Your search keyword '"Osmundo B. Oliveira-Neto"' showing total 30 results

1. Corrigendum: Proteomic Analysis and Functional Validation of a Brassica oleracea Endochitinase Involved in Resistance to Xanthomonas campestris

Author

Cristiane Santos, Fábio C. S. Nogueira, Gilberto B. Domont, Wagner Fontes, Guilherme S. Prado, Peyman Habibi, Vanessa O. Santos, Osmundo B. Oliveira-Neto, Maria Fatima Grossi-de-Sá, Jesus V. Jorrín-Novo, Octavio L. Franco, and Angela Mehta

Subjects

LC-MS/MS, differential protein abundance, qRT-PCR, gene overexpression, plant–pathogen interaction, Plant culture, SB1-1110

Published

2020

2. Proteomic Analysis and Functional Validation of a Brassica oleracea Endochitinase Involved in Resistance to Xanthomonas campestris

Author

Cristiane Santos, Fábio C. S. Nogueira, Gilberto B. Domont, Wagner Fontes, Guilherme S. Prado, Peyman Habibi, Vanessa O. Santos, Osmundo B. Oliveira-Neto, Maria Fatima Grossi-de-Sá, Jesus V. Jorrín-Novo, Octavio L. Franco, and Angela Mehta

Subjects

LC-MS/MS, differential protein abundance, qRT-PCR, gene overexpression, plant–pathogen interaction, Plant culture, SB1-1110

Abstract

Black rot is a severe disease caused by the bacterium Xanthomonas campestris pv. campestris (Xcc), which can lead to substantial losses in cruciferous vegetable production worldwide. Although the use of resistant cultivars is the main strategy to control this disease, there are limited sources of resistance. In this study, we used the LC-MS/MS technique to analyze young cabbage leaves and chloroplast-enriched samples at 24 h after infection by Xcc, using both susceptible (Veloce) and resistant (Astrus) cultivars. A comparison between susceptible Xcc-inoculated plants and the control condition, as well as between resistant Xcc-inoculated plants with the control was performed and more than 300 differentially abundant proteins were identified in each comparison. The chloroplast enriched samples contributed with the identification of 600 additional protein species in the resistant interaction and 900 in the susceptible one, which were not detected in total leaf sample. We further determined the expression levels for 30 genes encoding the identified differential proteins by qRT-PCR. CHI-B4 like gene, encoding an endochitinase showing a high increased abundance in resistant Xcc-inoculated leaves, was selected for functional validation by overexpression in Arabidopsis thaliana. Compared to the wild type (Col-0), transgenic plants were highly resistant to Xcc indicating that CHI-B4 like gene could be an interesting candidate to be used in genetic breeding programs aiming at black rot resistance.

Published

2019

3. Stabilized Double-Stranded RNA Strategy Improves Cotton Resistance to CBW (Anthonomus grandis)

Author

Thuanne P. Ribeiro, Daniel D. N. Vasquez, Leonardo L. P. Macedo, Isabela T. Lourenço-Tessutti, David C. Valença, Osmundo B. Oliveira-Neto, Bruno Paes-de-Melo, Paolo L. Rodrigues-Silva, Alexandre A. P. Firmino, Marcos F. Basso, Camila B. J. Lins, Maysa R. Neves, Stefanie M. Moura, Bruna M. D. Tripode, José E. Miranda, Maria C. M. Silva, and Maria F. Grossi-de-Sa

Subjects

Inorganic Chemistry, RNA interference, Gossypium hirsutum, Anthonomus grandis, gene silencing, knockdown, viroid genome, Organic Chemistry, General Medicine, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy, Catalysis, Computer Science Applications

Abstract

Cotton is the most important crop for fiber production worldwide. However, the cotton boll weevil (CBW) is an insect pest that causes significant economic losses in infested areas. Current control methods are costly, inefficient, and environmentally hazardous. Herein, we generated transgenic cotton lines expressing double-stranded RNA (dsRNA) molecules to trigger RNA interference-mediated gene silencing in CBW. Thus, we targeted three essential genes coding for chitin synthase 2, vitellogenin, and ecdysis-triggering hormone receptor. The stability of expressed dsRNAs was improved by designing a structured RNA based on a viroid genome architecture. We transformed cotton embryos by inserting a promoter-driven expression cassette that overexpressed the dsRNA into flower buds. The transgenic cotton plants were characterized, and positive PCR transformed events were detected with an average heritability of 80%. Expression of dsRNAs was confirmed in floral buds by RT-qPCR, and the T1 cotton plant generation was challenged with fertilized CBW females. After 30 days, data showed high mortality (around 70%) in oviposited yolks. In adult insects fed on transgenic lines, chitin synthase II and vitellogenin showed reduced expression in larvae and adults, respectively. Developmental delays and abnormalities were also observed in these individuals. Our data remark on the potential of transgenic cotton based on a viroid-structured dsRNA to control CBW.

Published

2022

4. A brief report on some health aspects of rats fed with crescent levels of recombinant chagasin, a potential plant defense protein

Author

Osmundo B. Oliveira Neto, Davi F. Farias, Ilka M. Vasconcelos, Norma S. Paes, Ana C. S. Monteiro, Maria C. M. da Silva, Luciane M. Guimarães, Ana F.U. Carvalho, and Maria F. Grossi-de-Sá

Subjects

chagasina, proteína recombinante, potencial de perigo, experimento de alimentação de curto prazo em rato, chagasin, recombinant protein, hazard potential, short-term rat feeding trial, Science

Abstract

Chagasin may be considered a potential plant-incorporated protectant (PIP) protein due to its deleterious effects on insect pests. However, extensive safety studies with PIP's are necessary before introducing them into the target plant. Thus, a short-term feeding trial in rats with high doses of r-chagasin was conducted to provide evidences about its safety. Three test diets containing casein + r-chagasin (0.25, 0.5 and 1% of total protein) were offered to rats (10 days). The test diets did not show adverse effects upon the development, organ weight, hematological parameters and serum protein profiles of rats, providing preliminary information on the safety of r-chagasin.Chagasina pode ser considerada como uma proteína com potencial para protetor incorporado a planta (PPI), devido aos seus efeitos deletérios sobre insetos praga. No entanto, estudos extensivos de segurança com PPI são necessários antes de introduzi-las na planta alvo. Assim, um experimento de alimentação de curto prazo em ratos com doses elevadas de r-chagasina foi conduzido para fornecer evidências sobre a sua segurança. Três dietas teste contendo caseína + r-chagasina (0,25; 0,5 e 1% de proteína total) foram oferecidas aos ratos (10 dias). As dietas teste não apresentaram efeitos adversos sobre o desenvolvimento, o peso de órgãos, parâmetros hematológicos e perfis de proteínas séricas dos ratos, fornecendo informações preliminares sobre a segurança da r-chagasina.

Published

2012

5. Corrigendum: proteomic analysis and functional validation of a Brassica oleracea Endochitinase involved in resistance to Xanthomonas campestris

Author

Cristiane Santos, Fábio C. S. Nogueira, Gilberto B. Domont, Wagner Fontes, Guilherme S. Prado, Peyman Habibi, Vanessa O. Santos, Osmundo B. Oliveira-Neto, Maria Fatima Grossi-de-Sá, Jesus V. Jorrín-Novo, Octavio L. Franco, Angela Mehta, CRISTIANE SANTOS, UFJF, FÁBIO C. S. NOGUEIRA, UFRJ, GILBERTO B. DOMONT, UFRJ, WAGNER FONTES, UNB, GUILHERME S. PRADO, PEYMAN HABIBI, UFPR, VANESSA O. SANTOS, OSMUNDO B. OLIVEIRA-NETO, UFPR, MARIA FATIMA GROSSI DE SA, Cenargen, JESUS V. JORRÍN-NOVO, UNIVERSIDAD DE CÓRDOBA, SPAIN, OCTAVIO L. FRANCO, UFJF, and ANGELA MEHTA DOS REIS, Cenargen.

