteúdos de açúcares solúveis totais. O mutante atv expressou o maior conteúdo de clorofilas e também a menor razão clorofila a/b.


The objective of this work was to characterize physiological aspects of micro-tomato (Lycopersicon esculentum P. Miller cv. Micro-Tom) phytochrome-mutants. Plants of Micro-Tom cultivar and aurea (deficient in phytochrome chromophore biosynthesis), high pigment1 (hp1) and atroviolacea (atv) (both super express phytochrome events-mediated) mutants were cultivated under controlled light and temperature and evaluated in flowering stage. The hp1 mutant expressed the highest rates of potential photosynthesis and also the content of total carotenoids. Aurea mutant maintained similar potential photosynthesis rates as the Micro-Tom cultivar, even containing low chlorophyll content, and expressed the highest content of nitrogen among all micro-tomatoes studied. Total soluble sugars were lower in aurea and hp1 mutants. The atv mutant expressed the highest content of chlorophylls and also the lowest rate of chlorophyll a/b.

17.
Sci. agric ; 65(3)2008.
Article in English | LILACS-Express | VETINDEX | ID: biblio-1496847

ABSTRACT

Plant hormones are likely key regulators of arbuscular mycorrhizae (AM) development. However, their roles in AM are not well known. Here mutants in five hormone classes introgressed in a single tomato (Lycopersicon esculentum Mill. Syn Solanum lycopersicum L.) background (cv. Micro-Tom) were used to determine their effects on AM development and the expression of defense-related genes (chitinases and b-1,3-glucanases) in roots. Under low P conditions, mutant epinastic (epi) and Never ripe (Nr), ethylene overproducer and low sensitivity, respectively, had the intraradical colonization by Glomus clarum highly inhibited, as compared to the control Micro-Tom (MT). No significant alterations in fungal colonization were observed in mutants affecting other hormone classes. Under low P conditions, the steady state levels of transcripts encoding a class I basic chitinase (chi9) were higher in mycorrhizal epi and Nr mutant roots as compared to MT controls. In contrast the steady state levels of a class III acidic b-1,3-glucanase (TomPR-Q'a) transcripts in mycorrhizal epi mutant roots were significantly lower than in mycorrhizal MT roots. Root colonization in epi mutants was accompanied by several alterations in fungal morphology, as compared to root colonization in MT controls. The data suggest that ethylene may play an important role in controlling intraradical arbuscular mycorrhizal fungal growth.


Os hormônios vegetais são possíveis reguladores chave do desenvolvimento de micorrizas arbusculares (MAS). Contudo, seus papéis em MA são pouco conhecidos. No presente estudo, foram utilizados mutantes em cinco classes hormonais introgredidos em uma única cultivar (cv. Micro-Tom) de tomateiro (Lycopersicon esculentum Mill. Syn Solanum lycopersicum L.) para determinar seus efeitos no desenvolvimento de MA e expressão de genes relacionados à defesa (quitinases e b-1,3-glucanases) em raízes. Sob condição de baixo P, os mutantes epinastic (epi) e Never ripe (Nr), os quais são super produtores e pouco sensíveis a etileno, respectivamente, tiveram a colonização intra-radicular por Glomus clarum inibida quando comparada com o controle Micro-Tom (MT). Não se observou alterações significativas na colonização fúngica nos mutantes afetando outras classes hormonais. Sob condição de baixo P, o nível de transcritos codificando uma quitinase básica de classe I (chi9) foi mais elevado em raízes micorrizadas dos mutantes epi e Nr, quando comparado com o controle MT. Em contraste, o nível de transcritos de uma b-1,3-glucanase ácida da classe III (TomPR-Q'a) em raízes micorrizadas do mutante epi foi significativamente menor que em raízes micorrizadas de MT. A colonização de raízes no mutante epi foi acompanhada por várias alterações na morfologia fúngica, quando comparada com o controle MT. Os resultados sugerem que o etileno pode desempenhar um importante papel controlando o crescimento fúngico intra-radicular nas MAS.

18.
Sci. agric. ; 65(3)2008.
Article in English | VETINDEX | ID: vti-440245

ABSTRACT

Plant hormones are likely key regulators of arbuscular mycorrhizae (AM) development. However, their roles in AM are not well known. Here mutants in five hormone classes introgressed in a single tomato (Lycopersicon esculentum Mill. Syn Solanum lycopersicum L.) background (cv. Micro-Tom) were used to determine their effects on AM development and the expression of defense-related genes (chitinases and b-1,3-glucanases) in roots. Under low P conditions, mutant epinastic (epi) and Never ripe (Nr), ethylene overproducer and low sensitivity, respectively, had the intraradical colonization by Glomus clarum highly inhibited, as compared to the control Micro-Tom (MT). No significant alterations in fungal colonization were observed in mutants affecting other hormone classes. Under low P conditions, the steady state levels of transcripts encoding a class I basic chitinase (chi9) were higher in mycorrhizal epi and Nr mutant roots as compared to MT controls. In contrast the steady state levels of a class III acidic b-1,3-glucanase (TomPR-Q'a) transcripts in mycorrhizal epi mutant roots were significantly lower than in mycorrhizal MT roots. Root colonization in epi mutants was accompanied by several alterations in fungal morphology, as compared to root colonization in MT controls. The data suggest that ethylene may play an important role in controlling intraradical arbuscular mycorrhizal fungal growth.


Os hormônios vegetais são possíveis reguladores chave do desenvolvimento de micorrizas arbusculares (MAS). Contudo, seus papéis em MA são pouco conhecidos. No presente estudo, foram utilizados mutantes em cinco classes hormonais introgredidos em uma única cultivar (cv. Micro-Tom) de tomateiro (Lycopersicon esculentum Mill. Syn Solanum lycopersicum L.) para determinar seus efeitos no desenvolvimento de MA e expressão de genes relacionados à defesa (quitinases e b-1,3-glucanases) em raízes. Sob condição de baixo P, os mutantes epinastic (epi) e Never ripe (Nr), os quais são super produtores e pouco sensíveis a etileno, respectivamente, tiveram a colonização intra-radicular por Glomus clarum inibida quando comparada com o controle Micro-Tom (MT). Não se observou alterações significativas na colonização fúngica nos mutantes afetando outras classes hormonais. Sob condição de baixo P, o nível de transcritos codificando uma quitinase básica de classe I (chi9) foi mais elevado em raízes micorrizadas dos mutantes epi e Nr, quando comparado com o controle MT. Em contraste, o nível de transcritos de uma b-1,3-glucanase ácida da classe III (TomPR-Q'a) em raízes micorrizadas do mutante epi foi significativamente menor que em raízes micorrizadas de MT. A colonização de raízes no mutante epi foi acompanhada por várias alterações na morfologia fúngica, quando comparada com o controle MT. Os resultados sugerem que o etileno pode desempenhar um importante papel controlando o crescimento fúngico intra-radicular nas MAS.

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