Importance of Living Modified Organisms and Genetically Modified Organisms

1202 Words3 Pages

We possibly overlook the microorganisms when thinking of LMO since plants and animals probably will first come to our mind. With the development of recombinant DNA technology, metabolic potentials of microorganisms are being explored. Nowadays, genetically modified microorganisms (GMMs) have vast applications in human and animal health, bioremediation, and in industries such as food and textiles. The first GMM, specifically E. coli, was made in the 1970s (Teisha, 2013). A few years later, GMMs which produced essential human proteins were churned out by researchers (Teisha, 2013). Insulin, interferons (IFNs), and interleukins are among the famous proteins that are now produced by GMMs for therapeutic purpose. Human insulin was produced by genetically modified E. coli with exogenous human insulin genes inserted (Johnson, 1983). Besides, human growth hormone is also produced by modified E. coli containing the native human growth hormone genes (Cronin, 1997).
The gene which encodes IFN γ was introduced into E. coli under regulation of tryptophan promoter and operator cassette (Lei, 2004). Hence, the production of IFN γ in the presence of tryptophan in the medium during the first phase of fermentation is repressed, while it is not to be repressed during second phase when a tryptophan analog is added to the medium (Lei, 2004). Under this system, the production of recombinants IFN γ is regulated, so that the cell mass are accumulated adequately before the production starts (Lei, 2004). Besides IFN γ, there are also other recombinant therapeutic proteins, like IFN α-2a, IFN β-1b, and granulocyte-macrophage colony-stimulating factor (Lei, 2004). The production of these therapeutic proteins in fast-growing and easily manipulated microorgan...

... middle of paper ...

...Brighter appearance to coloured textiles thanks to a new cellulase from an extremophilic bacterium. Journal of Biotechnology 66, 231–233.

Sayler, G. S. & Ripp, S. (2001). Field applications of genetically engineered microorganisms for bioremediation processes. Current Opinion in Biotechnology 11, 286–289.

Kapley, A., Purohit, H. J., Chhatre, S., Shanker, R., Chakrabarti, T., Khanna, P. (1999). Osmotolerance and hydrocarbon degradation by a genetically engineered microbial consortium. Bioresource technology 67, 241-245.
Top, E. M., van Daele, P., de Saeyer, N., Forney, L. J. (1998). Enhancement of 2, 4 dichlorophenoxyacetic acid (2, 4-D) degradation in soil by dissemination of catabolic plasmids. Antonie van Leeuwenhoek 73, 87-94.
Lei, H. (2004). The GMO handbook: genetically modified animals, microbes, and plants in biotechnology. Totowa, New Jersey: Humana Press.

