DNA-Based Markers in Plants
DNA-Based Markers in Plants by R.L. Phillips, published by Springer Science & Business Media in April 2001, is a comprehensive exploration of the advancements in molecular biology and biotechnology as they relate to plant genetics. This second edition spans 512 pages and delves into the historical context of DNA research, beginning with the elucidation of the double helix structure in 1953 and the subsequent discovery of restriction enzymes in 1973. The book discusses the implications of these discoveries for genetic manipulation in plants, highlighting the development of transgenic plants and their applications in agriculture.
Readers will find an in-depth examination of how genetic engineering has led to the creation of crops with desirable traits, such as resistance to herbicides and pests, as well as modifications that affect fruit ripening and starch content. The text covers the introduction of single bacterial genes that regulate important traits, providing a scientific foundation for understanding modern biotechnological practices in plant science. This edition serves as a valuable resource for those interested in genetics, life sciences, and the practical applications of biotechnology in agriculture.
Official synopsis Publisher
The double helix architecture of DNA was elucidated in 1953. Twenty years later, in 1973, the discovery of restriction enzymes helped to create recombinant DNA mol ecules in vitro. The implications of these powerful and novel methods of molecular biol ogy, and their potential in the genetic manipulation and improvement of microbes, plants and animals, became increasingly evident, and led to the birth of modern biotechnology. The first transgenic plants in which a bacterial gene had been stably integrated were produced in 1983, and by 1993 transgenic plants had been produced in all major crop species, including the cereals and the legumes. These remarkable achievements have resulted in the production of crops that are resistant to potent but environmentally safe herbicides, or to viral pathogens and insect pests. In other instances genes have been introduced that delay fruit ripening, or increase starch content, or cause male sterility. Most of these manipulations are based on the introduction of a single gene – generally of bacterial origin – that regulates an important monogenic trait, into the crop of choice. Many of the engineered crops are now under field trials and are expected to be commercially produced within the next few years.
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