Transgenic Fish Commencing The Blue Revolution

Genetic engineering processes are being applied to a wide variety of organisms. Aquatic animals are being engineered to increase aquaculture production, for medical and industrial research, and for ornamental reasons.

By using recombinant DNA techniques rather than traditional mating, scientists have created transgenic fish. The” new” DNA is introduced into the fish either by direct insertion into the eggs or by subjecting them to electric pulses.

The fast booming application of transgenic fish technology has led to many valuable discoveries in different disciplines of the biological sciences, many of which could potentially lead to the next breakthrough in new treatments for human diseases.

The National Institute of Science and Media along with distinguished writer Joel Ball has a series of books published on biotechnology and science which provide an in-depth knowledge on the recent advances made in the field.

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Biotechnology Helps To Cure Autism In Mice.

Researchers at MIT’s Picower institute for learning and memory have reversed almost all symptoms of fragile x syndrome in a mouse model for the disease. In human beings and in mice, fragile x syndrome is the common inherited cause of mental retardation and autism.

The researchers found that a 50 percent reduction in the production of mGluR5 eased the fragile X syndrome’s symptoms such as seizures and problems related to the eye, nerves, brain, memory and body growth.

This research holds great hope for the treatment of autism in human beings.
The National Institute of Science and Media keeps account of the recent breakthroughs in the world of science.

The National Institute of Science and Media publishes various books on biotechnology and life sciences written by eminent researchers like Joel Ball.

Biotechnology Is Used For Environment Friendly Mining

In the past few years, the mining industry has been turning to more efficient and environmentally salubrious method for extracting minerals from ores. The use of bacterium thiobacillus ferooxidans to leach copper from mine tailings has improved recovery rates and reduced operating costs to a large extent.

Thiobaccillus ferooxidans, is naturally present in certain sulfur containing materials .The bacterium thiobaccillus ferooxidans obtains energy by oxidizing inorganic materials, such as copper sulfide minerals. This process releases sulfuric acid and an oxidizing solution of ferric irons, which can wash out metals from crude ore. Poor quality copper ore is treated with sulfuric acid to facilitate the growth of the bacterium.

Bioming is the most important of application of biotechnology today.Bioming is alsoused to extract gold from very low grade sulfide gold ores.

The National Institute of Science and Media along with distinguished writer Joel Ball publish various study resources on biotechnology and the other branches of biology.

To learn more about  NISM publications call 866-647-6123

Genetically Engineered Vaccines - Courtesy Biotechnology

Genetically engineered vaccines either contain one or a few major antigens of the pathogenic agent that are capable of producing a neutralizing immune response upon infection. Diseases that affect a large proportion of the world's population are on top of the priority for list for recombinant vaccines.

Scientists have successfully produced the world’s first genetically engineered vaccine against hepatitis B from the surface antigen HbsAg, derived from the yeast cells. The genetically engineered vaccine not only prevents hepatitis B but also its serious consequences like hepatocellular carcinoma (liver cancer).

Human diseases such as measles, polio, tuberculosis, leprosy and malaria may someday get eradicated by the use of genetically engineered vaccines.

The National Institute of Science and a Media keeps a close eye on the breakthroughs in biotechnology and science. Joel Ball is a well-known authority on biotechnology and has various titles published under NISM publications to his credit.

Biotechnology Transforms Animal Waste to Human Wealth

A North Carolina State University scientist has developed a system called thermophilic anaerobic digestion, which converts animal waste into various useful products, including methane gas for fuel, liquid nutrients for aquaculture, and nutrient-rich feed additives for the poultry and livestock industries.

The thermophilic anaerobic digestion process involves enclosing animal waste in containers with heat-loving bacteria. The waste in the digester unit is heated to more than 115 degrees F. Bacteria in the digester then convert the waste into biogas, which can be used as fuel. The bacteria also destroy pathogens in the solid residue that remains. These by-products can then be processed as sanitary, nutrient-rich feed supplements.

The demonstration projects in North Carolina indicate that the thermal recyclers are very productive.

This simple method for processing animal waste, may someday lead to the productive use of the 500 million tons of poultry and livestock waste produced in the United States each year.

The National Institute of Science and Media keeps update information on the latest developments in the field of biotechnology and science. Distinguished writer, Joel Ball is at the fore front of all the publications of National Institute of Science and Media.