Subjects

0106 biological sciences, 0301 basic medicine, gene overexpression, plant–pathogen interaction, differential protein abundance, Plant Science, Genetically modified crops, lcsh:Plant culture, Biology, 01 natural sciences, 03 medical and health sciences, QRT-PCR, Gene overexpression, Differential protein abundance, Plant–pathogen interaction, Arabidopsis thaliana, lcsh:SB1-1110, Cultivar, LC-MS/MS, Gene, Genetics, Cruciferous vegetables, Wild type, food and beverages, qRT-PCR, biology.organism_classification, Xanthomonas campestris, 030104 developmental biology, Brassica oleracea, 010606 plant biology & botany

Abstract

Black rot is a severe disease caused by the bacterium Xanthomonas campestris pv. campestris (Xcc), which can lead to substantial losses in cruciferous vegetable production worldwide. Although the use of resistant cultivars is the main strategy to control this disease, there are limited sources of resistance. In this study, we used the LC-MS/MS technique to analyze young cabbage leaves and chloroplast-enriched samples at 24 h after infection by Xcc, using both susceptible (Veloce) and resistant (Astrus) cultivars. A comparison between susceptible Xcc-inoculated plants and the control condition, as well as between resistant Xcc-inoculated plants with the control was performed and more than 300 differentially abundant proteins were identified in each comparison. The chloroplast enriched samples contributed with the identification of 600 additional protein species in the resistant interaction and 900 in the susceptible one, which were not detected in total leaf sample. We further determined the expression levels for 30 genes encoding the identified differential proteins by qRT-PCR. CHI-B4 like gene, encoding an endochitinase showing a high increased abundance in resistant Xcc-inoculated leaves, was selected for functional validation by overexpression in Arabidopsis thaliana. Compared to the wild type (Col-0), transgenic plants were highly resistant to Xcc indicating that CHI-B4 like gene could be an interesting candidate to be used in genetic breeding programs aiming at black rot resistance.

Published

2019

6. Stability and tissue-specific Cry10Aa overexpression improves cotton resistance to the cotton boll weevil

Author

José Ednilson Miranda, Marcio Alves-Ferreira, Maria Cristina Mattar da Silva, Tatianne Piza Ferrari Abreu-Jardim, Osmundo B. Oliveira-Neto, Wagner Alexandre Lucena, Isabela Tristan Lourenço-Tessutti, Marcos Fernando Basso, Dagna Maria Laurindo da Silva, Leonardo Lima Pepino de Macedo, Mayara Holanda de Carvalho, Carolina Vianna Morgante, Bruna Mendes Diniz Tripode, Thuanne Pires Ribeiro, Maria Fatima Grossi-de-Sa, Eduardo Romano de Campos-Pinto, THUANNE PIRES RIBEIRO, UNB, MARCOS FERNANDO BASSO, MAYARA HOLANDA DE CARVALHO, LEONARDO LIMA PEPINO DE MACEDO, Cenargen, DAGNA MARIA LAURINDO DA SILVA, ISABELA TRISTAN LOURENCO TESSUTTI, Cenargen, OSMUNDO BRILANTE DE OLIVEIRA-NETO, EDUARDO ROMANO DE CAMPOS PINTO, Cenargen, WAGNER ALEXANDRE LUCENA, Cenargen, MARIA CRISTINA MATTAR DA SILVA, Cenargen, BRUNA MENDES DINIZ TRIPODE, CNPA, TATIANNE PIZA FERRARI ABREU-JARDIM, JOSE EDNILSON MIRANDA, CNPA, MARCIO ALVES-FERREIRA, UFRJ, CAROLINA VIANNA MORGANTE, CPATSA, and MARIA FATIMA GROSSI DE SA, Cenargen.

Subjects

0106 biological sciences, Gynoecium, Resistance management, Praga de inseto, Transgene, Resistance, Stamen, Insect pest, Bacillus, Cotton, Biology, 01 natural sciences, 010608 biotechnology, Bacillus thuringiensis, Insect pests, Herança estável, Bicudo do algodão, Larva, Bud, Algodão, fungi, Entomotoxin, biology.organism_classification, Genetically modified organism, Management, Stable inheritance, Horticulture, Praga de Planta, Anthonomus, Thuringiensis, Inseto, Resistência gestão, Praga, 010606 plant biology & botany

Abstract

The cotton boll weevil (CBW, Anthonomus grandis) is the most destructive cotton insect pest affecting cotton crops. To overcome this problem, CBW-resistant genetically modified cotton plants overexpressing Bacillus thuringiensis entomotoxins were successfully obtained. Previous results showed that the overexpression of Cry10Aa protoxin led to high mortality of the CBW larvae in greenhouse conditions. In this study, we advanced three more generations (T2 to T4), with several cotton events constitutively overexpressing the Cry10Aa protoxin, and the transgene stability and agronomic performance were investigated. In addition, stable transgenic cotton overexpressing the Cry10Aa active (Cry10Aa protoxin lacking the -helix N-terminal) driven by cotton flower bud-specific promoters were generated and characterized. Cotton events constitutively or tissue-specifically overexpressing the Cry10Aa protein (protoxin or active) represented mortality percentages of the CBW larva of up to 85 % in plants under greenhouse conditions. Events overexpressing the Cry10Aa active under control of the flower bud-specific promoter showed higher protein accumulation in stamens and carpels compared to the events with constitutive expression. Our findings suggested that the high stability of the Cry10Aa transgene and the elevated expression level and protein accumulation in flower bud tissues (primarily in stamen and carpels) contribute to improved resistance to CBW larvae. Finally, some notable events were selected with potential for future field trials in different cotton- producing regions of Brazil. Therefore, cotton events overexpressing high levels of the Cry10Aa protein in flower bud tissue may have a strong potential for commercial use in the integrated management of CBW. Made available in DSpace on 2020-10-20T09:13:24Z (GMT). No. of bitstreams: 1 Stability-and-tissue-2020.pdf: 2369502 bytes, checksum: aa3a6d66a284ec2f521627b47581e7f2 (MD5) Previous issue date: 2020

Published

2020

7. MALDI TOF MS-profiling: Applications for bacterial and plant sample differentiation and biological variability assessment

Author

I. R. I. Santos, Angela Mehta, Jonny Everson Scherwinski-Pereira, Osmundo B. Oliveira-Neto, Lílian S.T. Carmo, Daiane Gonzaga Ribeiro, Luciano P. Silva, and Raphael Ferreira Almeida

Subjects

0301 basic medicine, Proteomics, 030102 biochemistry & molecular biology, biology, Somatic embryogenesis, Biophysics, food and beverages, Proteins, Reproducibility of Results, Computational biology, biology.organism_classification, Xanthomonas campestris, Biochemistry, Transcriptome, 03 medical and health sciences, Matrix-assisted laser desorption/ionization, 030104 developmental biology, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Brassica oleracea, Profiling (information science), Biological variability

Abstract

In this study, we evaluated the potential use of MALDI-TOF MS Profiling for the differentiation of biological samples submitted to different treatments. We compared the bacterium Xanthomonas campestris pv. campestris (Xcc), grown in culture medium and in vivo (recovered from the plant). Plant samples were also analyzed and included explants at different somatic embryogenesis (SE) stages, as well as leaves from Brassica oleracea and Arabidopsis thaliana inoculated with Xcc, at different time points. The results showed that bacteria and highly divergent plant samples, such as those from embryogenic stages, can be unequivocally differentiated and the clustering was in accordance with proteomic analysis performed by 2-DE. These results show an important application of MALDI-TOF MS Profiling to select and prioritize samples to be analyzed prior to more complex approaches including transcriptomics and proteomics. We also show that in plant-pathogen interactions, when more subtle differences are obtained, the main contribution of MALDI-TOF MS Profiling is in the assessment of experimental variability. This is relevant since reproducibility is a challenging issue when dealing with complex experimental conditions such as plant-pathogen interactions. We propose the use of MALDI-TOF MS Profiling to aid researchers in minimizing experimental variability unrelated to the condition being analyzed. SIGNIFICANCE: MALDI-Profiling offers an inexpensive, rapid and reliable approach for investigating the protein profile to assess sample differentiation and experimental variability in microorganisms and plants and can be highly useful to analyze samples prior to more complex and expensive techniques such as proteomics and transcriptomics.

Published

2019

8. Shotgun proteomics coupled to transient-inducible gene silencing reveal rice susceptibility genes as new sources for blast disease resistance

Author

Rosangela Bevitori, Angela Mehta, Wagner Fontes, Marcelo Valle de Sousa, Raquel Neves de Mello, Octavio L. Franco, Osmundo B. Oliveira-Neto, Maria M.D.F. Cintra, Mariana S. Castro, and Fabiano T. P. K. Távora

Subjects

Proteomics, 0301 basic medicine, Candidate gene, Biophysics, Computational biology, Biology, Plant disease resistance, Biochemistry, Transcriptome, 03 medical and health sciences, Ascomycota, Gene expression, Gene silencing, Gene Silencing, Shotgun proteomics, Disease Resistance, Plant Diseases, Plant Proteins, 030102 biochemistry & molecular biology, food and beverages, Oryza, Plant disease, Magnaporthe, Plant Breeding, 030104 developmental biology, Proteome

Abstract

A comparative proteomic analysis between two near-isogenic rice lines, displaying a resistant and susceptible phenotype upon infection with Magnaporthe oryzae was performed. We identified and validated factors associated with rice disease susceptibility, representing a flourishing source toward a more resolute rice-blast resistance. Proteome profiles were remarkably different during early infection (12 h post-inoculation), revealing several proteins with increased abundance in the compatible interaction. Potential players of rice susceptibility were selected and gene expression was evaluated by RT-qPCR. Gene Ontology analysis disclosed susceptibility gene-encoded proteins claimed to be involved in fungus sustenance and suppression of plant immunity, such as sucrose synthase 4-like, serpin-ZXA-like, nudix hydrolase15, and DjA2 chaperone protein. Two other candidate genes, picked from a previous transcriptome study, were added into our downstream analysis including pyrabactin resistant-like 5 (OsPYL5), and rice ethylene-responsive factor 104 (OsERF104). Further, we validated their role in susceptibility by Transient-Induced Gene Silencing (TIGS) using short antisense oligodeoxyribonucleotides that resulted in a remarkable reduction of foliar disease symptoms in the compatible interaction. Therefore, we successfully employed shotgun proteomics and antisense-based gene silencing to prospect and functionally validate rice potential susceptibility factors, which could be further explored to build rice-blast resistance. Significance R gene-mediated disease resistance is race-specific and often not durable in the field. More recently, advancements in new breeding techniques (NBTs) have made plant disease susceptibility genes (S-genes) a new target to build a broad spectrum and more durable resistance, hence an alternative source to R-genes in breeding programs. We successfully coupled shotgun proteomics and gene silencing tools to prospect and validate new rice-bast susceptibility genes that can be further exploited toward a more resolute blast disease resistance.

