Your search keyword '"Laura Mejía-Teniente"' showing total 16 results

1. Silencing of a Germin-Like Protein Gene (CchGLP) in Geminivirus-Resistant Pepper (Capsicum chinense Jacq.) BG-3821 Increases Susceptibility to Single and Mixed Infections by Geminiviruses PHYVV and PepGMV

Author

Laura Mejía-Teniente, Ahuizolt de Jesús Joaquin-Ramos, Irineo Torres-Pacheco, Rafael F. Rivera-Bustamante, Lorenzo Guevara-Olvera, Enrique Rico-García, and Ramon G. Guevara-Gonzalez

Subjects

VIGS, plant-virus interaction, resistance, Mn-SOD, transient expression, Germin-like proteins, J0101, Microbiology, QR1-502

Abstract

Germin-like proteins (GLPs) are encoded by a family of genes found in all plants, and in terms of function, the GLPs are implicated in the response of plants to biotic and abiotic stresses. CchGLP is a gene encoding a GLP identified in a geminivirus-resistant Capsicum chinense Jacq accession named BG-3821, and it is important in geminivirus resistance when transferred to susceptible tobacco in transgenic experiments. To characterize the role of this GLP in geminivirus resistance in the original accession from which this gene was identified, this work aimed at demonstrating the possible role of CchGLP in resistance to geminiviruses in Capsicum chinense Jacq. BG-3821. Virus-induced gene silencing studies using a geminiviral vector based in PHYVV component A, displaying that silencing of CchGLP in accession BG-3821, increased susceptibility to geminivirus single and mixed infections. These results suggested that CchGLP is an important factor for geminivirus resistance in C. chinense BG-3821 accession.

Published

2015

2. List of contributors

Author

Samuel Abebrese, Noemi Lizbeth Acuña-Flores, Mustafa Adhab, Joseph Adjebeng-Danquah, Parinita Agarwal, Pradeep K. Agarwal, Richard Yaw Agyare, Nawres A. Alkuwaiti, Benjamin Annor, Leonardo D. Arévalo-Monterrubio, José Trinidad Ascencio-Ibáñez, Alexandre Autechaud, Bhagirath M. Baraiya, Natalia Barboza, Mritunjoy Barman, Kwabena Asare Bediako, Eduardo R. Bejarano, Zineb Belabess, Sachin Ashok Bhor, Araceli G. Castillo, Supriya Chakraborty, Swati Chakraborty, Chinnaraja Chinnadurai, Aparna Chodon, Tathagata Choudhuri, Henryk Czosnek, Sarbani Das, Samantha de Jesus Rivero-Montejo, Ragunathan Devendran, Subham Dutta, Vincent N. Fondong, Elizabeth P.B. Fontes, Murad Ghanim, Prabu Gnanasekaran, Alireza Golnaraghi, Gokul Uttamgir Gosavi, Martine Granier, Ramón Gerardo Guevara-González, Vipin Hallan, Luko Hilje, Shridhar Hiremath, Yasir Iftikhar, Shaikhul Islam, Margaux Jammes, Jayaraj Jayaraman, Ajeet Kumar Jha, Jeyalakshmi Karanthamalai, Jawaid A. Khan, Zainul A. Khan, Mounika Kollam, Nagendran Krishnan, Aditya Kulshreshtha, Abhinav Kumar, Alok Kumar, Manish Kumar, R. Vinoth Kumar, Rakesh Kumar, Sailendra Kumar, Shweta Kumari, C.N. Lakshminarayana Reddy, Rosa Lozano-Durán, Israel Macias-Bobadilla, Lalit Mahatma, T. Makeshkumar, V.G. Malathi, Aakansha Manav, Anirban Mandal, Mahsa Mansourpour, M. Mantesh, Humberto Martínez-Montoya, Yamila Martínez-Zubiaur, Laura Mejía-Teniente, Leander Dede Melomey, Ritesh Mishra, M. Mohanraj, Prashant More, Mustansar Mubeen, Arindam Mukherjee, S. Nakkeeran, Michael Kwabena Osei, Koshlendra Kumar Pandey, Gopal Pandi, Harshalkumar P. Patel, Michel Peterschmitt, Malyaj R. Prajapati, Ved Prakash, null Priyanka, Nguyen Bao Quoc, Gabriel S. Raimundo, S.K. Raj, Adesh Ramsubhag, Koushlesh Ranjan, P. Renukadevi, Kumari Rhaeva, Luisa Katiana Rivas-Ramirez, Poonam Roshan, Nabanita Roy Chattopadhyay, Faustine Ryckebusch, Snigdha Samanta, B. Sangeetha, V.K. Satya, Nicolas Sauvion, Sangeeta Saxena, M. Senthil Alias Sankar, Niayesh Shahmohammadi, K.S. Shankarappa, Fredy Davi A. Silva, Jitender Singh, Sneha Sinha, Sunil Kumar Snehi, Ashish Srivastava, Sukumaran Sunitha, Jayanta Tarafdar, Jebasingh Tennyson, Ajay Kumar Tiwari, Reyna Ivonne Torres-Acosta, Rodolfo Torres-delosSantos, Irineo Torres-Pacheco, Eric Troadec, Muhammad Umer, Cica Urbino, Marcela Vargas-Hernandez, V. Venkataravanappa, Heshani De Silva Weligodage, Mengshi Wu, Sneha Yogindran, and Muhammad Ahmad Zeshan

