ABSTRACT
KEY MESSAGE: pGhERF105 and pGhNc-HARBI1 promoters are highly responsive to CBW infestation and exhibit strong activity in vegetative and reproductive tissues, increasing their potential application in GM crop plants for pest control. The main challenge to cotton (Gossypium hirsutum) crop productivity is the constant attack of several pests, including the cotton boll weevil (CBW, Anthonomus grandis), which uses cotton floral buds for feeding and egg-laying. The endophytic nature of the early developmental stages of CBW makes conventional pesticide-based control poorly efficient. Most biotechnological assets used for pest control are based on Bacillus thurigiensis insecticidal Cry toxins or the silencing of insect-pest essential genes using RNA-interference technology. However, suitable plant promoter sequences are required to efficiently drive insecticidal molecules to the target plant tissue. This study selected the Ethylene Responsive Factor 105 (GhERF105) and Harbinger transposase-derived nuclease (GhNc-HARBI1) genes based on available transcriptome-wide data from cotton plants infested by CBW larvae. The GhERF105 and GhNc-HARBI1 genes showed induction kinetics from 2 to 96 h under CBW's infestation in cotton floral buds, uncovering the potential application of their promoters. Therefore, the promoter regions (1,500 base pairs) were assessed and characterized using Arabidopsis thaliana transgenic plants. The pGhERF105 and pGhNc-HARBI1 promoters showed strong activity in plant vegetative (leaves and roots) and reproductive (flowers and fruits) tissues, encompassing higher GUS transcriptional activity than the viral-constitutive Cauliflower Mosaic Virus 35S promoter (pCaMV35S). Notably, pGhERF105 and pGhNc-HARBI1 promoters demonstrated more efficiency in driving reporter genes in flowers than other previously characterized cotton flower-specific promoters. Overall, the present study provides a new set of cotton promoters suitable for biotechnological application in cotton plants for pest resistance.
Subject(s)
Arabidopsis , Weevils , Animals , Arabidopsis/genetics , Flowers , Gossypium/genetics , Pest Control , Plants, Genetically Modified/genetics , Promoter Regions, Genetic/genetics , Weevils/geneticsABSTRACT
The recurring growth of bacterium in newly developed resistant cells and a minimal level of bacterial infection rate are the main limiting factors of Agrobacterium-mediated transformation experiments in Hevea brasiliensis. The current study aimed to optimize crucial factors of the transformation protocol in order to obtain an efficient transformation experimental model for Hevea using cotyledonary somatic embryos as explants. Transformation conditions such as antibiotic concentration, preculture duration, Agrobacterium concentration, sonication and cocultivation conditions were analyzed using the binary vector pCAMBIA2301. Transient transformation was confirmed by GUS histochemical staining. The best transformation efficiency was observed when the explants were not cultured on a preculture medium that contained acetosyringone at a level of 100 µM. The best results were obtained using a bacterial density of 0.45 at OD 600 nm, 50 s of sonication of explants in a bacterial liquid culture and a total incubation time of 18 min in the same bacterial suspension. Transmission electron microscopical analysis confirmed the impacts of sonication on bacterial infection efficiency. Cocultivation conditions of 22 °C and 84 h of darkness were optimal for the transfer of T-DNA. Agrobacterium was eliminated with 500 mg/L of timentin, and the selection of transformants was performed using 100 mg/L of kanamycin in the selection medium. The presence of transgene was confirmed in the resistant embryos by polymerase chain reaction (PCR). The improved method of genetic transformation established in the present study will be useful for the introduction of foreign genes of interest into the Hevea genome for the breeding of this economically important plant species in the future.
