Biotechnological Plants and their Potential for Drug Production
Biotechnological Plants and their Potential for Drug Production
Biotechnological plants have left significant footprints in various fields such as medical science, agriculture, food and food additive industries. But its active participation in the province of medical science has led dramatic changes in the medical world. It has done a lot for pharmaceutical engineering. It has made possible to fight with adversities raised due to scarcities of medical incentives and has enabled the healthcare units to provide assistance to patients suffering from various health disorders.
Biotechnological plants include biological process of manufacture and drugs are extracted from both plant and animal species. The medicines produced by these plants are free from all sorts of side-effects. These plants use the concepts of new and emerging technologies like genomics, genetic engineering, plant and animal cell-tissue culture etc. They also implement various sophisticated tools and machineries in the manufacturing process.
Biotechnological plants use the ideas of various streams of medical science such as genetics, cell-biology, embryology, microbiology, molecular biology and bio-chemistry. All these ideas and concepts are used in the drug development procedures. New techniques like artificial selection, hybridization and breeding are also used to develop high quality plants and animals that can facilitate the improved qualities of pharmaceutical productions.
These plants possess the potential for unlimited medicine production. With the introduction of new techniques in pathogenesis, these plants are consistently achieving success in medical world. These medicines have the ability to solve several health disorders and increase the life span of mankind. Though these plants require more time and huge initial investments, but the medicines produced are highly efficient and cost-effective that can fight with common as well as crucial diseases.
For more information on Pharmaceutical engineering and the benefits of Pharmaceutical engineering and Biotechnological plants please visit the mentioned website
Three Australian farmers, Newell, Tuck and Turner, describe how reduced chemical spraying and the simplicity of GM crops benefit the environment, their communities, families and farms. www.monsanto.com
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Question by charisma: which universities in Canada are available to study plant biotechnology PhD level in English language?
Best answer:
Answer by mulauthoring
You may want to checkout:
The University of British Columbia graduate programs in Plant Sciences at www.landfood.ubc.ca/programs/plant_sc_grad.htm
The University of Saskatchewan graduate programs in Plant Sciences at www.usask.ca/programs/graduate_studies/plant_sciences.html
If you are interested in applying for a graduate program in an American university, you may read: http://www.bukisa.com/articles/94327_want-to-go-to-america-for-a-ms-degree
For financial aid info for international students in American universities, you may read: http://www.associatedcontent.com/article/1764840/getting_financial_aid_to_study_at_american.html
Give your answer to this question below!
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Biotechnological Plants and Efficient Medicines are interrelated
Biotechnological Plants and Efficient Medicines are interrelated
Biotechnological plants generally implement the concepts of biotechnology which is a new and emerging technology. This technology is very powerful and has developed several therapeutic proteins that are also called as biological medicating agents that have the capability to cure several health hazards and completely eliminate them. These restorative proteins are developed from living resources such as plants and animals. These proteins do not have any side-effects.
According to the latest reports, around 130 salutary proteins are currently available in the market and many more are under their developmental stages. Human insulin was the first therapeutic protein developed by the biotechnological plants which was a remarkable achievement in the field of medical science. The discovery of these recombinant proteins changed the face of pharmaceutical engineering. It earned enormous success due to its development.
These proteins are highly potential and can cure the deadliest diseases. This is used in several treatments and therapies. These proteins have wide range of applications in numerous fields and are able to cure blood clotting disorders, diabetes etc. Various human vaccines have also been produced to provide resistance against viral infections. Due to their great curing capacity against several diseases, they are in high demand.
Theoretically, every living organism can be perceived as the potential source to provide recombinant proteins. But only few sources can be used for the extraction of these beneficial medicines. These proteins can heal a number of diseases. Hence, biotechnological plants are trying hard to extract these important proteins from the plant sources.
For more information on Pharmaceutical engineering and the benefits of Pharmaceutical engineering and biotechnological plants please visit the mentioned website
Farmers in Argentina generate US.0 billion in gross revenues from sales of genetically modified (GMO) crops to processors and consumers each year. They have rapidly adopted GMO crops such as soybeans, cotton and corn since their introduction in 1996. The use of GMO varieties reached 98 percent of soybeans planted in 2004 and tripled the use minimum-tillage practices, greatly reducing soil erosion and greenhouse gas emissions. Between 1996-2004, farmers in Argentina boosted their net farm income by US.1 billion growing GMO crops. www.monsanto.com
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Question by smilelaughplay: What are the pros and cons of plant biotechnology?
I’m guess it’s genetically modified plants. What are the pro and cons? I need help with a research paper. Please help. thank you?
Best answer:
Answer by rhythm
Pros and cons
…altering the genetic makeup of food crops, may increase the availability and variety of food by improving agricultural productivity and reducing seasonal variations in food supplies. Pest-resistant and stress-tolerant crops can be developed to reduce the risk of crop failure due to drought and disease. More nutrients and vitamins may be bred into plants, combating the nutrient deficiencies that affect so many of the world’s poor. Crops could be made to grow on poor soil in marginal lands, increasing overall food production.
Biotechnology also offers the possibility of reducing the use of toxic agricultural pesticides, and may also improve the efficiency of fertilizer and other soil amendments.
On the other hand, cautions FAO, the scientific assessment of the environmental and health impacts of genetic engineering of crop plants is still at an early stage and should be made on a case-by-case basis.
This link for more -
http://www.fao.org/newsroom/EN/focus/2004/41655/index.html
What do you think? Answer below!
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Some facts about Biotechnological Plants
Some facts about Biotechnological Plants
Medicines are made of harmful chemicals and components extracted from animal origin. But it could be very fatal and full of side effects. Hence, Biotechnology has developed genetically engineered plants that contains healing capacities and can cure crucial diseases without any side-effects. These plants are used to develop medicines in biotechnological plants.
Since long, living organisms like yeasts and bacterias have been utilized as the resources for development of pharmaceuticals. These resources are not sufficient to meet the growing requirements. Therefore to solve this problem, now plants are used as alternatives to animal resources. Several pharmacy plants have already been cultured in numerous countries and are at their development stages. Soya, tobacco, oilseed and maize are some of the pharmacy crops which have been used for trial.
Biotechnological plants have enormous capacity to manufacture pharmaceutical products like blood-clotting proteins, vaccines, antibodies, growth hormones, structural substances including collagen, anti-viral, antimicrobial and various enzymes. However, these plants focus more on production of antibodies and therapeutic proteins from genetically engineered plants. These salutary proteins are used in the treatment of many lethal diseases like cancer, leukemia, immunity disorders and several infections.
The use of genetically altered plants in biotechnological plants offers several advantages. They are capable of meeting the huge demand of pharmaceuticals in the market. Also the medicines produced by them are cost-effective that can be affordable by everyone. They involve flexible and easy methods of production. The additional benefit these plants get is that the cell structure of plants is very similar to animals.
However, the agriculture of pharmacy plants introduces various safety challenges. Genetically engineered plants can mix with the food crops and other eatables and can be very dangerous. Hence, numerous safety measures are taken into account and augmented use of non-food crops to decrease the risks is well practiced in medicine manufacturing plants of these biopharmaceuticals.
For more information on Pharmaceutical engineering and the benefits of Pharmaceutical manufacturing and Biotechnological plants please visit the mentioned website
Question by navneeth: which is the best university in australia and america for studying phd in plant biotechnology?
i hav done my msc biochemistry and bsc biotechnology and planning to do ms in biotechnology in university of queensland australia and continue my phd in plant biotechnology.
Best answer:
Answer by zich
my uncle did his phd in botany in Cornell.
Add your own answer in the comments!
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