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Genes and Inheritance of an Illness

Sickle cell anaemia is an inherited blood disorder which mostly affects people of the African dynasty. It is believed that the sickle cell aneamia is the result of a gene mutation which occurred thousands of years ago in Africa due to malaria.

In the United States, approximately eight percent of African Americans have sickle aneamia trait and one in every five hundred have the disease.

Sickle cell anaemia is a blood disorder that affects the haemoglobin, a protein that fills the red blood cells and carries oxygen throughout the body. Sickle cell anemia occurs when a person inherits two abnormal genes that cause the disc shaped red blood cells to change their shape to crescent.

Medical genetics is constantly working on the treatment for the genetic disease such as sickle anaemia .

The National Institute of Science and Media have various titles on the subject of biotechnology and other branches of life science. Joel Ball, is a distinguished writer on the various study resources pertaining to biotechnology and other related subjects under the NISM name

Biotechnology Begins A New Industrial Revolution.

With the advent of biotechnology a new age has arrived in the industrial sector. The industrial biotechnology is facilitating a new industrial revolution that can bring a cleaner future with better products at lower cost.

The industrial biotechnology is revolutionizing the way we can produce energy, chemicals, electricity, hydrogen and other products. By harnessing nature’s unique ability to make biocatalyst, industrial biotechnology can now be employed to convert previously unusable agricultural waste products to energy and biodegradable products.

Industrial biotechnology is widely applied in the industrial sector to manufacture various products such as biohydrogen, biopolymers, ethanol, nutritional oil, rayon, vegetable oil, vitamins.

Students and researchers can get in-depth knowledge on various aspects of biotechnology from the books published by the National Institute of Science and Media.Joel Ball, is an eminent writer on biotechnology and science under the NISM publications.

To know more about Biotechnology you can our visit our website by clicking here.

Cloning For the Revival Of The Endangered Species

Reproductive cloning is regarded as having a potential for conserving endangered wildlife species. A recent breakthrough in biotechnology has been the successful cloning of endangered wild Asian ox (Bos gaurus).

The scientists have successfully cloned the endangered species by electro fusing fibroblasts cells from the animal’s skin with enucleated bovine oocytes.The genome of the animal was gaurus in origin whereas the mitochondrial DNA was bovine.

In the future, the same technique may be used to clone an extinct bucardo mountain goat from preserved cells by using the present day goats as host mothers. Cloning is definitely going to enhance the biodiversity by ensuring the existence of rare breeds and endangered species.

The National Institute of Science and Media keeps a close eye on the latest developments in the world of life science. Joel Ball is a well known authority on biotechnology and has many titles published under the NISM name.

Tobacco To Be Used In a Vaccine for Amoeobiasis

For many people, tobacco represents a death sentence due to inflicting nicotine addiction, lung cancer, etc. But for the people of Central and South America at risk for amoebiasis, tobacco could instead be a lifesaver.

The researchers at the University of Central Florida have been able to produce a protein against amoebiasis, a disease caused by the parasite entamoeba hisolytica, from genetically engineered tobacco plants.

According to the researchers, the antigen derived from the genetically modified tobacco plant was found to be more efficient than the other genetically engineered plants.Further development in this method could pave way for low cost oral vaccines.

The National Institute of Science and Media is at the forefront when it comes to the information on the advances made in the field of science and biotechnology.

Joel Ball, the lead author on various study resources published on biotechnology and science under the NISM name is an established author in scientific and publishing circles.

Biopesticides For a Better Environment

Often the use of several synthetic and artificial pesticides is harmful to beneficial insects, domestic animals as well as human beings. Biopesticides can serve as an effective measure in protecting plants without affecting the ecosystem.

Biopesticides are certain types of pesticides which are derived from natural materials such as animals, plants, bacteria and certain minerals. They work by activating the natural systems in plants and insects to work as pesticides.

Microbial pesticides for example consist of a microorganism like fungus, virus, or protozoa that have natural abilities to control the growth of certain weeds or to kill specific insects.

Sometimes plants are injected with genetic material that produces the substance which destroys the pest, for example, the gene for the Bt pesticidal protein is introduced into the plants genetic material.

Biochemical pesticides are naturally occurring substances such as insect sex pheromones which interfere with mating and thus help to reduce the insect population.

To know more about the benefits of biopesticides on the environment, you can refer to the various books published by the National Institute of Science and Media.