ABSTRACT
RESUMO Considerando a possibilidade de que os agrotóxicos utilizados nas principais culturas, como soja, algodão e milho, podem gerar resíduos que contaminam o meio ambiente, faz-se necessária uma análise preliminar sobre a possibilidade de contaminação das águas subterrâneas por resíduos de agrotóxicos utilizados nas principais regiões agrícolas do país. Uma dessas áreas agrícolas se localiza na cidade de Campo Novo do Parecis, Mato Grosso, região de estudo deste trabalho. Os principais agrotóxicos aplicados nas diferentes culturas da região foram avaliados quanto às suas propriedades físico-químicas, seus potenciais de contaminação de acordo com critérios da Agência de Proteção Ambiental dos Estados Unidos e pelo índice de vulnerabilidade de águas subterrâneas (GUS). As informações obtidas foram empregadas para avaliar o risco de contaminação das águas subterrâneas. De acordo com os resultados encontrados, a região apresenta risco real de contaminação ambiental por resíduos de agrotóxicos, uma vez que 45,6% dos agrotóxicos comumente empregados na agricultura local são classificados como extremamente tóxicos ou altamente tóxicos. Além disso, vários desses ingredientes aditivos, cerca de 22%, já foram detectados em diferentes compartimentos ambientais de outras regiões do estado de Mato Grosso.
ABSTRACT Considering the possibility that pesticides used in main crops, such as soybeans, cotton and corn, generate toxic residues that contaminate the environment, a preliminary analysis of the possibility of groundwater contamination is necessary in the main agricultural regions in Brazil. One of these agricultural areas is located in Campo Novo do Parecis, Mato Grosso, the study area of this work. The main pesticides used in different cultures of this region were evaluated considering their physicochemical properties, their contamination potentials according to criteria of the Environmental Protection Agency of the United States and the groundwater ubiquity score index (GUS). The information obtained was used to assess the risk of groundwater contamination. According to the results, the region presents a real risk of environmental contamination by pesticide residues, since 45.6% of the pesticides commonly used in local agriculture are classified as extremely toxic or highly toxic. In addition, several of these pesticides, about 22%, have been detected in different environmental compartments from other regions of the state of Mato Grosso, Brazil.
ABSTRACT
Background: Ethylene plays an important role in the regulation of floral organ development in soybean, and 1-aminocyclopropane-1-carboxylate synthase (ACS) is a rate-limiting enzyme for ethylene biosynthesis. However, whether ACS also regulates floral organ differentiation in soybean remains unknown. To address this, we constructed an RNAi vector to inhibit ACS expression in cotyledonary nodes. Linear DNA cassettes of RNAi-ACS obtained by PCR were used to transform soybean cotyledonary nodes. Results: In total, 131 of 139 transiently transformed plants acquired herbicide resistance and displayed GUS activities in the new buds. In comparison to untransformed seedling controls, a greater number of flower buds were differentiated at the cotyledonary node; GM-ACS1 mRNA expression levels and ethylene emission in the transformed buds were reduced. Conclusion: These results indicate that the cotyledonary node transient transformation system may be suitable for stable transformation and that the inhibition of ACS expression may be an effective strategy for promoting floral organ differentiation in soybean.
Subject(s)
Glycine max/enzymology , Glycine max/genetics , RNA Interference , Lyases/metabolism , Glycine max/growth & development , Transformation, Genetic , Gene Expression , Cell Differentiation , Polymerase Chain Reaction , Gene Expression Regulation, Plant , Ethylenes/biosynthesis , Herbicide Resistance , Genetic Vectors , GlucuronidaseABSTRACT
Background: Banana (Musa spp.) is an important staple food, economic crop, and nutritional fruit worldwide. Conventional breeding has been seriously hampered by their long generation time, polyploidy, and sterility of most cultivated varieties. Establishment of an efficient regeneration and transformation system for banana is critical to its genetic improvement and functional genomics. Results: In this study, a vigorous and repeatable transformation system for banana using direct organogenesis was developed. The greatest number of shoots per explant for all five Musa varieties was obtained using Murashige and Skoog medium supplemented with 8.9 µM benzylaminopurine and 9.1 µM thidiazuron. One immature male flower could regenerate 380456, 310372, 200240, 130156, and 100130 well-developed shoots in only 240270 d for Gongjiao, Red banana, Rose banana, Baxi, and Xinglongnaijiao, respectively. Longitudinal sections of buds were transformed through particle bombardment combined with Agrobacterium-mediated transformation using a promoterless ß-glucuronidase (GUS) reporter gene; the highest transformation efficiency was 9.81% in regenerated Gongjiao plantlets in an optimized selection medium. Transgenic plants were confirmed by a histochemical assay of GUS, polymerase chain reaction, and Southern blot. Conclusions: Our robust transformation platform successfully generated hundreds of transgenic plants. Such a platform will facilitate molecular breeding and functional genomics of banana.
