There is considerable room for expanding genetic engineering to include the use of modified gene objects to deal with dangerous and invisible alien objects such as explosive materials with a view to disposal and conversion into useful substances.
Genetic engineering depends on the collection of bacterial models from places where weapons factories, ammunition depots or soil affected by weapons production and other military activities are developed, and then develop them in the laboratory on food media containing explosive materials, and then isolate the bacteria in which they can live and analyze them. This is an attempt to isolate the genes responsible for the analysis of explosive materials and their transfer to microorganisms that can live in places affected by military pollution. Using this technique, genetic engineering has been able to produce microorganisms capable of analyzing explosive materials.
Genetic engineering depends on the collection of bacterial models from places where weapons factories, ammunition depots or soil affected by weapons production and other military activities are developed, and then develop them in the laboratory on food media containing explosive materials, and then isolate the bacteria in which they can live and analyze them. This is an attempt to isolate the genes responsible for the analysis of explosive materials and their transfer to microorganisms that can live in places affected by military pollution. Using this technique, genetic engineering has been able to produce microorganisms capable of analyzing explosive materials.