Joel Ball, the lead author on the various titles published under the NISM name is a renowned figure in the scientific and publishing circle.

DNA Technology Is Used As Tool For Crime Investigation

DNA isolated from the blood, hair, skin cells, etc is used to identify individuals. The difference in the sequence of the base pairs helps to detect the nature of the crime and the criminals.
Forensic scientists scan 13 DNA regions and use the data to create a DNA profile of that individual. Some of the DNA technologies used in forensic investigations are; Restriction fragment length polymorphism (RFPL), PCR analysis, Mitochondrial DNA analysis, Y-chromosome analysis.

The crime investigation scenario has tremendously changed with the arrival of DNA technology.

The titles published under the National Institute of Science and Media have information on the latest applications of biotechnology and other branches of science.

Joel Ball, is the lead author on biotechnology and various science subjects under the NISM name.

Tobacco: New Resource Of Sugar

Fructose is a sweetener used in many food products, primarily as a substitute for sucrose. The main reason for its rising popularity with the food manufacturers is the availability of large quantities of corn starch, which can be enzymatically converted to fructose on an industrial scale.

An alternative and a cheap source of fructose production could be fructans, the storage carbohydrates in many plants. Fructans are multiple fructose polymers, which can be enzymatically or chemically hydrolyzed to yield fructose.

Tobacco plants which are inserted with the gene of the bacterium bacillus subtilis levansucrase (SacB) are found to accumulate a stable amount of fructan similar to that produced by the microbe. The level of fructan accumulation in these transgenic tobacco plants is quite impressive and ranges between 3-8 percent of the total plant dry weight.

Transgenic tobacco plants may pave way for the production of low cost sugar from other crop plants.

The National Institute of Science and Media keeps a close eye on the recent advances made in the field of biotechnology and other life sciences.

The lead author, Joel Ball is a well established authority on biotechnology and has been at fore front of all the research and titles that have been published under the NISM name.

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Transgenic Animals A Necessity For Human Welfare

Nowadays, breakthroughs in molecular biology are happening at an unprecedented rate. One of them is the ability to create transgenic animals such as cows,mice,rats,rabbits,pigs and sheep.

Since the discovery of the molecular structure of DNA by Watson and Crick in 1953, molecular biological research has gained momentum. Molecular biology technology combines techniques and expertise from biochemistry, genetics, cell biology, developmental biology and microbiology.

The fundamental principle in the creation of transgenic animals is the introduction of a foreign gene or genes into the animal. There are three basic methods that are used in transgenic technology known as DNA microinjection, retrovirus-mediated gene transfer and embryonic stem cell-mediated gene transfer.

The contribution of transgenic animals to human welfare is enormous. Transgenic cows produce more milk with lesser amount of lactose; transgenic sheep yield more quantity of wool.

The National Institute of Science and Media publishes books pertaining to molecular biology and science written by renowned researchers like Joel Ball.

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Genetics a New Trail For Medical Advancement

The miraculous substance, DNA, which contains all the genetic instructions, is rapidly becoming a key to modern medicine. By focusing on the diaphanous and extraordinarily long filaments of DNA, scientists are finding the root causes of dozens of previously mysterious diseases.

Recently, scientists have made spectacular progress against a fatal genetic disease, cystic fibrosis, affecting children. The scientists have succeeded in correcting the gene defect inside living human cells by inserting healthy genes into these cells in a laboratory dish.

The Progress in the field of medical genetics is gaining momentum. Scientists are constantly trying to work on effective ways to cure genetic disorders.

The National Institute of Science and Media keeps you informed on the recent advances in biotechnology and science through the various titles published on the subject. Joel Ball, the lead author of the titles published under the NISM name is a renowned figure in publishing and scientific circles.

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Transgenic Plants Are Going To Reshape Agriculture

A transgenic plant contains a gene or genes which have been artificially inserted in the plant instead of pollination. The inserted gene sequence may come from another distinct plant, or from a completely different species for example, transgenic Bt corn, which produces its own insecticide, contains a gene from a bacterium.

Transgenic plant technology enables plant breeders to generate more useful and productive crop varieties containing new combinations of genes. With the help of this technology plant breeders have been able to generate disease resistant, high yielding and climatic change tolerant plants

Transgenic plant technology is surely going to revolutionize the agricultural sector.