Published

2022

3. Resistance to geminivirus infections: natural and induced by controlled elicitation

Author

Laura Mejía-Teniente, Irineo Torres-Pacheco, and Ramón Gerardo Guevara-González

Published

2022

4. Betalains from prickly-pear fruit: An alternative natural coloring for food

Author

Adán Topiltzin Morales-Vargas, Juan Carlos Ramírez-Granados, Blanca Estela Gómez-Luna, and Laura Mejía-Teniente

Subjects

body regions, Horticulture, Prickly Pear Fruit, 02 engineering and technology, Biology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 0210 nano-technology, 01 natural sciences, Natural (archaeology), 0104 chemical sciences

Abstract

Food coloring are additives that are usually incorporated into foods to make them more attractive to people. However, some mineral and synthetic dyes used in the food industry are related to harmful effects on human health. Natural dyes, such as betalains extracted from prickly-pear fruit, have fewer restrictions on use and represent a healthier alternative to enhance the appearance of food. In this work, a process to extract betalains from the pulp and peel of Cardona prickly-pear fruit was implemented and optimized. The extracted pigment was encapsulated in cornstarch. Then, it was analyzed the effect of the extract/encapsulant ratio on the amount of encapsulated betalains. It was found that the peel of this variety of prickly-pear fruit represents about 48% of its total weight. It was also demonstrated that concentrations of betalains in the peel (12.0 mg/g) and in the pulp (16.5 mg/g) are alike. For these reasons, we consider that the peel of red prickly-pear fruit is an ideal material for the extraction of betalains because it is a waste material with high content of red pigments.

Published

2019

5. Hydrogen peroxide protects pepper (Capsicum annuum L.) against pepper golden mosaic geminivirus (PepGMV) infections

Author

Rafael F. Rivera-Bustamante, Blanca A. Durán-Flores, Irineo Torres-Pacheco, Mario Martín González-Chavira, Rosalía Reynoso-Camacho, Nuria Elizabeth Rocha-Guzmán, Ana A. Feregrino-Perez, Ramón G. Guevara-González, Iza F. Pérez-Ramírez, and Laura Mejía-Teniente

Subjects

0106 biological sciences, 0301 basic medicine, Abiotic stress, Host (biology), fungi, food and beverages, Plant Science, Biology, Pesticide, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, Horticulture, Capsicum annuum, 030104 developmental biology, chemistry, Pepper, Genetics, Pepper golden mosaic virus, Plant defense against herbivory, Hydrogen peroxide, 010606 plant biology & botany

