Throughout the history of crop improvement, ‘new technologies ’ have been regularly utilised by plant geneticists/breeders to develop new gene combinations for improving crop cultivars. Over the last 25 years rapid scientific advances in plant cell culture and molecular biology have resulted in technological developments that allow genetic engineering in virtually all crop species. This offer
Abstract The major scientific advances of the last century featured the identification of the struct...
The current tools of enquiry into the structure and operation of the plant genome have provided us w...
This article reviews some of the highlights of modern plant biotechnology and discusses the potentia...
This review charts the major developments in the genetic manipulation of plant cells that have taken...
For the past decade, biotechnology has been promising to deliver new methods and new types of variat...
The transition from hunting and gathering to farming happened about 10,000 years ago, independently ...
Modern techniques in biotechnology have rapidly expanded the horizons of plant breeding and crop imp...
Crop improvements have been one of the most important human endeavors in history, for a very good re...
Genetic engineering and biotechnology are becoming widely used in crop improvement and have provided...
Plant transformation remains the most sought-after technology for functional genomics and crop genet...
There are, broadly, three benefits to agriculture and crop-improvement programmes from use of biotec...
Crop improvement refers to the genetic alteration of plants. With the increase in global population ...
The emergence of the agricultural biotechnology industry at the end of the 20th century brought with...
International audiencePlants such as cereals and legumes on which humans depend on today were domest...
Climate change, emerging pests and scarce resources – sustainable production of sufficient food of h...
Abstract The major scientific advances of the last century featured the identification of the struct...
The current tools of enquiry into the structure and operation of the plant genome have provided us w...
This article reviews some of the highlights of modern plant biotechnology and discusses the potentia...
This review charts the major developments in the genetic manipulation of plant cells that have taken...
For the past decade, biotechnology has been promising to deliver new methods and new types of variat...
The transition from hunting and gathering to farming happened about 10,000 years ago, independently ...
Modern techniques in biotechnology have rapidly expanded the horizons of plant breeding and crop imp...
Crop improvements have been one of the most important human endeavors in history, for a very good re...
Genetic engineering and biotechnology are becoming widely used in crop improvement and have provided...
Plant transformation remains the most sought-after technology for functional genomics and crop genet...
There are, broadly, three benefits to agriculture and crop-improvement programmes from use of biotec...
Crop improvement refers to the genetic alteration of plants. With the increase in global population ...
The emergence of the agricultural biotechnology industry at the end of the 20th century brought with...
International audiencePlants such as cereals and legumes on which humans depend on today were domest...
Climate change, emerging pests and scarce resources – sustainable production of sufficient food of h...
Abstract The major scientific advances of the last century featured the identification of the struct...
The current tools of enquiry into the structure and operation of the plant genome have provided us w...
This article reviews some of the highlights of modern plant biotechnology and discusses the potentia...
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