Ligation of EGFP into pET41a(+) vector transformed into E. coli cells
3721 Words | 8 Pages
Once the recombinant plasmid was obtained, it was then inserted into E. coli cells through transformation. From a successful transformation, we expected the bacterial cells to translate the inserted EGFP sequence into its protein form. The bacteria cultures were plated on petri dishes containing growth supplement, Luria Broth (LB), an antibiotic: Kanamycin, and IPTG which induced the fluorescence property within successfully transformed bacterial colonies. Different variants of the petri dishes were also included as control and unknown.
Read More
Genetically Modified Organisms Changing our Climate
1042 Words | 3 Pages
How do you genetically modify an organism? Genetically Modified Organisms are created in many different ways. First, scientists identify the gene or genetic material that could solve the problem and study the genetic makeup of the plant or animal. Second, copy the needed trait from a “donor” organism and implant it into the DNA of the plant of animals that needs it. Finally, plant the seed or raise the animal to see if it worked. Some scientists start the process by genetically engineering bacteria. This “gene shuffling” and other modifications made to the bacteria are then transferred to the target organisms such as plants, fish, mammals and yeast. These modifications require the work of thousands of scientists who are conducting various labs. Genetic modifications have been happening for over forty years.
Read More
Genetically Modified Organism:
669 Words | 2 Pages
Genetically modified organisms are “an organism whose genome has been altered in order to favour the expression of desired physiological traits or the output of desired biological products.” http://www.merriam-webster.com/concise/genetically%20modified%20organism%20(gmo). The United States were first approved for human consumption of genetically modified foods in 1995. The techniques used for producing the genetically developed organisms include cloning recombinant DNA technology. Primary uses of genetically modified organisms are mostly in areas of agriculture and biomedical research. GMOs compromise numerous aids to society, including enlarged crop yields and the development of fresh therapeutic agents which prevent and treat a wide variety of human diseases . However there are some concerns around the use of genetically modified organisms which include the risks stood to human health and the initiation of insecticide resistant superbugs. This essay will provide evidence to support the evidence that the genetic modifications of crops produces better results than selective breeding or mutation.
Read More
The Controversy Over Genetically Modified Foods
2269 Words | 5 Pages
Genetically modified (GM) food is created from organisms that have had specific modifications introduced into their DNA using the methods of genetic engineering. In molecular biology, genetic engineering is specified as ‘the direct manipulation of genes for practical purposes’ (Campbell & Reece, 2005: 384).
Read More
The Negative Effects of Genetically Modified Organisms on our Bodies and on the Environment
1911 Words | 4 Pages
Smith, Daniel P. "What to Know about GMOs." QSR Magazine Oct. 2013: n. pag. Web. 11 Mar. 2014. .
Read More
Genetically Modified Food Investigation Folio
1153 Words | 3 Pages
In the genetic modification of food, a technique called transgenesis is used. It involves incorporating foreign DNA, or desired gene into the organism that is being manipulated. DNA is a long molecule with a double helix structure, present in essentially, all living organisms. It consists of subunits called nucleotides, and has the ability to self-replicate. Organisms that undergo transgenesis are transgenic. A range of techniques is available to transfer genes between organisms. The most common include microinjection and vectors. However, for the genetic modification of food, vectors are the most appropriate method for transgenesis. The most common technique for using vectors is th...
Read More
Genetically Modified Food (GMOs): Annotated Bibliography
2902 Words | 6 Pages
Okigbo, R., Iwube, J., & Putheti, R. (2011). An extensive review on genetically modified (GM) foods
Read More
Prokaryotic Organisms: Essential to Agriculture and the Future of Humanity
1345 Words | 3 Pages
With the significant increase in global human population in recent decades, the pressure for groups of people to produce enough food and energy for everyone to consume while ensuring that these resources remain sustainable and replaceable has likewise dramatically increased. While the first several challenges produced by the rise on population were met with advances in technology, notably the Green Revolution, the continued growth of the population has placed further strains on the fields of agricultural, food, energy/environment, and biotechnology. Prokaryotic organisms, which are single- or small numbered-cell organisms that lack nuclei in their cells are essential to these fields because they provide a mechanism for current resources to be made more productive and available. Thus, prokaryotes, especially for roles in agriculture and energy, are extremely critical to understand within these processes.