Subject(s)
Musa/growth & development , Musa/genetics , Regeneration , Transformation, Genetic , Immunohistochemistry , Blotting, Southern , Polymerase Chain Reaction , Plants, Genetically Modified , Agrobacterium tumefaciens/physiology , Musa/microbiology , Organogenesis, Plant , GlucuronidaseABSTRACT
BACKGROUND: Insects have developed resistance against Bt-transgenic plants. A multi-barrier defense system to weaken their resistance development is now necessary. One such approach is to use fusion protein genes to increase resistance in plants by introducing more Bt genes in combination. The locating the target protein at the point of insect attack will be more effective. It will not mean that the non-green parts of the plants are free of toxic proteins, but it will inflict more damage on the insects because they are at maximum activity in the green parts of plants. RESULTS: Successful cloning was achieved by the amplification of Cry2A, Cry1Ac, and a transit peptide. The appropriate polymerase chain reaction amplification and digested products confirmed that Cry1Ac and Cry2A were successfully cloned in the correct orientation. The appearance of a blue color in sections of infiltrated leaves after 72 hours confirmed the successful expression of the construct in the plant expression system. The overall transformation efficiency was calculated to be 0.7%. The amplification of Cry1Ac-Cry2A and Tp2 showed the successful integration of target genes into the genome of cotton plants. A maximum of 0.673 µg/g tissue of Cry1Ac and 0.568 µg/g tissue of Cry2A was observed in transgenic plants. We obtained 100% mortality in the target insect after 72 hours of feeding the 2nd instar larvae with transgenic plants. The appearance of a yellow color in transgenic cross sections, while absent in the control, through phase contrast microscopy indicated chloroplast localization of the target protein. CONCLUSION: Locating the target protein at the point of insect attack increases insect mortality when compared with that of other transgenic plants. The results of this study will also be of great value from a biosafety point of view.
Subject(s)
Animals , Bacterial Proteins/genetics , Recombinant Fusion Proteins , Chloroplasts/genetics , Insect Control/methods , Gossypium/genetics , Endotoxins/genetics , Hemolysin Proteins/genetics , Lepidoptera , Bacillus thuringiensis , Bacterial Proteins/analysis , Insecticide Resistance/genetics , Immunohistochemistry , Gene Expression/genetics , Chloroplasts/metabolism , Polymerase Chain Reaction , Microscopy, Phase-Contrast , Plants, Genetically Modified , Cloning, Molecular , DNA Primers , Plant Leaves/genetics , Transgenes/physiology , Endotoxins/analysis , Gene Fusion , Hemolysin Proteins/analysis , Insecticides , LarvaABSTRACT
Se probaron diferentes alternativas de transformación genética en arveja cultivar "Santa Isabel" con el fin de estudiar los factores que afectan el proceso. Se emplearon los métodos de infiltración mediante vacío, infección directa de explantes, transformación de polen, y microinyección de ovarios. La prueba histoquímica de expresión gus fue escogida como método de análisis en la determinación de transformantes positivos. Con las metodologías empleadas se detectaron puntos azules en el tejido vegetal, lo cual indica la expresión transitoria del transgen en los explantes utilizados. Los resultados obtenidos sugieren que la transformación genética en arveja cultivada en Colombia puede ser utilizada para la introducción de genes de interés como apoyo a los procesos de mejoramiento genético.
