Add to ORKGAbstract Insect and herbicide-resistant plants are the most widely grown transgenics in agricultural pro-duction. No strategy using genetically engineered plants for disease resistance has had a comparable impact. Why is this? What are the prospects for introducing transgenic disease resistant plants to agriculture? We review the biological background for strategies used to make disease resistant GM crops, illustrate examples of these different strategies and discuss future prospects
A review of the recent progress in plant genetic engineering for disease resistance highlights futur...
Genetically engineered crops are used for their better quality and superior characters and services...
With a projected population of 10 billion by 2050, an immediate priority for agriculture is to achie...
To engineer plants with increased and durable disease resistance using transgenic technologies we mu...
Plant diseases represent a major constraint on agricultural production. Finding sustainable novel m...
One of the first successes of plant biotechnology has been the creation and commercialisation of tra...
The global production of agricultural and food products is the world’s largest industry, with total ...
Genetically engineered crops have been grown for more than 20 years, resulting in widespread albeit ...
The development of plant transformation and gene cloning techniques has opened new avenues for aug-m...
Integrated pest management has historically placed great hopes on host plant resistance. However, co...
The control of weeds and pests is a major challenge to farmers and the rapid uptake of GM crop varie...
In the absence of equivalent research on genetically modified (GM) pest-resistant crops, their impac...
Development of recombinant DNA technology allowed scientists to manipulate plant genomes, making it ...
Pest resistance is a serious global problem. Over 600 pests (insects, weeds, pathogens) are reported...
The growing area of genetically modified (GM) crops has significantly expanded since they were first...
A review of the recent progress in plant genetic engineering for disease resistance highlights futur...
Genetically engineered crops are used for their better quality and superior characters and services...
With a projected population of 10 billion by 2050, an immediate priority for agriculture is to achie...
To engineer plants with increased and durable disease resistance using transgenic technologies we mu...
Plant diseases represent a major constraint on agricultural production. Finding sustainable novel m...
One of the first successes of plant biotechnology has been the creation and commercialisation of tra...
The global production of agricultural and food products is the world’s largest industry, with total ...
Genetically engineered crops have been grown for more than 20 years, resulting in widespread albeit ...
The development of plant transformation and gene cloning techniques has opened new avenues for aug-m...
Integrated pest management has historically placed great hopes on host plant resistance. However, co...
The control of weeds and pests is a major challenge to farmers and the rapid uptake of GM crop varie...
In the absence of equivalent research on genetically modified (GM) pest-resistant crops, their impac...
Development of recombinant DNA technology allowed scientists to manipulate plant genomes, making it ...
Pest resistance is a serious global problem. Over 600 pests (insects, weeds, pathogens) are reported...
The growing area of genetically modified (GM) crops has significantly expanded since they were first...
A review of the recent progress in plant genetic engineering for disease resistance highlights futur...
Genetically engineered crops are used for their better quality and superior characters and services...
With a projected population of 10 billion by 2050, an immediate priority for agriculture is to achie...