Published

2021

9. Proteomic screening for the identification of proteins involved in resistance to Xanthomonas campestris pv. malvacearum in cotton

Author

Liziane Maria de Lima, Angela Mehta, Luciano P. Silva, I. R. I. Santos, W. M. Coutinho, Mariana Rocha Maximiano, Osmundo B. Oliveira-Neto, and Thuanny Borba Rios

Subjects

0106 biological sciences, 0301 basic medicine, biology, Resistance (ecology), Inoculation, Proteomic screening, Active Defense, Plant Science, biology.organism_classification, 01 natural sciences, Gossypium hirsutum, Xanthomonas campestris, Microbiology, 03 medical and health sciences, 030104 developmental biology, Genetics, Bacterial blight, Protein abundance, 010606 plant biology & botany

Abstract

In this study, we identified proteins in cotton associated with resistance to bacterial blight (BB) by using two-dimensional electrophoresis (2-DE). To search for proteins that may trigger resistance/defense response, here we analyzed Gossypium hirsutum plants at 24 and 120 h after inoculation with Xanthomonas campestris pv. malvacearum (Xcm). Photosynthesis-related proteins showed pronounced reduction in the Xcm-inoculated plants. These results indicate that the resistance response in cotton involves the reduction of protein abundance to cope with infection caused by Xcm and support our previous studies showing that the negative regulation of photosynthesis is crucial for resistance to allow an active defense response.

Published

2021

10. Pan Proteome of Xanthomonas campestris pv. campestris Isolates Contrasting in Virulence

Author

André M. Murad, Angela Mehta, Cristiane Santos, Octavio L. Franco, Fábio Bueno dos Reis Junior, Osmundo B. Oliveira-Neto, Esaú Megias, Fabiano T. P. K. Távora, and Mariana Rocha Maximiano

Subjects

Genetics, 0303 health sciences, biology, Proteome, Virulence, Virulence Factors, Gene Expression Profiling, 030302 biochemistry & molecular biology, Gene Expression Regulation, Bacterial, biology.organism_classification, Xanthomonas campestris, Biochemistry, Genome, Culture Media, Xanthomonas campestris pv. campestris, 03 medical and health sciences, Regulon, Bacterial Proteins, Shotgun proteomics, Molecular Biology, Bacteria, 030304 developmental biology

Abstract

Fully sequenced genomes of Xanthomonas campestris pv. campestris (Xcc) strains are reported. However, intra-pathovar differences are still intriguing and far from clear. In this work, the contrasting virulence between two isolates of Xcc - Xcc51 (more virulent) and XccY21 (less virulent) is evaluated by determining their pan proteome profiles. The bacteria are grown in NYG and XVM1 (optimal for induction of hrp regulon) broths and collected at the max-exponential growth phase. Shotgun proteomics reveals a total of 329 proteins when Xcc isolates are grown in XVM1. A comparison of both profiles reveals 47 proteins with significant abundance fluctuations, out of which, 39 show an increased abundance in Xcc51 and are mainly involved in virulence/adaptation mechanisms, genetic information processing, and membrane receptor/iron transport systems, such as BfeA, BtuB, Cap, Clp, Dcp, FyuA, GroEs, HpaG, Tig, and OmpP6. Several differential proteins are further analyzed by qRT-PCR, which reveals a similar expression pattern to the protein abundance. The data shed light on the complex Xcc pathogenicity mechanisms and point out a set of proteins related to the higher virulence of Xcc51. This information is essential for the development of more efficient strategies aiming at the control of black rot disease.

Published

2019

11. Promoter isolation and characterization ofGhAO-like1, aGossypium hirsutumgene similar to multicopper oxidases that is highly expressed in reproductive organs

Author

Osmundo B. Oliveira-Neto, Fernando Campos de Assis Fonseca, Maria Fatima Grossi-de-Sa, Sarah Muniz Nardeli, Sinara Artico, Julia Lambret-Frotté, and Marcio Alves-Ferreira

Subjects

0106 biological sciences, 0301 basic medicine, Arabidopsis, Flowers, Genes, Plant, Gossypium, 01 natural sciences, Gossypium hirsutum, 03 medical and health sciences, Gene Expression Regulation, Plant, Phylogenetics, Botany, Genetics, Primer walking, Promoter Regions, Genetic, Molecular Biology, Gene, Phylogeny, Plant Proteins, biology, fungi, food and beverages, General Medicine, Plants, Genetically Modified, biology.organism_classification, Isolation (microbiology), 030104 developmental biology, Organ Specificity, Fruit, Heterologous expression, Oxidoreductases, 010606 plant biology & botany, Biotechnology

Abstract

Cotton is one of the most economically important cultivated crops. It is the major source of natural fiber for the textile industry and an important target for genetic modification for both biotic stress and herbicide tolerance. Therefore, the characterization of genes and regulatory regions that might be useful for genetic transformation is indispensable. The isolation and characterization of new regulatory regions is of great importance to drive transgene expression in genetically modified crops. One of the major drawbacks in cotton production is pest damage; therefore, the most promising, cost-effective, and sustainable method for pest control is the development of genetically resistant cotton lines. Considering this scenario, our group isolated and characterized the promoter region of a MCO (multicopper oxidase) from Gossypium hirsutum, named GhAO-like1 (ascorbate oxidase-like1). The quantitative expression, together with the in vivo characterization of the promoter region reveals that GhAO-like1 has a flower- and fruit-specific expression pattern. The GUS activity is mainly observed in stamens, as expected considering that the GhAO-like1 regulatory sequence is enriched in cis elements, which have been characterized as a target of reproductive tissue specific transcription factors. Both histological and quantitative analyses in Arabidopsis thaliana have confirmed flower (mainly in stamens) and fruit expression of GhAO-like1. In the present paper, we isolated and characterized both in silico and in vivo the promoter region of the GhAO-like1 gene. The regulatory region of GhAO-like1 might be useful to confer tissue-specific expression in genetically modified plants.

Published

2016

12. Validation of an in vitro system for studies of pathogenicity mechanisms in Xanthomonas campestris

Author

Mariana Rocha Maximiano, Octavio L. Franco, Osmundo B. Oliveira-Neto, and Angela Mehta

Subjects

0301 basic medicine, 030106 microbiology, Brassica, Xanthomonas campestris, Microbiology, 03 medical and health sciences, chemistry.chemical_compound, Xanthomonas, Bacterial Proteins, Gene expression, Genetics, RNA, Messenger, Molecular Biology, Gene, Plant Diseases, Growth medium, biology, Virulence, Gene Expression Profiling, fungi, food and beverages, Gene Expression Regulation, Bacterial, Plant Pathology, biology.organism_classification, Culture Media, Gene expression profiling, RNA, Bacterial, Real-time polymerase chain reaction, chemistry, Biochemistry, Bacteria

Abstract

Several minimal media capable of inducing pathogenicity genes have been used to study plant-pathogen interactions. An in planta assay to study a closer interaction between the bacteria and the host was also developed and has been employed by our group. In order to determine whether growth medium could be improved to better approximate in planta conditions beyond that offered by the defined minimal medium XVM1, we compared the expression of 20 Xanthomonas campestris pv. campestris (Xcc) genes by quantitative reverse transcription - polymerase chain reaction (qRT-PCR) under in vivo (bacteria recovered from the plant) and in vitro (rich medium NYG, minimal medium XVM1 and XVM1 + leaf extract) growth systems. The results showed a higher expression level of the genes in the in planta system when compared to growth in culture media. In planta growth is closest to a real interaction condition and captures the complexity of the plant cell environment; however, this system has some limitations. The main finding of our work is that the addition of plant extract to XVM1 medium results in a gene expression profile that better matches the in planta profile, when compared with the XVM1 medium alone, giving support to the use of plant extract to study pathogenicity mechanisms in Xanthomonas.