Abstract

Hydrogen peroxide is an important signal molecule in plant defense against biotic and abiotic stress. Pepper golden mosaic virus (PepGMV) is a whitefly-transmitted geminivirus causing significant yield and quality losses in pepper and other horticultural crops in Mexico. Several pesticides have been used trying to control whiteflies and thus, PepGMV disease in host crops. The present work examined the effect of exogenous application of hydrogen peroxide (H2O2) on inducing resistance to PepGMV infection in pepper plants. Experiments were carried out under greenhouse conditions aiming to evaluate phenotypical, biochemical and molecular features in these pepper plants. Hydrogen peroxide at 6, 14 and 18 mM induced tolerance to PepGMV either by absence of symptoms as well as by attenuating and/or delaying them. The protection observed was directly dependent on the concentration of H2O2 sprayed on plants. Moreover, PepGMV DNA levels were inversely proportional to the protection level. Enzymatic and gene expression profiles related with plant defense were induced in protected, in comparison to susceptible control plants. Interestingly, the levels of some phenolic compounds were also associated with plant protection. Taking together, these results suggested that exogenous foliar applications of H2O2 protect pepper plants against PepGMV infection inducing the plant host defense arsenal.

Published

2019

6. Oxidative and Molecular Responses in Capsicum annuum L. after Hydrogen Peroxide, Salicylic Acid and Chitosan Foliar Applications

Author

Ramón G. Guevara-González, Andrés Cruz-Hernández, Rosalia V. Ocampo-Velazquez, Angela María Chapa-Oliver, Mario Martín González-Chavira, Laura Mejía-Teniente, Irineo Torres-Pacheco, and Flor de Dalia Duran-Flores

Subjects

Time Factors, reactive oxygen species, oxidative stress, elicitors, oxidative stress dynamic, hydrogen peroxide, salicylic acid, chitosan, catalase, phenylalanine ammonia lyase, Oxidative phosphorylation, Phenylalanine ammonia-lyase, Biology, medicine.disease_cause, Article, Catalysis, Inorganic Chemistry, lcsh:Chemistry, chemistry.chemical_compound, Gene Expression Regulation, Plant, medicine, Physical and Theoretical Chemistry, Hydrogen peroxide, Molecular Biology, lcsh:QH301-705.5, Spectroscopy, Phenylalanine Ammonia-Lyase, Plant Proteins, chemistry.chemical_classification, Reactive oxygen species, Dose-Response Relationship, Drug, Reverse Transcriptase Polymerase Chain Reaction, Organic Chemistry, food and beverages, General Medicine, Biotic stress, Oxidants, Computer Science Applications, Plant Leaves, chemistry, Biochemistry, lcsh:Biology (General), lcsh:QD1-999, Catalase, biology.protein, Capsicum, Salicylic acid, Oxidative stress

Abstract

Hydrogen peroxide (H2O2) is an important ROS molecule (Reactive oxygen species) that serves as a signal of oxidative stress and activation of signaling cascades as a result of the early response of the plant to biotic stress. This response can also be generated with the application of elicitors, stable molecules that induce the activation of transduction cascades and hormonal pathways, which trigger induced resistance to environmental stress. In this work, we evaluated the endogenous H2O2 production caused by salicylic acid (SA), chitosan (QN), and H2O2 elicitors in Capsicum annuum L. Hydrogen peroxide production after elicitation, catalase (CAT) and phenylalanine ammonia lyase (PAL) activities, as well as gene expression analysis of cat1, pal, and pathogenesis-related protein 1 (pr1) were determined. Our results displayed that 6.7 and 10 mM SA concentrations, and, 14 and 18 mM H2O2 concentrations, induced an endogenous H2O2 and gene expression. QN treatments induced the same responses in lesser proportion than the other two elicitors. Endogenous H2O2 production monitored during several days, showed results that could be an indicator for determining application opportunity uses in agriculture for maintaining plant alert systems against a stress.