Read More
Biopharming Case Study
1593 Words | 4 Pages
Biopharming is a new technique of producing valuable proteins that are important in the production of pharmaceuticals (medicinal drugs). Transgenic plants are used to grow and manufacture large amounts of the desired protein. This is done through genetic engineering by inserting genes that code for the desired protein into the host animal or host plant that would not usually have those specific genes in nature, thus producing a Genetically Modified Organism (GMO). The end product which is extracted from these GMO’s are recombinant proteins. These proteins are usually produced by yeast and bacteria in a bioreactor, but this method has proven to be very expensive. However, the method of Biopharming gives the producer (or pharmer) the advantage of not needing high tech, high maintenance and highly expensive infrastructure, such as a bioreactor. The producer is even able to manipulate, with relative ease, the production capacity by adjusting to meet the current demand. This all adds up to a very effective of producing raw materials for valuable pharmaceuticals.
Read More
Sweet ideas on sweet pepper
702 Words | 2 Pages
Pillips, Theresa, Ph.D. "Genetically Modified Organisms (GMOs): Transgenic Crops and Recombinant DNA Technology." Nature.com. Nature Publishing Group, 2008. Web. 23 Mar. 2014.
Read More
Splice: The Movie
953 Words | 2 Pages
Lemaux, P.G. (2006). Introduction to genetic modification. Agricultural Biotechnology in California Series, 8178. Retrieved from http://ucanr.org/freepubs/docs/8178.pdf
Read More
Genetic Engineering
1461 Words | 3 Pages
Technology shapes the environment and even food foundations. The technology called genetic manufacturing has shaped the nutrition frugality since the first bacterium to be hereditarily reformed in 1973. There are three classifications used within genetic engineering: the plasmid technique, the vector technique, and the biolistic technique. The plasmid method, frequently the utmost used process includes bacteria providing plasmids, a minuscule sphere of DNA (The Jackson Laboratory). The rings that the plasmids emit are duplicating molecular generators within the cell. Plasmids are essentially indispensable to genetically contrived cells in the wildlife. Plasmids deliver an operational way in which characteristics that are not typically within a chromosome can be conceded from one cell to an alternative cell. Very few plasmids acquire genes that encode for enzymes such as penicillin or ampicillin and these materials dissolve antibiotics permitting a vast subsidy to the cell because they now become invulnerable to numerous classes of antibiotics. When these cells enclosing plasmids ceases from living adjacent cells clutch the plasmids and acclimate to the qualities that were attained in the previous transaction. He...
Read More
Benefits of Genetically Modified Organisms
699 Words | 2 Pages
We live in a world that is constantly changing and advancing thanks to technological advancements, especially in the field of molecular genetics. Today, we are discovering and implementing new ways to overcome the ill-fated symptoms developed as a result from poor health or accidents. We are also making advancements in the field of agriculture thanks to molecular genetics. As we all know, food is an essential entity in our lives and is abundant as well as relatively easy to obtain here in the United States. However, as good as it may sound, this is not necessarily true for developing countries. Many people in developing countries receive very little food, if any, due to its scarcity. It is estimated that in Asia alone, close to 800 million people go to bed hungry every night due to food shortage. This problem can be alleviated by turning to the production of genetically modified organisms (a.k.a. GMOs).
Read More
The Importance of Medical Biotechnology
920 Words | 2 Pages
Keener, K., Hoban, T. and Balasubramanian, R. 2014. Biotechnology and its applications. [online] Available at: http://www.ces.ncsu.edu/depts/foodsci/ext/pubs/bioapp.html [Accessed: 11 Apr 2014].
Read More
The importance of Living Modified Organisms ( LMO)
914 Words | 2 Pages
Phillips, T. (2008) Genetically modified organisms (GMOs): Transgenic crops and recombinant DNA technology. Nature Education, 1(1), 213
Read More

Open Document

Wait a second!

Importance of Living Modified Organisms and Genetically Modified Organisms

Ligation of EGFP into pET41a(+) vector transformed into E. coli cells

Genetically Modified Organisms Changing our Climate

Genetically Modified Organism:

The Controversy Over Genetically Modified Foods

The Negative Effects of Genetically Modified Organisms on our Bodies and on the Environment

Genetically Modified Food Investigation Folio

Genetically Modified Food (GMOs): Annotated Bibliography

Prokaryotic Organisms: Essential to Agriculture and the Future of Humanity

Biopharming Case Study

Sweet ideas on sweet pepper

Splice: The Movie

Genetic Engineering

Benefits of Genetically Modified Organisms

The Importance of Medical Biotechnology

The importance of Living Modified Organisms ( LMO)

More about Importance of Living Modified Organisms and Genetically Modified Organisms