Different genetic transformation alternatives were tested in pea, "Santa Isabel" cultivar, with the purpose of studying the factors that affect the process. The methods of infiltration with vacuum, direct infection of the explants, pollen transformation and ovary microinjection were used. The hystochemical test of the gus expression was chosen as analysis method in the determination of positive transformants. With the used methodologies, blue spots in the plant tissue were detected, which indicates transient expression of the transgene in utilized explants. The obtained results suggest that the genetic transformation in pea genotypes planted in Colombia can be utilized for the introduction of genes of interest as support to genetic improvement.
Subject(s)
Pisum sativum/growth & development , Pisum sativum/embryology , Pisum sativum/physiology , Pisum sativum/genetics , Pisum sativum/immunology , Pisum sativum/metabolism , Pisum sativum/microbiology , Pisum sativum/chemistry , Colombia , Genotype , Genetics/statistics & numerical data , Genetics/instrumentation , Genetics/trends , Infections , Infiltration-Percolation/analysis , Infiltration-Percolation/statistics & numerical data , Infiltration-Percolation/methods , PollenABSTRACT
Tocopherols are members of the vitamin E complex and essential antioxidant compounds synthesized in chloroplasts that protect photosynthetic membranes against oxidative damage triggered by most environmental stresses. Tocopherol deficiency has been shown to affect germination, retard growth and change responses to abiotic stress, suggesting that tocopherols may be involved in a number of diverse physiological processes in plants. Instead of seeking constitutive synthesis of tocopherols to improve stress tolerance, we followed an inducible approach of enhancing α-tocopherol accumulation under dehydration conditions in tobacco. Two uncharacterized stress inducible promoters isolated from Arabidopsis and the VTE2.1 gene from Solanum chilense were used in this work. VTE2.1 encodes the enzyme homogentisate phytyltransferase (HPT), which catalyzes the prenylation step in tocopherol biosynthesis. Transgenic tobacco plants expressing ScVTE2.1 under the control of stress-inducible promoters showed increased levels of α-tocopherol when exposed to drought conditions. The accumulation of α-tocopherol correlated with higher water content and increased photosynthetic performance and less oxidative stress damage as evidenced by reduced lipid peroxidation and delayed leaf senescence. Our results indicate that stress-induced expression of VTE2.1 can be used to increase the vitamin E content and to diminish detrimental effects of environmental stress in plants. The stress-inducible promoters introduced in this work may prove valuable to future biotechnological approaches in improving abiotic stress resistance in plants.
Subject(s)
Alkyl and Aryl Transferases/genetics , Droughts , Gene Expression Regulation, Plant , Nicotiana/physiology , Plant Proteins/genetics , Solanum/genetics , alpha-Tocopherol/metabolism , Aging , Alkyl and Aryl Transferases/metabolism , Desiccation , Lipid Peroxidation , Plant Leaves , Plant Proteins/metabolism , Plants, Genetically Modified/genetics , Plants, Genetically Modified/physiology , Promoter Regions, Genetic , Solanum/metabolism , Nicotiana/geneticsABSTRACT
O objetivo desse trabalho foi avaliar a influência do pré-cultivo de explantes foliares e do meio de cultura na ressuspensão de Agrobacterium tumefaciens para infecção dos explantes. Os meios MS/2 (50% da concentração de sais) e MS N/2 (50% da concentração de NH4NO3 e KNO3) + PGR (1,0µM de TDZ (thidiazuron) + 0,1 µM de ANA (ácido naftalenoacético)) foram testados na ressuspensão da bactéria para infecção dos explantes. O pré-cultivo consistiu da manutenção dos explantes em meio de cultura para formação de calos (MS N/2 + PGR) durante um dia, sendo o tratamento sem pré-cultivo consistituído dos explantes após a excissão dos mesmos. Os explantes foram mantidos no escuro a 25 ± 2ºC mediante a utilização de plástico preto. O delineamento usado foi o inteiramente casualisado com 20 explantes. Os experimentos foram repetidos duas vezes. O meio MS/2 promoveu resultados superiores (22,4%) comparado ao meio MS N/2 + PGR (14,5%) para a percentagem de área com expressão do gene uidA. Aos 7 dias de cultivo em meio seletivo, a percentagem de área expressando o gene uidA foi 1,6 no MS/2 e 0% para o MS N/2 + PGR. O pré-cultivo produziu resultados superiores aos encontrados sem pré-cultivo, atingindo 31,4% de expressão transiente e no tratamento sem pré-cultivo 2,1%. Após 7 dias de cultivo em meio seletivo, a percentagem de área de expressão dos explantes do tratamento com pré-cultivo permaneceu 4,8% e 0% para o tratamento sem pré-cultivo. Os resultados indicam que o précultivo e ressuspensão da bactéria em meio MS/2 aumentaram a eficiência da expressão transiente do gene uidA em explantes foliares de E. saligna.