Published

2017

13. Differential accumulation of Xanthomonas campestris pv. campestris proteins during the interaction with the host plant: Contributions of an in vivo system

Author

Angela Mehta, Osmundo B. Oliveira-Neto, André M. Murad, Octavio L. Franco, Cristiane Santos, Mariana Rocha Maximiano, and Daiane G. Ribeiro

Subjects

0301 basic medicine, biology, Proteome, Host (biology), Virulence Factors, 030106 microbiology, food and beverages, Brassica, biology.organism_classification, Proteomics, Xanthomonas campestris, Biochemistry, In vitro, Microbiology, Xanthomonas campestris pv. campestris, Plant Leaves, 03 medical and health sciences, Bacterial Proteins, In vivo, Host-Pathogen Interactions, Molecular Biology, Gene, Plant Diseases

Abstract

Xanthomonas campestris pv. campestris (Xcc) is the causal agent of black rot, a highly destructive disease that affects all brassicas. This work aimed to study the interaction Xcc-Brassica oleracea using an in vivo system in an attempt to identify proteins involved in pathogenicity. We used label-free shotgun 2D-nanoUPLC/MSE to analyze Xcc proteins in three conditions: in the interaction with susceptible (REK) and resistant (REU) plants and in culture medium (control condition). A model of Xcc-susceptible host interaction is proposed and shows that Xcc increases the abundance of several crucial proteins for infection and cell protection. In this study, we also confirmed the differential expression by qPCR analysis of selected genes. This is the first report showing a large scale identification of proteins in an in vivo host plant condition. Considering that most studies involving phytopathogens are in vitro (growth in culture medium or in plant extract), this work contributes with relevant information related to the plant-pathogen interaction in planta. This article is protected by copyright. All rights reserved

Published

2017

14. Isolation and Characterization of Three New Promoters from Gossypium hirsutum that Show High Activity in Reproductive Tissues

Author

Osmundo B. Oliveira-Neto, Sinara Artico, Marcio Alves-Ferreira, Julia Lambret-Frotté, Maria Fatima Grossi-de-Sa, and Sarah Muniz Nardeli

Subjects

fungi, Stamen, food and beverages, Promoter, Plant Science, Biology, biology.organism_classification, Anthonomus, Arabidopsis, Botany, Gene expression, Arabidopsis thaliana, Silique, Molecular Biology, Gene

Abstract

Engineering of plant protection requires well-characterized tissue-specific promoters for the targeted expression of insecticidal resistance genes. Herein, we describe the isolation of five different fragments of promoters of three distinct flower-specific cotton (Gossypium hirsutum) genes. Expression analyses of the three genes GhPME-like1, GhβGal-like1 and GhPL-like1 revealed that they are expressed highly in flowers buds ranging from 4 to 12 mm in size. Several putative regulatory cis-elements were identified in the promoter regions, including elements involved in the control of tissue-specific gene expression in pollen grains and fruits. In vivo analyses of these promoters were performed using the heterologous plant system Arabidopsis thaliana by fusing them with the gene uidA (GUS). GUS staining in Arabidopsis tissues revealed that their expression was restricted to anthers, with the majority of expression in pollen grains and in the upper portion of the carpels and siliques. A comparison between a CaMV35S::GUS constitutive promoter and the promoters isolated in this study revealed that the cotton promoters were more active and were specific to flowers and fruits, which are organs that are preferentially attacked by important pest insects such as the boll weevil (Anthonomus grandis). The activity of the promoters was also confirmed using transient expression assays in flower buds of G. hirsutum. The promoters of GhPME-like1, GhβGal-like1 and GhPL-like1 are specific to reproductive tissues and could represent important biotechnological tools for controlling insect pests, in particular the cotton boll weevil, which attacks floral and fruit tissues.

Published

2013

15. Functional characterization of AGAMOUS-subfamily members from cotton during reproductive development and in response to plant hormones

Author

Maria Fatima Grossi-de-Sa, Ana Berbel, Osmundo B. Oliveira-Neto, Francisco Madueño, Sarah Muniz Nardeli, Cristina Ferrándiz, Marcio Alves-Ferreira, Cássio Lima, Sinara Artico, and Stéfanie Menezes de Moura

Subjects

0106 biological sciences, 0301 basic medicine, Ovary (botany), Arabidopsis, Gossypium hirsutum, MADS Domain Proteins, MADS-box genes, Plant Science, Genes, Plant, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, Antirrhinum majus, Plant Growth Regulators, Auxin, Genes, Reporter, Sequence Analysis, Protein, Botany, Plant hormones, Brassinosteroid, Arabidopsis thaliana, Reproductive development, Phylogeny, chemistry.chemical_classification, Gossypium, biology, Agamous, Gene Expression Profiling, Reproduction, fungi, food and beverages, Cell Biology, biology.organism_classification, Plants, Genetically Modified, 030104 developmental biology, chemistry, Fruit, Gibberellin, Gene expression, Reference genes, 010606 plant biology & botany

Abstract

[EN] Reproductive development in cotton, including the fruit and fiber formation, is a complex process; it involves the coordinated action of gene expression regulators, and it is highly influenced by plant hormones. Several studies have reported the identification and expression of the transcription factor family MADS-box members in cotton ovules and fibers; however, their roles are still elusive during the reproductive development in cotton. In this study, we evaluated the expression profiles of five MADS-box genes (GhMADS3, GhMADS4, GhMADS5, GhMADS6 and GhMADS7) belonging to the AGAMOUS-subfamily in Gossypium hirsutum. Phylogenetic and protein sequence analyses were performed using diploid (G. arboreum, G. raimondii) and tetraploid (G. barbadense, G. hirsutum) cotton genomes, as well as the AG-subfamily members from Arabidopsis thaliana, Petunia hybrida and Antirrhinum majus. qPCR analysis showed that the AG-subfamily genes had high expression during flower and fruit development in G. hirsutum. In situ hybridization analysis also substantiates the involvement of AG-subfamily members on reproductive tissues of G. hirsutum, including ovule and ovary. The effect of plant hormones on AG-subfamily genes expression was verified in cotton fruits treated with gibberellin, auxin and brassinosteroid. All the genes were significantly regulated in response to auxin, whereas only GhMADS3, GhMADS4 and GhMADS7 genes were also regulated by brassinosteroid treatment. In addition, we have investigated the GhMADS3 and GhMADS4 overexpression effects in Arabidopsis plants. Interestingly, the transgenic plants from both cotton AG-like genes in Arabidopsis significantly altered the fruit size compared to the control plants. This alteration suggests that cotton AG-like genes might act regulating fruit formation. Our results demonstrate that members of the AG-subfamily in G. hirsutum present a conserved expression profile during flower development, but also demonstrate their expression during fruit development and in response to phytohormones., We thank Durvalina Felix and Alexandre Garcez by assist in samples preparation. We are grateful Fabia Guimaraes-Dias by valuable suggestions on the Manuscript. This work was supported by the Conselho Nacional de Desenvolvimento Cientifico e Tecnologico (CNPq), Fundacao de Amparo a Pesquisa do Rio de Janeiro (FAPERJ), Coordenacao de Aperfeicoamento de Pessoal de Nivel Superior (CAPES) and European Community (Evolutionary Conservation of Regulatory Network Controlling Flower Development, EVOCODE).

