improve by enginerring
improve by enginerring
Genetic engineering can help farmers be more productive by making plants that withstand herbicides and pesticides, have shorter growing seasons, and are more hearty. However, studies have not been fully conclusive on the dangers of genetically altered food supplies.
Genetic Engineering is the study and application of genetics for a better life/future. Genetic engineering can be used to produce medicines & to improve food crops. Researchers are also using genetic engineering to try to cure human genetic disorders.
by inserting a gene from another organism (transgenic organisms).
Some examples of designer babies are parents using genetic engineering to improve the outcomes of their babies births or to save their lives from otherwise life threatening genetic disorders.
Some examples of designer babies are parents using genetic engineering to improve the outcomes of their babies births or to save their lives from otherwise life threatening genetic disorders.
Add bacteia genes to crop plants can improve plant species :)
injecting growth hormones, genetically engineered in bacteria, it goes into dairy cows, it also increases their milk production.
What is the eligibility to get admission for genetic engineering? In: http://wiki.answers.com/Q/FAQ/1767-287, http://wiki.answers.com/Q/FAQ/6347-25[Edit categories][Improve]
Genetic engineering in grasses is becoming popular for many reasons, including nutrition for cows and ways to improve gasoline. One common practice is to place a gene from sweeter grasses and splicing it into the chromosomes from a rye grass.
Biotechnology involves the use of biological systems or organisms to develop products or improve processes. Its purpose is to create new technologies, products, and therapies that can improve human health, agriculture, and the environment. This field encompasses areas such as genetic engineering, molecular biology, and bioinformatics.
Plant breeding techniques such as hybridization, selection, and genetic engineering are used to improve the phenotype of plants. These methods help enhance desirable traits such as yield, disease resistance, and quality, leading to the development of improved plant varieties.