The National Institute of Science and Media has wide-range of books on biotechnology and other branches of science.

Joel Ball, the lead author on the various titles published under the NISM name is a renowned figure in the scientific and publishing circle.

Biotechnology For A Green And Clean Environment

The innovations in biotechnology have revolutionized the agricultural and industrial sector. The productions of biofuels, with plant and animal waste have helped to resolve the energy crisis of the world.

Bioethanol is a common form of biofuel that is used worldwide.Bioethanol can be produced from corn, sugar beet, sugar cane and wheat using production methods such as enzymatic digestion, fermentation of the sugars, distillation and drying.

In the future, biotechnology assures to produce billions of gallons of ethanol using more efficient means to meet the growing demand for biofuel.

For the latest information on the advances made in the field of biotechnology and science you can refer to the books published by the National Institute of Science and Media. Joel Ball is the lead author on various study resources under the NISM publications.

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Genetic Testing a New Tool to Identify a Genetic Disorder

Genetic testing is a type of a medical test that identifies changes in human DNA, RNA, chromosomes, and proteins and also detects a genetic disorder. Genetic testing can not only identify the presence of a genetic disorder but also anticipate the occurrence of any disease in the future.

The types of genetic testing in current use are; newborn screening, diagnostic testing, carrier testing, prenatal testing, predictive and presymptomatic testing, forensic testing.

With advances in technology and additional knowledge concerning the relationship between genetic variations in health, genetic testing will soon become a routine part of healthcare for all.

The National Institute of Science and Media and Joel Ball are always on the forefront with latest inputs on the various developments in the field of genetics and biotechnology in their publications.

To know more about the various books on biotechnology you can visit the website of NISM publications by clicking here.

Biotechnology Resurrects The Hawaiian Papaya Industry

In1992, Hawaii’s papaya crop was found to be infected with ring spot virus. After numerous efforts to stem the spread of virus, the researchers at the Universities of Cornell and Hawaii respectively developed a virus resistant papaya plant through biotechnology.

The development of the commercial virus-resistant transgenic papaya trees provides a tangible approach to control papaya ring spot virus (PRSV) in Hawaii. Today, these genetically modified papaya trees serve as buffers to prevent the spread of PRSV to non-resistant and conventional papaya trees.

This outstanding contribution of biotechnology is the main reason for the survival of Hawaii’s $16 million papaya industry. Biotechnology is also a leading source of employment and economic development in Hawaii.

The National Institute of Science Media keeps a close watch on the latest breakthroughs in the field of biotechnology. Joel Ball is a renowned authority on biotechnology and has been publishing several books on the subject under the NISM publications.

To know more about National Institute of Science Media publications and Joel Ball you can visit us online by clicking here.

Genetic Engineering A Boon To Mankind

The field of biotechnology defines genetic engineering as, “a set of technologies that are being used to change the genetic makeup of cells and move genes across species boundaries to produce novel organisms”.
Through genetic engineering organisms are given new combinations of genes, giving rise to new combinations of traits which do not generally occur in nature.
Genetic engineering endeavors have found success in improving crop technology, in the manufacture of human insulin through the use of modified bacteria and in the development of new types of experimental mice, etc.
The National Institute of Science is a leading publisher of books related to biotechnology and other branches of science.
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Better Food For The World – Courtesy Biotechnology:

Biotechnology can be defined as a scientific technique that is used to make or modify the products of living organisms in order to improve plants or animals or to develop useful microorganisms.

The advances made in biotechnology results in crops with a wide range of desirable traits that can directly benefit farmers, consumers and the environment besides increasing global food production and quality.

Biotech scientists are exploring the genetic modification of food crops to achieve desirable characteristics like high yield, increased protein or oil production, disease and pest resistance, etc. There are few commercial products that have been marketed for use in plant agriculture as well, with the main focus placed on the production of plants that are resistant to specific herbicides.

This developed resistance allows crops to be sprayed with a particular herbicide to kill only weeds and not the genetically engineered crop species. Resistance to viral plant diseases are induced in the crop species by transforming plants with portions of the viral genome that are resistant to that particular virus.

The National Institute of Science Media (NISM) is a leading publisher of study resources on the various branches of science. The lead author, Joel Ball, is a well-established authority on biotechnology and has been at the fore-front of all the research and titles that have been published under the NISM name.

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