Published

2017

16. NH4+-stimulated low-K+ uptake is associated with the induction of H+ extrusion by the plasma membrane H+-ATPase in sorghum roots under K+ deficiency

Author

José Tarquinio Prisco, Maria Fatima Grossi-de-Sa, Osmundo B. Oliveira-Neto, Juan Carlos Alvarez-Pizarro, and Enéas Gomes-Filho

Subjects

Nitrogen, Physiology, ATPase, Kinetics, Plant Science, Plant Roots, Hydrolysis, ATP hydrolysis, Protein Isoforms, Sorghum, biology, Chemistry, Cell Membrane, food and beverages, Biological Transport, Hydrogen-Ion Concentration, Enzyme assay, Quaternary Ammonium Compounds, Solutions, Proton-Translocating ATPases, Membrane, Biochemistry, Shoot, Potassium, biology.protein, Agronomy and Crop Science, Homeostasis, Nuclear chemistry

Abstract

The effect of external inorganic nitrogen and K(+) content on K(+) uptake from low-K(+) solutions and plasma membrane (PM) H(+)-ATPase activity of sorghum roots was studied. Plants were grown for 15 days in full-nutrient solutions containing 0.2 or 1.4mM K(+) and inorganic nitrogen as NO(3)(-), NO(3)(-)/NH(4)(+) or NH(4)(+) and then starved of K(+) for 24, 48 and 72 h. NH(4)(+) in full nutrient solution significantly affected the uptake efficiency and accumulation of K(+), and this effect was less pronounced at the high K(+) concentration. In contrast, the translocation rate of K(+) to the shoot was not altered. Depletion assays showed that plants grown with NH(4)(+) more efficiently depleted the external K(+) and reached higher initial rates of low-K(+) uptake than plants grown with NO(3)(-). One possible influence of K(+) content of shoot, but not of roots, on K(+) uptake was evidenced. Enhanced K(+)-uptake capacity was correlated with the induction of H(+) extrusion by PM H(+)-ATPase. In plants grown in high K(+) solutions, the increase in the active H(+) gradient was associated with an increase of the PM H(+)-ATPase protein concentration. In contrast, in plants grown in solutions containing 0.2mM K(+), only the initial rate of H(+)-pumping and ATP hydrolysis were affected. Under these conditions, two specific isoforms of PM H(+)-ATPase were detected, independent of the nitrogen source and deficiency period. No change in enzyme activity was observed in NO(3)(-)-grown plants. The results suggest that K(+) homeostasis in NH(4)(+)-grown sorghum plants may be regulated by a high capacity for K(+) uptake, which is dependent upon the H(+)-pumping activity of PM H(+)-ATPase.

Published

2011

17. Investigation of insecticidal activity of rye α-amylase inhibitor gene expressed in transgenic tobacco (Nicotiana tabacum) toward cotton boll weevil (Anthonomus grandis)

Author

Osmundo B. Oliveira-Neto, Octavio L. Franco, Simoni Campos Dias, Edson Luis Zangrando Figueira, Loaiane Alves de Lima, Maria Fatima Grossi-de-Sa, F. R. Teixeira, and Maria Cristina Mattar da Silva

Subjects

Secale, biology, Agrobacterium, Health, Toxicology and Mutagenesis, Nicotiana tabacum, fungi, food and beverages, General Medicine, Genetically modified crops, biology.organism_classification, Gossypium, Transformation (genetics), Anthonomus, Botany, Agronomy and Crop Science, Solanaceae

Abstract

Innumerable proteinaceous α-amylase inhibitors have been isolated and identified from different plant species. Among them, an α-amylase inhibitor gene with bioinsecticidal potential toward Anthonomus grandis (cotton boll weevil) was previously identified in rye seeds (Secale cereale). This cereal inhibitor was expressed in tobacco plants (Nicotiana tabacum) under control of phytohemaglutinin promoter by using Agrobacterium tumefasciens – mediated transformation. Presence of αBIII-rye gene and further protein expression were confirmed by PCR and Western blot analysis, respectively. Immunological assays indicated that the recombinant inhibitor was expressed in concentration range from 0.1% to 0.28% (w:w) of the total protein in tobacco seeds of R0 plants. From 14 independent transformants, five plants with expression levels between 0.20% and 0.28% in seeds were in vitro assayed against A. grandis amylolytic enzymes causing clear inhibition. Moreover, bioassays using transgenic seed flour mixture for artificial diet produced 74% mortality in A. grandis first larval instar. These data suggest that rye inhibitor could be a promising biotechnological tool for produce transgenic cotton plants with an increased resistance to cotton boll weevil. Moreover, αBIII-rye gene should be considered a potential compound for a pyramiding strategy aiming to delay insect-resistance.

Published

2010

18. Meloidogyne incognita: Molecular cloning and characterization of a cDNA encoding a cathepsin D-like aspartic proteinase

Author

Maria Cristina Mattar da Silva, Maria Fatima Grossi-de-Sa, Osmundo B. Oliveira-Neto, Isabela Tristan Lourenço, Rodrigo da Rocha Fragoso, João Batista, M. V. Coutinho, and Thales L. Rocha

Subjects

DNA, Complementary, Molecular Sequence Data, Immunology, Cathepsin D, Sequence alignment, Molecular cloning, Biology, Plant Roots, Substrate Specificity, Solanum lycopersicum, Complementary DNA, Meloidogyne incognita, Animals, Aspartic Acid Endopeptidases, Cluster Analysis, Amino Acid Sequence, RNA, Messenger, Tylenchoidea, Cloning, Molecular, Peptide sequence, Ovum, Southern blot, Expressed Sequence Tags, Expressed sequence tag, Base Sequence, Reverse Transcriptase Polymerase Chain Reaction, Gene Expression Regulation, Developmental, food and beverages, General Medicine, DNA, Helminth, biology.organism_classification, Molecular biology, Blotting, Southern, Infectious Diseases, Biochemistry, Larva, Female, Parasitology, RNA, Helminth, Sequence Alignment

Abstract

Herein we describe the cloning and characterization of a cDNA encoding an aspartic proteinase from the root-knot nematode Meloidogyne incognita. Using PCR techniques, a 1471-bp cDNA fragment encoding a cathepsin D-like (Mi-asp1) transcript was isolated from second-stage larvae mRNA. Its predicted amino acid sequence comprises a pro-region of 71 amino acid residues and a mature protease of 378 amino acid residues with a predicted molecular mass of 41.502kDa. Protein sequence comparisons of Mi-asp1 with GenBank (DQ360827) sequences showed 59-71% identity with nematode-specific cathepsin D-like aspartic proteinases. Southern blot analysis, RT-PCR amplification and EST mining suggest the existence of a developmentally expressed gene family encoding aspartic proteinases in M. incognita. Mi-asp1 may represent a potential target for molecular intervention for the purposes of plant-parasitic nematode control.

Published

2009

19. Transgenic Cotton Plants Expressing Cry1Ia12 Toxin Confer Resistance to Fall Armyworm (Spodoptera frugiperda) and Cotton Boll Weevil (Anthonomus grandis)

Author

Hudson F. N. Moura, Osmundo B. Oliveira-Neto, Wagner Alexandre Lucena, Leonardo Lima Pepino de Macedo, Maria Cristina Mattar da Silva, Maria Fatima Grossi-de-Sa, Isabela Tristan Lourenço-Tessutti, Aulus A. de Deus Barbosa, Raquel Sampaio De Oliveira, and Fabricio B. M. Arraes

Subjects

0106 biological sciences, 0301 basic medicine, Transgene, media_common.quotation_subject, genetic cotton transformation, Gossypium hirsutum, Genetically modified crops, Insect, Plant Science, Spodoptera, lcsh:Plant culture, 01 natural sciences, Crop, 03 medical and health sciences, Botany, medicine, lcsh:SB1-1110, media_common, Original Research, biology, fungi, food and beverages, Kanamycin, Spodoptera frugiperda, biology.organism_classification, 030104 developmental biology, Anthonomus, pollen-tube pathway, Fall armyworm, Cry1Ia12, Anthonomus grandis, 010606 plant biology & botany, medicine.drug

Abstract

Gossypium hirsutum (commercial cooton) is one of the most economically important fibers sources and a commodity crop highly affected by insect pests and pathogens. Several transgenic approaches have been developed to improve cotton resistance to insect pests, through the transgenic expression of different factors, including Cry toxins, proteinase inhibitors, and toxic peptides, among others. In the present study, we developed transgenic cotton plants by fertilized floral buds injection (through the pollen-tube pathway technique) using an DNA expression cassette harboring the cry1Ia12 gene, driven by CaMV35S promoter. The T0 transgenic cotton plants were initially selected with kanamycin and posteriorly characterized with PCR and Southern blot experiments to confirm the genetic transformation. Western blot and ELISA assays indicated the transgenic cotton plants with higher Cry1Ia12 protein expression levels to be further tested in the control of two major G. hirsutum insect pests. Bioassays with T1 plants revealed the Cry1Ia12 protein toxicity on Spodoptera frugiperda larvae, as evidenced by mortality up to 40% and a significant delay in the development of the target insects compared to untransformed controls (up to 30-fold). Also, a significant reduction of Anthonomus grandis emerging adults (up to 60%) was observed when the insect larvae were fed on T1 floral buds. All the larvae and adult insect survivors on the transgenic lines were weaker and significantly smaller compared to the non-transformed plants. Therefore, this study provides GM cotton plant with simultaneous resistance against the Lepidopteran (S. frugiperda) and the Coleopteran (A. grandis) insect orders, and all data suggested that the Cry1Ia12 toxin could effectively enhance the cotton transgenic plants resistance to both insect pests.