Published

2013

7. Influence of Salicylic Acid application on Oxidative and Molecular Responses and functional properties of Capsicum annuum L. cultivated in greenhouse conditions

Author

Irineo Torres-Pacheco, Moises Alejandro Vazquez-Cruz, Ana A. Feregrino-Perez, Laura Mejía-Teniente, Ramón G. Guevara-González, and Sandra Neli Jimenez-Garcia

Subjects

chemistry.chemical_compound, Horticulture, ABTS, Chemistry, Abiotic stress, DPPH, Pepper, Plant defense against herbivory, food and beverages, Phenylalanine ammonia-lyase, Salicylic acid, Elicitor

Abstract

Modifications in growing techniques can affect the yield and nutritional quality of various cultivated plant species. Owing to its high nutritional value, sweet pepper (Capsicum annuum L.) was used in this study as a model plant to investigate the effect of abiotic stress (Electrical conductivity [EC]) and elicitor (Salicylic acid [SA]) on yield and fruit quality parameters under conditions of greenhouse. Nonetheless, the application of elicitors, are stable molecules that induce the activation of transduction cascades and hormonal pathways, which trigger induced resistance to environmental stress. The combination in metabolomics of advanced analytical methods and bioinformatics tools provides wide chemical compositional data that contributes to corroborate (or not) the substantial equivalence. The aim was evaluated the endogenous H2O2 production caused by the effect of different concentrations of (SA) in Capsicum annuum L. in production after elicitation in seedling, and the production of secondary metabolites using GC-MS (flavonoids, tannins and phenolic content as well as the antioxidant properties) in plant and fruit of Capsicum annuum L. to relate their response in metabolic pathways. Results displayed that the use SA, induced an endogenous H2O2 and enzymatic activities related with plant defense as phenylalanine ammonia lyase and catalase. This production showed results that could be an indicator for determining application opportunity uses in agriculture for maintaining plant alert systems against a stress. These results were correlated with those obtained from cultivation of capsicum annum until obtaining the fruit at ripe stage had a high content of bioactive compounds that exhibited significant antioxidant properties. The correlation of the contents of flavonoids, tannins and total phenolics and the ability to remove free radicals of the sweet pepper was significant (r = 0.99, P

Published

2016

8. Capsaicin: From Plants to a Cancer-Suppressing Agent

Author

Angela María Chapa-Oliver and Laura Mejía-Teniente

Subjects

0301 basic medicine, food.ingredient, Pharmaceutical Science, Review, Pharmacology, capsaicin, Analytical Chemistry, 03 medical and health sciences, chemistry.chemical_compound, stress, 0302 clinical medicine, food, elicitors, Cell Line, Tumor, Drug Discovery, medicine, cancer, Humans, Physical and Theoretical Chemistry, Crop management, Pungency, Phenylpropanoid, Fatty acid metabolism, Molecular Structure, Chemistry, business.industry, Food additive, Organic Chemistry, fungi, apoptosis, Cancer, food and beverages, medicine.disease, Antineoplastic Agents, Phytogenic, Biotechnology, Biosynthetic Pathways, 030104 developmental biology, cell death, Chemistry (miscellaneous), Capsaicin, 030220 oncology & carcinogenesis, Molecular Medicine, lipids (amino acids, peptides, and proteins), Food Additives, business, Capsicum

Abstract

Capsaicinoids are plant secondary metabolites, capsaicin being the principal responsible for the pungency of chili peppers. It is biosynthesized through two pathways involved in phenylpropanoid and fatty acid metabolism. Plant capsaicin concentration is mainly affected by genetic, environmental and crop management factors. However, its synthesis can be enhanced by the use of elicitors. Capsaicin is employed as food additive and in pharmaceutical applications. Additionally, it has been found that capsaicin can act as a cancer preventive agent and shows wide applications against various types of cancer. This review is an approach in contextualizing the use of controlled stress on the plant to increase the content of capsaicin, highlighting its synthesis and its potential use as anticancer agent.