The aim of this research was to evaluate the effect of the pre-culture of leaf explants and the effect of the culture medium for the Agrobacterium tumefaciens resuspension to the explant infection. The media, MS/2 (half strength) and MS N/2 (10.3 mM NH4NO3 and 9.4 mM KNO3) + PGR (1.0 µM TDZ (thidiazuron) and 0.1 µM NAA (1-Naphthaleneacetic acid)) were tested for the bacteria resuspension. The pre-culture consisted of the maintenance of the explants on culture medium for callus formation (MS N/2+PGR) during one day and the treatment without pre-culture consisted of the use of the explants after the excision of the same ones. At the end of the co-culture, the MS/2 promoted results superiors to the MS N/2+PGR, and the area percentage that presented expression of the gene uidA was of 22.4% compared at 14.5%. To the 7 days of culture on a medium with kanamycin, the area percentage expressing the gene uidA was 1.6 in MS/2 and 0% for the MS N/2+PGR. At the end of the co-culture, the pre-culture produced results superiors to the found in the treatment without pre-culture, reaching 31.4% of expression and in the treatment without pre-culture 2.1%. After 7 days of culture on a medium with kanamycin, the area percentage of explant expression of the treatment with pre-culture stayed 4.8% and 0% for the treatment without pre-culture. The results indicate that the pre-culture and the bacteria resuspension in MS/2 increase the efficiency of the transient expression of the gene uidA in leaf explants of E. saligna.
Subject(s)
Transformation, Genetic , Agrobacterium tumefaciens , Eucalyptus , Genes , GlucuronidaseABSTRACT
Most of the pepper species of the genus Capsicum have been recalcitrant to efficient Agrobacterium tumefaciens-mediated stable or transient, genetic transformation. In the present work, we optimized a protocol for transient transformation of the Habanero pepper (Capsicum chinense Jacq.) through the standardization of several experimental factors. These included the age of the plants, the temperature, the length of co-cultivation, the application of a negative (vacuum) and/or a positive (infiltration) pressure, along with micro injection, the use of acetosyringone during the bacterial culturing, and modification of the pH during the GUS assay to eliminate the endogenous beta-glucuronidase activity. The standardized protocol, which yielded nearly 55 percent fully transformed leaf explants, was used to successfully mobilize two empty binary vectors (pCAMBIA2301 and pCAMex), as well as the C. chinense cDNAs encoding the pathogenesis-related protein 10 and esterase, respectively.
Subject(s)
Agrobacterium tumefaciens , Capsicum/genetics , Transformation, Genetic , Coculture Techniques , Plants, Genetically Modified/geneticsABSTRACT
This paper purposes suitable conditions for callus induction and co-cultivation with Agrobacterium tumefaciens of J-104 rice cultivar. It was evaluated the effect of different concentrations of 2.4-D and agar, and the inclusion of L-proline and L-glutamine in callus culture medium. The use of 2.5 mg/L 2.4-D and 0.8% agar allowed the highest percentage of embryogenic calli. Callus formation was improved considerably with 500 mg/L of L-proline and L-glutamine in the culture medium. Different factors were studied throughout co-cultivation of calli with A. tumefaciens: inoculation time, co-cultivation temperature, concentration of acetosyringone and co-cultivation period. Transient GUS expression was quantified by fluorometry in all co-cultivated calli. The best results were obtained with the following conditions: 10 min as inoculation time, 100µM acetosyringone in co-cultivation medium, temperature of 20ºC, and 3 days as co-cultivation period.