Published

2015

20. Molecular Cloning of α-Amylases from Cotton Boll Weevil, Anthonomus grandis and Structural Relations to Plant Inhibitors: An Approach to Insect Resistance

Author

João Batista, Luciane V. Mello, Octavio L. Franco, Osmundo B. Oliveira-Neto, Rodrigo da Rocha Fragoso, Rosana Falcão, Maria Fatima Grossi-de-Sa, Roseane C. Santos, and Daniel J. Rigden

Subjects

DNA, Complementary, media_common.quotation_subject, Molecular Sequence Data, Insect, medicine.disease_cause, Biochemistry, Insecticide Resistance, Crop, Pollen, Botany, medicine, Plant defense against herbivory, Animals, Amino Acid Sequence, Amylase, Cloning, Molecular, Enzyme Inhibitors, Triticum, Plant Proteins, media_common, chemistry.chemical_classification, Sequence Homology, Amino Acid, biology, Secale, fungi, food and beverages, Midgut, biology.organism_classification, Coleoptera, Enzyme, chemistry, Anthonomus, Larva, biology.protein, alpha-Amylases, Trypsin Inhibitors

Abstract

Anthonomus grandis, the cotton boll weevil, causes severe cotton crop losses in North and South America. Here we demonstrate the presence of starch in the cotton pollen grains and young ovules that are the main A. grandis food source. We further demonstrate the presence of alpha-amylase activity, an essential enzyme of carbohydrate metabolism for many crop pests, in A. grandis midgut. Two alpha-amylase cDNAs from A. grandis larvae were isolated using RT-PCR followed by 5' and 3' RACE techniques. These encode proteins with predicted molecular masses of 50.8 and 52.7kDa, respectively, which share 58% amino acid identity. Expression of both genes is induced upon feeding and concentrated in the midgut of adult insects. Several alpha-amylase inhibitors from plants were assayed against A. grandis alpha-amylases but, unexpectedly, only the BIII inhibitor from rye kernels proved highly effective, with inhibitors generally active against other insect amylases lacking effect. Structural modeling of Amylag1 and Amylag2 showed that different factors seem to be responsible for the lack of effect of 0.19 and alpha-AI1 inhibitors on A. grandis alpha-amylase activity. This work suggests that genetic engineering of cotton to express alpha-amylase inhibitors may offer a novel route to A. grandis resistance.

Published

2003

21. Transcriptome analysis of Gossypium hirsutum flower buds infested by cotton boll weevil (Anthonomus grandis) larvae

Author

Sinara Artico, Sylvia Rodrigues da Silveira, Osmundo B. Oliveira-Neto, Leonardo Lima Pepino de Macedo, Marcelo Ribeiro-Alves, Marcio Alves-Ferreira, Maria Fatima Grossi-de-Sa, and Adriana Pinheiro Martinelli

Subjects

Stamen, Cotton, Flowers, Gossypium, Transcriptome, chemistry.chemical_compound, Larvae, Biotic stress, Gene Expression Regulation, Plant, Sequence Homology, Nucleic Acid, Botany, Genetics, Animals, Transcriptome sequencing, Herbivory, WRKY FT, Gene, Phylogeny, Plant Proteins, biology, Sequence Analysis, RNA, Jasmonic acid, Gene Expression Profiling, fungi, Laser microdissection (LMD), biology.organism_classification, WRKY protein domain, chemistry, Anthonomus, Larva, Weevils, Biotechnology, Research Article

Abstract

Background Cotton is a major fibre crop grown worldwide that suffers extensive damage from chewing insects, including the cotton boll weevil larvae (Anthonomus grandis). Transcriptome analysis was performed to understand the molecular interactions between Gossypium hirsutum L. and cotton boll weevil larvae. The Illumina HiSeq 2000 platform was used to sequence the transcriptome of cotton flower buds infested with boll weevil larvae. Results The analysis generated a total of 327,489,418 sequence reads that were aligned to the G. hirsutum reference transcriptome. The total number of expressed genes was over 21,697 per sample with an average length of 1,063 bp. The DEGseq analysis identified 443 differentially expressed genes (DEG) in cotton flower buds infected with boll weevil larvae. Among them, 402 (90.7%) were up-regulated, 41 (9.3%) were down-regulated and 432 (97.5%) were identified as orthologues of A. thaliana genes using Blastx. Mapman analysis of DEG indicated that many genes were involved in the biotic stress response spanning a range of functions, from a gene encoding a receptor-like kinase to genes involved in triggering defensive responses such as MAPK, transcription factors (WRKY and ERF) and signalling by ethylene (ET) and jasmonic acid (JA) hormones. Furthermore, the spatial expression pattern of 32 of the genes responsive to boll weevil larvae feeding was determined by “in situ” qPCR analysis from RNA isolated from two flower structures, the stamen and the carpel, by laser microdissection (LMD). Conclusion A large number of cotton transcripts were significantly altered upon infestation by larvae. Among the changes in gene expression, we highlighted the transcription of receptors/sensors that recognise chitin or insect oral secretions; the altered regulation of transcripts encoding enzymes related to kinase cascades, transcription factors, Ca2+ influxes, and reactive oxygen species; and the modulation of transcripts encoding enzymes from phytohormone signalling pathways. These data will aid in the selection of target genes to genetically engineer cotton to control the cotton boll weevil. Electronic supplementary material The online version of this article (doi:10.1186/1471-2164-15-854) contains supplementary material, which is available to authorized users.

Published

2014

22. α-Amylase inhibitor-1 gene from Phaseolus vulgaris expressed in Coffea arabica plants inhibits α-amylases from the coffee berry borer pest

Author

Arnubio Valencia, Erika V.S. Albuquerque, Maria Fátima Grossi-de-Sá, Osmundo B. Oliveira-Neto, Aulus E. A. D. Barbosa, Maria Cristina Mattar da Silva, Thales L. Rocha, and Djair S.L. Souza

Subjects

Canephora, lcsh:Biotechnology, Coffea, Berry, Genes, Plant, Insect Control, Crop, Transformation, Genetic, Gene Expression Regulation, Plant, lcsh:TP248.13-248.65, Botany, Animals, Amylase, Promoter Regions, Genetic, Phaseolus, biology, Coffea arabica, fungi, food and beverages, Plants, Genetically Modified, biology.organism_classification, Coleoptera, Seeds, biology.protein, PEST analysis, Plant Lectins, alpha-Amylases, Research Article, Plasmids, Biotechnology

Abstract

Background Coffee is an important crop and is crucial to the economy of many developing countries, generating around US$70 billion per year. There are 115 species in the Coffea genus, but only two, C. arabica and C. canephora, are commercially cultivated. Coffee plants are attacked by many pathogens and insect-pests, which affect not only the production of coffee but also its grain quality, reducing the commercial value of the product. The main insect-pest, the coffee berry borer (Hypotheneumus hampei), is responsible for worldwide annual losses of around US$500 million. The coffee berry borer exclusively damages the coffee berries, and it is mainly controlled by organochlorine insecticides that are both toxic and carcinogenic. Unfortunately, natural resistance in the genus Coffea to H. hampei has not been documented. To overcome these problems, biotechnological strategies can be used to introduce an α-amylase inhibitor gene (α-AI1), which confers resistance against the coffee berry borer insect-pest, into C. arabica plants. Results We transformed C. arabica with the α-amylase inhibitor-1 gene (α-AI1) from the common bean, Phaseolus vulgaris, under control of the seed-specific phytohemagglutinin promoter (PHA-L). The presence of the α-AI1 gene in six regenerated transgenic T1 coffee plants was identified by PCR and Southern blotting. Immunoblotting and ELISA experiments using antibodies against α-AI1 inhibitor showed a maximum α-AI1 concentration of 0.29% in crude seed extracts. Inhibitory in vitro assays of the α-AI1 protein against H. hampei α-amylases in transgenic seed extracts showed up to 88% inhibition of enzyme activity. Conclusions This is the first report showing the production of transgenic coffee plants with the biotechnological potential to control the coffee berry borer, the most important insect-pest of crop coffee.

Published

2010

23. A brief report on some health aspects of rats fed with crescent levels of recombinant chagasin, a potential plant defense protein

Author

Osmundo B, Oliveira Neto, Davi F, Farias, Ilka M, Vasconcelos, Norma S, Paes, Ana C S, Monteiro, Maria C M da, Silva, Luciane M, Guimarães, Ana F U, Carvalho, and Maria F, Grossi-de-Sá

Subjects

Male, Models, Animal, Toxicity Tests, Animals, Insect Proteins, Organ Size, Pest Control, Biological, Weight Gain, Animal Feed, Recombinant Proteins, Rats

Abstract

Chagasin may be considered a potential plant-incorporated protectant (PIP) protein due to its deleterious effects on insect pests. However, extensive safety studies with PIP's are necessary before introducing them into the target plant. Thus, a short-term feeding trial in rats with high doses of r-chagasin was conducted to provide evidences about its safety. Three test diets containing casein + r-chagasin (0.25, 0.5 and 1% of total protein) were offered to rats (10 days). The test diets did not show adverse effects upon the development, organ weight, hematological parameters and serum protein profiles of rats, providing preliminary information on the safety of r-chagasin.