Published

2016

9. PepGMV Rep-Protein Expression in Mammalian Cells

Author

Ramon Gerardo Guevara-Gonzalez, Irineo Torres-Pacheco, Teresa García-Gasca, Laura Mejía-Teniente, and Angela María Chapa-Oliver

Subjects

lcsh:QR1-502, cell cycle, Geminivirus, Rep protein, lcsh:Microbiology

Abstract

The Geminiviruses genome is a small, single strand DNA that replicates in the plant cell nucleus. Analogous to animal DNA viruses, Geminiviruses depend on the host replication machinery to amplify their genomes and only supply the factors required to initiate their replication. Consequently, Geminiviruses remove the cell-cycle arrest and induce the host replication machinery using an endocycle process. They encode proteins, such as the conserved replication-associated proteins (Rep) that interact with retinoblastoma-like proteins in plants and alter the cell division cycle in yeasts. Therefore, the aim of this work is to analyze the impact of Pepper Golden Mosaic Virus (PepGMV) Rep protein in mammalian cells. Results indicate that the pTracer-SV40:Rep construction obtained in this work can be used to analyze the Rep protein effect in mammalian cells in order to compare the cell cycle regulation mechanisms in plants and animals.

Published

2012

10. Silencing of a Germin-Like Protein Gene (CchGLP) in Geminivirus-Resistant Pepper (Capsicum chinense Jacq.) BG-3821 Increases Susceptibility to Single and Mixed Infections by Geminiviruses PHYVV and PepGMV

Author

Ahuizolt de Jesús Joaquin-Ramos, Lorenzo Guevara-Olvera, Irineo Torres-Pacheco, Laura Mejía-Teniente, Enrique Rico-García, Rafael F. Rivera-Bustamante, and Ramón G. Guevara-González

Subjects

Transgene, Mn-SOD, lcsh:QR1-502, Plant disease resistance, lcsh:Microbiology, Article, transient expression, resistance, VIGS, Virology, Botany, Pepper, Gene silencing, Geminiviridae, Gene Silencing, Gene, plant-virus interaction, Germin-like proteins, J0101, Disease Resistance, Plant Diseases, Plant Proteins, Genetics, biology, Coinfection, food and beverages, biology.organism_classification, Capsicum chinense, Infectious Diseases, Capsicum, Function (biology)

Abstract

Germin-like proteins (GLPs) are encoded by a family of genes found in all plants, and in terms of function, the GLPs are implicated in the response of plants to biotic and abiotic stresses. CchGLP is a gene encoding a GLP identified in a geminivirus-resistant Capsicum chinense Jacq accession named BG-3821, and it is important in geminivirus resistance when transferred to susceptible tobacco in transgenic experiments. To characterize the role of this GLP in geminivirus resistance in the original accession from which this gene was identified, this work aimed at demonstrating the possible role of CchGLP in resistance to geminiviruses in Capsicum chinense Jacq. BG-3821. Virus-induced gene silencing studies using a geminiviral vector based in PHYVV component A, displaying that silencing of CchGLP in accession BG-3821, increased susceptibility to geminivirus single and mixed infections. These results suggested that CchGLP is an important factor for geminivirus resistance in C. chinense BG-3821 accession.

Published

2015

11. Strategies for Sustainable Plant Food Production: Facing the Current Agricultural Challenges—Agriculture for Today and Tomorrow

Author

Lina Garcia-Mier, Rosalia V. Ocampo-Velazquez, Laura Mejía-Teniente, Ramón G. Guevara-González, Ana A. Feregrino-Perez, Angela María Chapa-Oliver, Sandra Neli Jimenez-Garcia, Enrique Rico-García, and Irineo Torres-Pacheco

Subjects

Agricultural science, Engineering, Food security, Agriculture, business.industry, Natural resource economics, Per capita, Food processing, World population, business, Green Revolution, Productivity, Water scarcity