Se describen las condiciones óptimas para la callogénesis y cocultivo de callos con Agrobacterium tume-faciens de la variedad de arroz J-104. Se determinó el efecto de diferentes concentraciones de 2.4-D, agar y de L-prolina y L-glutamina en el medio de cultivo de callos. El uso de 2,5 mg/L de 2.4-D y 0,8% de agar permitió lograr el porcentaje más alto de callos embriogénicos. La formación de callos fue mejorada considerablemente con la adición de 500 mg/L de L-prolina e igual concentración de L-glutamina en el medio de cultivo. Se estudiaron diferentes factores en el cocultivo de los callos con A. tumefaciens: tiempo de inoculación, concentración de acetosiringona, temperatura y tiempo de cocultivo. Para comparar el efecto de cada factor sobre la expresión GUS se cuantificó la actividad transitoria mediante fluorimetría. Los valores más altos de actividad fluorimétrica fueron obtenidos con las siguientes condiciones: 10 min de inoculación, 100µM de acetosiringona en el medio de cocultivo y 3 días de cocultivo a 20 ºC.
Subject(s)
Coculture Techniques/classification , Coculture Techniques/methodsABSTRACT
O presente trabalho tem como objetivo avaliar o potencial de contaminação de águas superficiais e subterrâneas por atividades de agricultura irrigada do Baixo Jaguaribe, Ceará. A análise foi realizada mediante critérios da Environmental Protection Agency (EPA), índice de GUS e método de GOSS. Esses critérios baseiam-se em propriedades físico-químicas dos princípios ativos de cada agrotóxico. Neste estudo, foram avaliados os principais produtos aplicados nas culturas irrigadas no Baixo Jaguaribe, através de levantamento realizado na própria região. Por meio da comparação entre os modelos, alguns pesticidas apresentaram potencial de contaminação em águas superficiais e subterrâneas, sendo necessário o monitoramento constante dos níveis desses resíduos.
This study evaluated the potential of contamination of surface water and groundwater in the irrigated agriculture of Baixo Jaguaribe, in Ceara state, Brazil. The analysis was performed based on the criteria of the Environmental Protection Agency (EPA), the index of GUS and method of GOSS. These indexes have been based on physical and chemical properties of the active ingredients of each pesticide. The present paper assessed the main products, which are applied on crops in the irrigated agriculture of Baixo Jaguaribe, through survey in the region. The comparison between the models showed some potential for pesticide contamination in surface water and groundwater, and requires the constant monitoring of levels waste.
ABSTRACT
La expresión transitoria y estable del gen gusA-intron en explantes internodales de papa criolla variedad Criolla Colombia cocultivados con Agrobacterium tumefaciens es reportada. Con el fin de determinar la susceptibilidad de esta variedad a la transformación mediada por A. tumefaciens, explantes internodales de Solanum phureja fueron infectados con la cepa LBA4404 de A. tumefaciens que contiene el plásmido pCAMBIA2301. Este plásmido contiene el gen ntpII que confiere resistencia a kanamicina y el gen reportero gusA-intron. La selección de los explantes potencialmente transgénicos fue realizada en medios con kanamicina. La eficiencia de transformación estable y transitoria fue calculada con base en la actividad GUS (ß-glucuronidasa), detectada por el ensayo histoquímico X-gluc. La expresión transitoria y estable del gen gusA-intron fue observada en células del explante más bien que en tejidos completos. Estos resultados demuestran que la papa criolla (S. phureja Juz. et. Buk) variedad Criolla Colombia es susceptible a la infección por A. tumefaciens.