Published

2010

24. Jaburetox-2Ec: an insecticidal peptide derived from an isoform of urease from the plant Canavalia ensiformis

Author

Daniel J. Rigden, Fernanda Mulinari, L.R. Bertholdo-Vargas, Maria Fatima Grossi-de-Sa, Melissa Postal, Fernanda Stanisçuaski, Osmundo B. Oliveira-Neto, and Célia R. Carlini

Subjects

Insecticides, food.ingredient, Urease, Physiology, Molecular Sequence Data, Peptide, Spodoptera, Dysdercus, medicine.disease_cause, Biochemistry, Polymerase Chain Reaction, Cellular and Molecular Neuroscience, Endocrinology, food, Complementary DNA, medicine, Amino Acid Sequence, Cloning, Molecular, Escherichia coli, DNA Primers, Plant Proteins, chemistry.chemical_classification, biology, Base Sequence, Sequence Homology, Amino Acid, biology.organism_classification, Canavalia, chemistry, Canavalia ensiformis, biology.protein, Electrophoresis, Polyacrylamide Gel, Heterologous expression

Abstract

Canatoxin, a urease isoform from Canavalia ensiformis seeds, shows insecticidal activity against different insect species. Its toxicity relies on an internal 10 kDa peptide (pepcanatox), released by hydrolysis of Canatoxin by cathepsins in the digestive system of susceptible insects. In the present work, based on the N-terminal sequence of pepcanatox, we have designed primers to amplify by PCR a 270-bp fragment corresponding to pepcanatox using JBURE-II cDNA (one of the urease isoforms cloned from C. ensiformis , with high identity to JBURE-I, the classical urease) as a template. This amplicon named jaburetox-2 was cloned into pET 101 vector to obtain heterologous expression in Escherichia coli of the recombinant protein in C-terminal fusion with V-5 epitope and 6-His tag. Jaburetox-2Ec was purified on Nickel-NTA resin and bioassayed in insect models. Dysdercus peruvianus larvae were fed on cotton seed meal diets containing 0.01% (w/w) Jaburetox-2Ec and, after 11 days, all individuals were dead. Jaburetox-2Ec was also tested against Spodoptera frugiperda larvae and caused 100% mortality. In contrast, high doses of Jaburetox-2Ec were innocuous when injected or ingested by mice and neonate rats. Modeling of Jaburetox-2Ec, in comparison with other peptide structures, revealed a prominent β-hairpin motif consistent with an insecticidal activity based on either neurotoxicity or cell permeation.

Published

2007

25. Proteome analysis of embryogenic cell suspensions of cowpea (Vigna unguiculata)

Author

E. F. Gonçalves, Francisco A. P. Campos, Marise F. Santos, Osmundo B. Oliveira-Neto, Fábio C. S. Nogueira, E. S. Jereissati, Arlete A. Soares, José Hélio Costa, and Gilberto B. Domont

Subjects

Proteome, Peptide, Plant Science, Tandem mass spectrometry, Genes, Plant, Vigna, Western blot, Gene Expression Regulation, Plant, medicine, Cells, Cultured, Plant Proteins, Gel electrophoresis, chemistry.chemical_classification, biology, medicine.diagnostic_test, Gene Expression Profiling, food and beverages, Fabaceae, General Medicine, biology.organism_classification, Trypsin, Molecular biology, Plant Leaves, chemistry, RNA, Plant, Chitinase, biology.protein, Agronomy and Crop Science, medicine.drug

Abstract

Using a combination of two-dimensional gel electrophoresis protein mapping and mass spectrometry analysis, we have established proteome reference maps of embryogenic cell suspensions of cowpea (Vigna unguiculata). The cell suspensions were generated from young primary leaves and contained basically pro-embryogenic masses, which enabled us to dissect their proteome composition while eliminating the complexity of too many cell types. Over 550 proteins could reproducibly be resolved over a pI range of 3-10. A total of 128 of the most abundant protein spots were excised, digested in-gel with trypsin and analyzed by tandem mass spectrometry. This enabled the identification of 67 protein spots. Two of the most abundant proteins were identified as a chitinase and as a ribonuclease belonging to the family of PR-4 and PR-10 proteins, respectively. The expression of the respective genes was confirmed by RT-PCR and the pattern of deposition of the PR-10 protein in cell suspensions as well as in developing cowpea seeds, roots, shoots and flowers were determined by Western blot experiments, using synthetic antibodies raised against a 14-amino acid synthetic peptide located close to the C-terminal region of the PR-10 protein.

Published

2006

26. Molecular cloning and expression of an alpha-amylase inhibitor from rye with potential for controlling insect pests

Author

Cláudio P . Magalhães, E. L. Z. Figueira, Raul Alberto Laumann, Osmundo B. Oliveira-Neto, Maria Fatima Grossi-de-Sa, Octavio L. Franco, Simoni Campos Dias, and Francislete R. Melo

Subjects

Secale, Models, Molecular, Insecta, ved/biology.organism_classification_rank.species, Molecular Sequence Data, Bioengineering, Acanthoscelides obtectus, Molecular cloning, Biochemistry, Analytical Chemistry, law.invention, law, Plant defense against herbivory, CM protein, insect pest, Escherichia coli, Animals, Amino Acid Sequence, Cloning, Molecular, Enzyme Inhibitors, Pest Control, Biological, Gene, Peptide sequence, DNA Primers, chemistry.chemical_classification, biology, Base Sequence, Sequence Homology, Amino Acid, ved/biology, Organic Chemistry, fungi, DNA, biology.organism_classification, Amino acid, chemistry, Recombinant DNA, Electrophoresis, Polyacrylamide Gel, alpha-Amylases, A-Amylase Inhibitor

Abstract

Made available in DSpace on 2016-10-10T03:52:44Z (GMT). No. of bitstreams: 5 Molecular Cloning and Expression.PDF: 661224 bytes, checksum: 77f2050b845e88723a63c4164c1a0de9 (MD5) license_url: 52 bytes, checksum: 2f32edb9c19a57e928372a33fd08dba5 (MD5) license_text: 24372 bytes, checksum: 94b0a37ff5ec51de8c55507bff4a7ff9 (MD5) license_rdf: 24623 bytes, checksum: 378d22d8fe50e084ee2f354be78cbe62 (MD5) license.txt: 1887 bytes, checksum: 445d1980f282ec865917de35a4c622f6 (MD5) Previous issue date: 2005-02 Alpha-amylase inhibitors have important roles in plant defense mechanisms, particularly against insects, and several of these inhibitors have been expressed in different crops to increase their resistance to particular insects. In this work, we report the cloning and expression of a gene encoding for a new a-amylase inhibitor (BIII) from rye (Secale cereale) seeds. The BIII gene contains 354 nucleotides that encode for 118 amino acids sequence. A 313 bp fragment of the gene was expressed in Escherichia coli and resulted in a functional inhibitor that reduced the activity of a-amylases of larvae of the coleopteran pests Acanthoscelides obtectus, Zabrotess subfasciatus and Anthonomus grandis. In contrast, the inhibitor did not inhibit the activity of porcine pancreatic a-amylase. Although the amino acid sequence of BIII showed high identity with those of bifunctional inhibitors, the recombinant protein was unable to inhibit trypsin-like serine proteinases. The effects of recombinant BIII were evaluated in vivo against A. grandis. When first instar larvae were reared on an artificial diet containing four different concentrations of BIII, a reduction in larval weight and a mortality of 83% were observed at the highest concentration. Sim Publicado

Published

2005

27. A diverse family of serine proteinase genes expressed in cotton boll weevil (Anthonomus grandis): implications for the design of pest-resistant transgenic cotton plants

Author

Rodrigo Otavio Silveira Silva, Simoni Campos Dias, Osmundo B. Oliveira-Neto, Daniel J. Rigden, Eliane Aparecida Gomes, Maria Fatima Grossi-de-Sa, Rose Gomes Monnerat, Célia Maria Torres Cordeiro, Octavio L. Franco, João Batista, and Rodrigo da Rocha Fragoso

Subjects

DNA, Complementary, Trypsin inhibitor, Molecular Sequence Data, Biology, Biochemistry, Serine, Complementary DNA, medicine, Animals, Amino Acid Sequence, Cloning, Molecular, Pest Control, Biological, Molecular Biology, Peptide sequence, Gossypium, Base Sequence, Reverse Transcriptase Polymerase Chain Reaction, Serine Endopeptidases, Trypsin, biology.organism_classification, Plants, Genetically Modified, Molecular biology, Anthonomus, Insect Science, Zymogen activation, Larva, Multigene Family, Weevils, Serine Proteinase Inhibitors, Trypsin Inhibitors, medicine.drug

Abstract

Fourteen different cDNA fragments encoding serine proteinases were isolated by reverse transcription-PCR from cotton boll weevil (Anthonomus grandis) larvae. A large diversity between the sequences was observed, with a mean pairwise identity of 22% in the amino acid sequence. The cDNAs encompassed 11 trypsin-like sequences classifiable into three families and three chymotrypsin-like sequences belonging to a single family. Using a combination of 5' and 3' RACE, the full-length sequence was obtained for five of the cDNAs, named Agser2, Agser5, Agser6, Agser10 and Agser21. The encoded proteins included amino acid sequence motifs of serine proteinase active sites, conserved cysteine residues, and both zymogen activation and signal peptides. Southern blotting analysis suggested that one or two copies of these serine proteinase genes exist in the A. grandis genome. Northern blotting analysis of Agser2 and Agser5 showed that for both genes, expression is induced upon feeding and is concentrated in the gut of larvae and adult insects. Reverse northern analysis of the 14 cDNA fragments showed that only two trypsin-like and two chymotrypsin-like were expressed at detectable levels. Under the effect of the serine proteinase inhibitors soybean Kunitz trypsin inhibitor and black-eyed pea trypsin/chymotrypsin inhibitor, expression of one of the trypsin-like sequences was upregulated while expression of the two chymotrypsin-like sequences was downregulated.