Abstract

Plants are fundamental elements of the human diet, either as direct sources of nutrients or indirectly as feed for animals. During the past years, the main goal of agriculture has been to increase yield in order to provide the food that is needed by a growing world population. However, as important as yield, but commonly forgotten in conventional agriculture, is to retain and, if possible, to increase the phytochemical content due to their health implications. By 2025, the global population will exceed 7 billion. In the short term, per capita availability of arable land and irrigation water will decrease from year to year while biotic and abiotic stresses expand. Food security, defined as economic, physical, and social access to a balanced diet and harmless drinking water will be a compromise, with a holistic approach to nutritional and non-nutritional factors needed to achieve success in the eradication of hunger. Science and technology will play a very important role in stimulating and sustaining agriculture leading to long-term increases in productivity without linked ecological harm.

Published

2014

12. PepGMV Rep-Protein Expression in Mammalian Cells

Author

Teresa García-Gasca, Irineo Torres-Pacheco, Ramón G. Guevara-González, Angela María Chapa-Oliver, and Laura Mejía-Teniente

Subjects

viruses, lcsh:QR1-502, Virus Replication, Genome, lcsh:Microbiology, Article, Cell Line, Mice, Viral Proteins, chemistry.chemical_compound, Virology, Animals, Genetics, biology, Host (biology), Begomovirus, food and beverages, Fibroblasts, Cell cycle, Rep protein, biology.organism_classification, Plant cell, Infectious Diseases, chemistry, Viral replication, Cell culture, Geminivirus, cell cycle, DNA

Abstract

The Geminiviruses genome is a small, single strand DNA that replicates in the plant cell nucleus. Analogous to animal DNA viruses, Geminiviruses depend on the host replication machinery to amplify their genomes and only supply the factors required to initiate their replication. Consequently, Geminiviruses remove the cell-cycle arrest and induce the host replication machinery using an endocycle process. They encode proteins, such as the conserved replication-associated proteins (Rep) that interact with retinoblastoma-like proteins in plants and alter the cell division cycle in yeasts. Therefore, the aim of this work is to analyze the impact of Pepper Golden Mosaic Virus (PepGMV) Rep protein in mammalian cells. Results indicate that the pTracer-SV40:Rep construction obtained in this work can be used to analyze the Rep protein effect in mammalian cells in order to compare the cell cycle regulation mechanisms in plants and animals.

Published

2012

13. Aflatoxins Biochemistry and Molecular Biology - Biotechnological Approaches for Control in Crops

Author

Moises Alejandro Vazquez-Cruz, Laura Mejía-Teniente, Ramón G. Guevara-González, Angel María Chapa-Oliver, and Irineo Torres-Pacheco

Subjects

Aflatoxin, Aspergillus, Toxicity data, biology, business.industry, Toxin, fungi, food and beverages, Fungus, biology.organism_classification, medicine.disease_cause, Biotechnology, Crop, Human health, chemistry.chemical_compound, chemistry, medicine, Food science, business, Mycotoxin

Abstract

Fungi play a very important, but yet mostly unexplored role. Their widespread occurrence on land and in marine life makes them a challenge and a risk for humans (Brase et al., 2009). Fungi are ingenious producers of complex natural products which show a broad range of biological activities (Bohnert et al., 2010). However, a specific characteristic is the production of toxins. Mycotoxins (from “myco” fungus and toxin), are nonvolatile, relatively low-molecular weight, fungal secondary metabolic products (Brase et al., 2009). The most agriculturally important micotoxins are aflatoxins (AF) which are a group of highly toxic metabolites, studied primarly because of their negative effects on human health. Aflatoxins belong to a group of difuranocumarinic derivatives structurally related, and are produced meanly by fungi of genus Aspergillus spp. Its production depends on many factors such as substrate, temperature, pH, relative humidity and the presence of other fungi. It has been identified 18 types of aflatoxins; the most frequent in foods are B1, B2, G1, G2, M1, and M2 (Bhatnagar et al., 2002). These secondary metabolites contaminate a number of oilseed crops during growth of the fungus and this can result in severe negative economic and health impacts (Cary et al., 2009). The higher levels of aflatoxins have been found in cotton and maize seeds, peanuts, and nuts. In grains like wheat, rice, rye or barley the presence of aflatoxins is less frequent. Mycotoxins may also occur in conjugated form, either soluble (masked mycotoxins) or incorporated into/ associated with/attached to macromolecules (bound mycotoxins). These conjugated mycotoxins can emerge after metabolization by living plants, fungi and mammals or after food processing. Awareness of such altered forms of mycotoxins is increasing, but reliable analytical methods, measurement standards, occurrence, and toxicity data are still lacking (Berthiller et al., 2009). A variety of studies has been conducted in order to understand the process of crop contamination by aflatoxins. Mycotoxins are dangerous metabolites that are often carcinogenic, and they represent a serious threat to both animal and human health (Reverberi et al., 2010). Mycotoxins are considered secondary metabolites because