The stable and transient expression of the gusA-intron reporter gene in internodal explants of "Papa Criolla" cultivar Criolla Colombia co-cultivated with Agrobacterium tumefaciens is reported. In order to determine the susceptibility of this cultivar to the A. tumefaciens-mediated transformation, internodal explants of Solanum phureja were infected by A. tumefaciens containing the vector pCAMBIA2301. This vector contains the kanamycin resistance gene ntpII and the reporter gene gusA-intron. The selection of potential transgenic explants was performed on kanamycin-containing media. The stable and transient transformation efficiency was calculated on the basis of the GUS (ß-glucuronidase) activity, detected by the histochemical X-Gluc essay. Transient and stable expression of the gusA-intron gene is observed in explants cells rather than in whole tissues. Nonetheless, these results demonstrated that "Papa Criolla" (Solanum phureja Juz. et. Buk) Cultivar Criolla Colombia is susceptible to the Agrobacterium tumefaciens infection.
ABSTRACT
Genetic transformation though protoplast electroporation has been established for commercially important plant species. In this work, explant sources, electric field strengths, electroporation buffers, DNA forms and osmotic pretreatment were assayed in order to optimize transient reporter gene expression in electroporated tissues of Stylosanthes guianensis, a tropical forage legume. Higher transformation rates were obtained employing cotyledonary explants and an electric field strength of 250 V cm-1. Linear plasmid DNA, chloridefree electroporation buffer and osmotic pretreatment with 1.6 mol L-1 mannitol also improved transient transformation but non-significantly. Transgene specific PCR amplification was employed to prove the transformed status of the tissues.
A transformação genética através da eletroporação de protoplastos foi estabelecida para espécies vegetais comercialmente importantes. Neste trabalho, fontes de explante, intensidades de campo elétrico, soluções de eletroporação, configuração da molécula de DNA e pré-tratamentos osmóticos foram avaliados para otimizar a expressão transiente do gene repórter em tecidos eletroporados de Stylosanthes guianensis, uma leguminosa forrageira tropical. Taxas elevadas de transformação foram obtidas empregando-se explantes cotiledonares e 250 V cm-1 de intensidade de campo elétrico. DNA plasmidial linear, solução de eletroporação livre de cloro e pré-tratamento osmótico com 1,6 mol L-1 de manitol favorecerem a expressão transiente do gene repórter, porém não significativamente. A amplificação por PCR específica do transgene foi usada para demonstrar a ocorrência de transformação nos tecidos.
ABSTRACT
Genetic transformation though protoplast electroporation has been established for commercially important plant species. In this work, explant sources, electric field strengths, electroporation buffers, DNA forms and osmotic pretreatment were assayed in order to optimize transient reporter gene expression in electroporated tissues of Stylosanthes guianensis, a tropical forage legume. Higher transformation rates were obtained employing cotyledonary explants and an electric field strength of 250 V cm-1. Linear plasmid DNA, chloridefree electroporation buffer and osmotic pretreatment with 1.6 mol L-1 mannitol also improved transient transformation but non-significantly. Transgene specific PCR amplification was employed to prove the transformed status of the tissues.
A transformação genética através da eletroporação de protoplastos foi estabelecida para espécies vegetais comercialmente importantes. Neste trabalho, fontes de explante, intensidades de campo elétrico, soluções de eletroporação, configuração da molécula de DNA e pré-tratamentos osmóticos foram avaliados para otimizar a expressão transiente do gene repórter em tecidos eletroporados de Stylosanthes guianensis, uma leguminosa forrageira tropical. Taxas elevadas de transformação foram obtidas empregando-se explantes cotiledonares e 250 V cm-1 de intensidade de campo elétrico. DNA plasmidial linear, solução de eletroporação livre de cloro e pré-tratamento osmótico com 1,6 mol L-1 de manitol favorecerem a expressão transiente do gene repórter, porém não significativamente. A amplificação por PCR específica do transgene foi usada para demonstrar a ocorrência de transformação nos tecidos.
ABSTRACT
Many of the ecological aspects involved with the interactions between legume species and rhizobia strains have been made easily to understood with the use of reporter gene techniques. The introduction of a specific reporter gene in an organism has shown to be highly efficient to analyze such interactions. These reporter genes generally code for products that can be easily identified or measured, mainly enzymes that can act on a variety of substrates, supplying colored or fluorescent detectable products. In general, the marker genes have been used in different aspects of microbial ecology, as in the competition studies among rhizobia strains, symbiotic gene expression, rhizosphere and root colonization, among others. In all studies, the marker genes need to be introduced into the genome by a plasmid or through a chromosomal insert. The present review focus, mainly, on the diverse use and applications of marker genes on ecological microbial studies with emphasis on the GUS gene system (b-glucuronidase).