Published

2004

28. A new chitinase-like xylanase inhibitor protein (XIP) from coffee (Coffea arabica) affects Soybean Asian rust (Phakopsora pachyrhizi) spore germination

Author

Osmundo B. Oliveira-Neto, C. D. S. Seixas, Daniel R. G. Price, Celso G Santana, Edivaldo Ximenes Ferreira Filho, John A. Gatehouse, Elaine Fitches, Maria Fatima Grossi-de-Sa, Angela Mehta, Cláudia Vieira Godoy, Leonora Rios de Souza Moreira, Érico A. R. Vasconcelos, and Marilia Santos Silva

Subjects

lcsh:Biotechnology, Molecular Sequence Data, Rust (fungus), Germination, Ferrugem asiática - soja, Coffee, Pichia pastoris, Microbiology, lcsh:TP248.13-248.65, Botany, Spore germination, Amino Acid Sequence, Cloning, Molecular, Glycoside hydrolase family 18, Plant Proteins, Soja - doenças e pragas, biology, Coffea arabica, Basidiomycota, Chitinases, food and beverages, Molecular Sequence Annotation, Spores, Fungal, biology.organism_classification, Xylosidases, Phakopsora pachyrhizi, Chitinase, Proteínas, Xylanase, biology.protein, Electrophoresis, Polyacrylamide Gel, Soybeans, Sequence Alignment, Biotechnology, Research Article

Abstract

Background Asian rust (Phakopsora pachyrhizi) is a common disease in Brazilian soybean fields and it is difficult to control. To identify a biochemical candidate with potential to combat this disease, a new chitinase-like xylanase inhibitor protein (XIP) from coffee (Coffea arabica) (CaclXIP) leaves was cloned into the pGAPZα-B vector for expression in Pichia pastoris. Results A cDNA encoding a chitinase-like xylanase inhibitor protein (XIP) from coffee (Coffea arabica) (CaclXIP), was isolated from leaves. The amino acid sequence predicts a (β/α)8 topology common to Class III Chitinases (glycoside hydrolase family 18 proteins; GH18), and shares similarity with other GH18 members, although it lacks the glutamic acid residue essential for catalysis, which is replaced by glutamine. CaclXIP was expressed as a recombinant protein in Pichia pastoris. Enzymatic assay showed that purified recombinant CaclXIP had only residual chitinolytic activity. However, it inhibited xylanases from Acrophialophora nainiana by approx. 60% when present at 12:1 (w/w) enzyme:inhibitor ratio. Additionally, CaclXIP at 1.5 μg/μL inhibited the germination of spores of Phakopsora pachyrhizi by 45%. Conclusions Our data suggests that CaclXIP belongs to a class of naturally inactive chitinases that have evolved to act in plant cell defence as xylanase inhibitors. Its role on inhibiting germination of fungal spores makes it an eligible candidate gene for the control of Asian rust.

Published

2011

29. Isolation and functional characterization of a cotton ubiquitination-related promoter and 5'UTR that drives high levels of expression in root and flower tissues

Author

Maria Cristina Mattar da Silva, João Batista, Osmundo B. Oliveira-Neto, Antônio Américo Barbosa Viana, Sinara Artico, Luciane Mourão Guimarães, Naiara Pontes, Rodrigo da Rocha Fragoso, Maria Fatima Grossi-de-Sa, Sarah Muniz Nardeli, and Marcio Alves-Ferreira

Subjects

Five prime untranslated region, lcsh:Biotechnology, Transgene, Molecular Sequence Data, Arabidopsis, Flowers, Genetically modified crops, Real-Time Polymerase Chain Reaction, Plant Roots, Gene Expression Regulation, Plant, lcsh:TP248.13-248.65, Gene expression, Arabidopsis thaliana, Fluorometry, Transgenes, Promoter Regions, Genetic, Gene, DNA Primers, Genetics, Gossypium, Base Sequence, Plant Stems, biology, food and beverages, Promoter, Sequence Analysis, DNA, biology.organism_classification, Plant Leaves, Codon, Nonsense, Algodão - cultivo, Regulatory sequence, Ubiquitin-Conjugating Enzymes, 5' Untranslated Regions, Sequence Alignment, Research Article, Biotechnology

Abstract

Background Cotton (Gossypium spp.) is an important crop worldwide that provides raw material to 40% of the textile fiber industry. Important traits have been studied aiming the development of genetically modified crops including resistance to insect and diseases, and tolerance to drought, cold and herbicide. Therefore, the characterization of promoters and regulatory regions is also important to achieve high gene expression and/or a specific expression pattern. Commonly, genes involved in ubiquitination pathways are highly and differentially expressed. In this study, we analyzed the expression of a cotton ubiquitin-conjugating enzyme (E2) family member with no previous characterization. Results Nucleotide analysis revealed high identity with cotton E2 homologues. Multiple alignment showed a premature stop codon, which prevents the encoding of the conserved cysteine residue at the E2 active site, and an intron that is spliced in E2 homologues, but not in GhGDRP85. The GhGDRP85 gene is highly expressed in different organs of cotton plants, and has high transcript levels in roots. Its promoter (uceApro2) and the 5'UTR compose a regulatory region named uceA1.7, and were isolated from cotton and studied in Arabidopsis thaliana. uceA1.7 shows strong expression levels, equaling or surpassing the expression levels of CaMV35S. The uceA1.7 regulatory sequence drives GUS expression 7-fold higher in flowers, 2-fold in roots and at similar levels in leaves and stems. GUS expression levels are decreased 7- to 15-fold when its 5'UTR is absent in uceApro2. Conclusions uceA1.7 is a strong constitutive regulatory sequence composed of a promoter (uceApro2) and its 5'UTR that will be useful in genetic transformation of dicots, having high potential to drive high levels of transgene expression in crops, particularly for traits desirable in flower and root tissues.

30. Transgenic cotton plants expressing Cry1la12 toxin confer resistance to fall armyworm (Spodoptera frugiperda) and cotton boll weevil (Anthonomus grandis)

Author

OLIVEIRA, R. S. de, OLIVEIRA NETO, O. B., MOURA, H. F. N., MACEDO, L. L. P. de, ARRAES, F. B M., LUCENA, W. A., LOURENCO, I. T., BARBOSA, A. de D., SILVA, M. C. M. da, SA, M. F. G. de, RAQUEL S. de OLIVEIRA, CATHOLIC UNIVERSITY OF BRASILIA, OSMUNDO B. OLIVEIRA NETO, CENARGEN, HUDSON F. N. MOURA, CENARGEN, LEONARDO LIMA PEPINO DE MACEDO, Cenargen, FABRÍCIO B. M. ARRAES, CENARGEN, WAGNER ALEXANDRE LUCENA, CNPA, ISABELA TRISTAN LOURENCO TESSUTTI, Cenargen, AULUS A. de DEUS BARBOSA, CENARGEN, MARIA CRISTINA MATTAR DA SILVA, Cenargen, and MARIA FATIMA GROSSI DE SA, Cenargen.

Subjects

Gosspypium hirsutum, Genetic cotton transformation, Polen-tube pathway

Abstract

Gossypium hirsutum (commercial cooton) is one of the most economically important fibers sources and a commodity crop highly affected by insect pests and pathogens. Several transgenic approaches have been developed to improve cotton resistance to insect pests, through the transgenic expression of different factors, including Cry toxins, proteinase inhibitors, and toxic peptides, among others. In the present study, we developed transgenic cotton plants by fertilized floral buds injection (through the pollen-tube pathway technique) using an DNA expression cassette harboring the cry1Ia12 gene, driven by CaMV35S promoter.

Published

2016