Published

2011

14. Genetic Resistance to Drought in Maize and Its Relationship in Aflatoxins Production

Author

Ricardo Ernesto Preciado-Ortiz, Ernesto Moreno Martinez, Ramón G. Guevara-González, Juan Jesús Cervantes-Landaverde, Irineo Torres-Pacheco, Angela María Chapa-Oliver, Laura Mejía-Teniente, and Moises Alejandro Vazquez-Cruz

Subjects

Crop, Agronomy, Abiotic stress, Agricultural land, Animal feed, Agroforestry, Agriculture, business.industry, Crop yield, Plant breeding, Biology, business, Productivity

Abstract

Maize (Zea mays L.) is one of the most important crops in the world. It is the third most important food grain crop in the developing world and is estimated that the demand for maize in developing countries will grow by 50%, from 558 million tons in 1995 to 837 million tons in 2020. Much of this increased demand will be needed by domestic supply for developing countries, which will require intensifying production on existing agricultural land (Ribaut and Ragot, 2007). Drought is one of the prime abiotic stress in crops in the world. Crop yield losses due to drought stress are considerable. Particularly in maize, as an example, drought is the major stress affecting productivity in Africa leading up to 70% or total crop loss (Muoma et al., 2010; Ashraf, 2010). Although a variety of approaches have been used to alleviate the problem of drought, plant breeding, either conventional breeding or genetic engineering, seems to be an efficient and economic means of tailoring crops to enable them to grow successfully in drought-prone environments (Ashraf, 2010). In turn, aflatoxins are found to contaminate a wide variety of important agricultural products such as corn, peanuts, tree nuts and cottonseed especially under extreme heat and drought conditions (Payne, 1998; Chen et al., 2003). Aflatoxin contamination significantly reduces the value of grain as an animal feed and export commodity (Chen et al., 2002).

Published

2011

15. Aflatoxins Biochemistry and Molecular Biology - Biotechnological Approaches for Control in Crops

Author

Laura Mejía-Teniente, Angel María Chapa-Oliver, Moises Alejandro Vazquez-Cruz, Irineo Torres-Pacheco, Ramón Gerardo Guevara-González, Laura Mejía-Teniente, Angel María Chapa-Oliver, Moises Alejandro Vazquez-Cruz, Irineo Torres-Pacheco, and Ramón Gerardo Guevara-González

Published

2011

16. Genetic Resistance to Drought in Maize and Its Relationship in Aflatoxins Production

Author

Ramón Gerardo Guevara-González, Angela María Chapa-Oliver, Laura Mejía-Teniente, Irineo Torres-Pacheco, Moises Alejandro Vazquez-Cruz, Juan Jesús Cervantes-Landaverde, Ricardo Ernesto Preciado-Ortiz, Ernesto Moreno- Martinez, Ramón Gerardo Guevara-González, Angela María Chapa-Oliver, Laura Mejía-Teniente, Irineo Torres-Pacheco, Moises Alejandro Vazquez-Cruz, Juan Jesús Cervantes-Landaverde, Ricardo Ernesto Preciado-Ortiz, and Ernesto Moreno- Martinez

Published

2011