Muitos aspectos ecológicos envolvidos nas interações entre espécies leguminosas e estirpes de rizóbio têm sido facilmente entendidos com o emprego de técnicas que utilizam genes marcadores. A introdução de um gene marcador específico tem se mostrado altamente viável para análises dessas interações. Os genes marcadores são capazes de codificar para produtos que podem ser facilmente identificados ou medidos, especialmente, enzimas que podem atuar em diferentes substratos, fornecendo produtos coloridos ou fluorescentes facilmente detectáveis. De uma maneira geral, os genes marcadores têm sido utilizados em diferentes aspectos da ecologia microbiana, como nos estudos de competição entre estirpes de rizóbio, expressão de genes simbióticos, colonização da rizosfera e raízes, entre outros. Em todos esses estudos, os genes repórteres precisam ser introduzidos no genoma alvo através de um plasmídeo ou por inserção cromossomal. Nesta revisão, são enfatizados, principalmente, os diversos usos e aplicações de genes marcadores nos estudos de ecologia microbiana, com ênfase no sistema GUS (b-glucuronidase).
ABSTRACT
Many of the ecological aspects involved with the interactions between legume species and rhizobia strains have been made easily to understood with the use of reporter gene techniques. The introduction of a specific reporter gene in an organism has shown to be highly efficient to analyze such interactions. These reporter genes generally code for products that can be easily identified or measured, mainly enzymes that can act on a variety of substrates, supplying colored or fluorescent detectable products. In general, the marker genes have been used in different aspects of microbial ecology, as in the competition studies among rhizobia strains, symbiotic gene expression, rhizosphere and root colonization, among others. In all studies, the marker genes need to be introduced into the genome by a plasmid or through a chromosomal insert. The present review focus, mainly, on the diverse use and applications of marker genes on ecological microbial studies with emphasis on the GUS gene system (b-glucuronidase).
Muitos aspectos ecológicos envolvidos nas interações entre espécies leguminosas e estirpes de rizóbio têm sido facilmente entendidos com o emprego de técnicas que utilizam genes marcadores. A introdução de um gene marcador específico tem se mostrado altamente viável para análises dessas interações. Os genes marcadores são capazes de codificar para produtos que podem ser facilmente identificados ou medidos, especialmente, enzimas que podem atuar em diferentes substratos, fornecendo produtos coloridos ou fluorescentes facilmente detectáveis. De uma maneira geral, os genes marcadores têm sido utilizados em diferentes aspectos da ecologia microbiana, como nos estudos de competição entre estirpes de rizóbio, expressão de genes simbióticos, colonização da rizosfera e raízes, entre outros. Em todos esses estudos, os genes repórteres precisam ser introduzidos no genoma alvo através de um plasmídeo ou por inserção cromossomal. Nesta revisão, são enfatizados, principalmente, os diversos usos e aplicações de genes marcadores nos estudos de ecologia microbiana, com ênfase no sistema GUS (b-glucuronidase).
ABSTRACT
The effect of parameters involved in the transformation efficiency of peanut (Arachis hypogaea L.) seed tissues by direct gene transfer using a helium inflow particle bombardment device was evaluated. Transient gene expression was affected by both particle and DNA amounts, and was positively correlated with gene copy number, as determined byß-glucuronidase (GUS) activity assays. No influence of plasmid size on GUS gene expression was observed. Transcriptional control of GUS by either the CaMV 35S or the 2S promoter from Brazil nut 2S albumin gene varied with the developmental stage of the seed and was approximately tenfold greater under the influence of the 35S promoter than under the 2S promoter. The gene products of both the Brazil nut methionine-rich 2S albumin and GUS genes under the transcriptional control of the 35S promoter were detected by ELISA assays.