Biotechnology, a '90s buzzword, popularly conjures up somewhat ominous images of gene-tinkering. Yet manipulating genetic makeup of plants and animals to improve crop yields is far from new. Cross-breeding for desired traits such as tallness, greater milk yield or sweeter fruits, has been practiced ever since humans took up farming. However classical breeding methods have drawbacks, especially length of time required to achieve desired quality. Traditional cross-breeding means crossing all genes in two plants or animals for maybe 10, 12 or more years, to create one with desired trait(s). Also, traditional cross-breeding can only be used within individuals of same (or related) species - further limiting its ability to enhance or alter food quality.

What are benefits of biotechnology? And are they, really?

Biotechnology can dramatically reduce time and effort required to improve crops and livestock. The technique allows scientists to modify plants and animals in a more controlled way, choosing selected genes for cross-breeding instead of crossing hundreds of genes through many generations to obtain desired characteristic. The new technique allows transfer of one or a few selected gene at a time, for just one or a few desirable traits. And technique even permits genes with certain traits to be transferred from one species to another, impossible by traditional breeding methods.

The basis of modern food biotechnology depends on molecule deoxyribonucleic acid or DNA, genetic material of all living cells. It is contained in chromosomes (threadlike structures) inside cell nucleus. Unravelling molecular structure of DNA opened door to rapid advances in food biotechnology. instead of mixing all hundreds of genes within a plant or animal in back-crossing, scientists can now "select out" a particular gene (length of DNA) responsible for a particular trait. In essence, genetic manipulation means taking one or more selected genes (portions of DN) and incorporating them into genetic material of another plant or animal, bypassing need for tedious years of breeding. The gene transfer is done by a complex "cut and paste" procedure in which transcription or cutting enzymes "cut" (remove) a specific gene from one organism's DNA and "paste" or splice it into DNA of another organism.

The burgeoning benefits of food biotechnology include better tasting fruits and vegetables, disease-resistant crops requiring less pesticides and plants with improved nutrient contents, to name a few. See conclusions at end before you become overjoyed with these “improvements”.

For instance, slower-ripening tomatoes that can stay on vine longer without rotting, will allow better-tasting ripe produce to be shipped out instead of being artificially ripened. Or, for example, crookneck squash plants can be made resistant to viruses carried by insects (aphids) that often destroy them, reducing crop spoilage and decreasing need for pesticides. Growers are also producing virus-resistant varieties of potatoes, cucumbers and melons. See conclusions before you get too enamored of possible benefits seen here.

If a food or drink is culprit behind your acne breakouts you may actually be addicted to your preferred culinary delight. The allergy addition could stem from body’s response to frequently consumed allergens. During an allergic response, body releases endorphins. These endorphins in turn create feeling of a natural high. Any substance that promotes this fleeting state of euphoria may be additive. So, you may be eating a food that you are allergic to just to get high, and as an after blow, you get acne. Ouch.