6.8 Biotechnology
8 min read•january 15, 2023
Samantha Himegarner
Riya Patel
Samantha Himegarner
Riya Patel
Introduction
Biotechnology is the use of living organisms, cells, or biological systems to create new products, processes, or technologies. It encompasses a wide range of applications, including medicine, agriculture, environmental management, and industrial production. Some examples of biotechnology include genetic engineering, fermentation, and the production of biopharmaceuticals. Biotechnology also includes techniques like recombinant DNA technology, PCR, gel electrophoresis, and gene cloning which are used to manipulate and study genetic material. Biotechnology has the potential to bring many benefits to society, such as new medical treatments, more efficient and sustainable agriculture, and new industrial processes, but it also raises important ethical, legal, and social issues that need to be carefully considered.
Biotechnology has a wide range of applications and is used in a variety of fields, including:
Medicine: Biotechnology is used to develop new drugs and therapies, as well as diagnostic tools and vaccines. Biotechnology is also used to create genetically engineered animals and plants to produce proteins or other molecules for medical use.
Agriculture: Biotechnology is used to improve crop yields and resistance to pests and disease. Genetically modified crops have been developed with increased resistance to herbicides and insects, and with improved nutritional content.
Environmental management: Biotechnology is used to clean up contaminated soil and water, and to create new methods for waste treatment. Biotechnology also has potential to create new systems for resource recovery and conservation.
Industrial production: Biotechnology is used to produce useful products such as biofuels, bioplastics, and enzymes for industrial use. Biotechnology also has the potential to create new industrial processes that are more efficient and sustainable.
Research: Biotechnology is used to study the genetics and biology of living organisms and to understand the underlying mechanisms of disease. Biotechnology also plays a critical role in genetic engineering and synthetic biology research.
Forensics: Biotechnology is used in forensic science to identify individuals based on DNA analysis and to solve crimes.
Food production: Biotechnology is used to improve the nutritional content of food, extend the shelf life, and increase resistance to pests and diseases.
Others: Biotechnology has many other applications such as in aquaculture, wildlife conservation, and in the production of cosmetics, and many more.
Technology
Recombinant DNA
Recombinant DNA (rDNA) is DNA that has been artificially created by combining genetic material from different sources. This is typically done by cutting and splicing DNA molecules from different organisms using enzymes, and then inserting the resulting pieces into host cells. This process allows scientists to combine the genetic information from multiple organisms in order to create new organisms with desired traits or to study the function of specific genes. Recombinant DNA technology is a key tool in biotechnology and is used in a variety of applications such as genetic engineering, medicine, and agriculture.
Gene Cloning
Gene cloning is a process by which a single gene or a group of genes are isolated, copied, and then inserted into a host organism or vector. The most common method for gene cloning is called recombinant DNA technology, which involves cutting a DNA molecule at a specific location using restriction enzymes and then joining it to a vector, such as a plasmid. This vector can then be introduced into a host organism, such as bacteria, where it will replicate and produce multiple copies of the original gene.
Once the gene of interest is cloned, it can be used for a variety of applications, such as producing large quantities of a protein for medical use, creating genetically modified crops, or studying the function of a specific gene. Gene cloning also allows scientists to create multiple copies of a gene, which can be used for genetic research and manipulation.
Polymerase Chain Reaction
Polymerase Chain Reaction (PCR) is a laboratory technique used to amplify or make many copies of a specific DNA sequence. PCR is a powerful tool that allows scientists to obtain a large amount of a specific DNA fragment from a small amount of starting material.
The PCR process involves three basic steps: denaturation, annealing, and extension. In the denaturation step, the double-stranded DNA is heated to a high temperature to separate the two strands. In the annealing step, the temperature is lowered and short pieces of synthetic DNA called primers, which are complementary to the ends of the target DNA sequence, are added. These primers serve as a starting point for the synthesis of new DNA strands by a thermostable DNA polymerase enzyme. In the extension step, the temperature is raised again to allow the polymerase enzyme to add nucleotides to the ends of the primers, creating new copies of the target DNA sequence. These steps are repeated multiple times (usually 20-40 cycles) to produce millions or even billions of copies of the original DNA sequence.
PCR is widely used in molecular biology and genetics, as well as in forensic science, medical testing, and the diagnosis of genetic diseases. It also plays a crucial role in genetic engineering and biotechnology.
Gel Electrophoresis
Gel electrophoresis is a laboratory technique used to separate and analyze DNA, RNA, and proteins based on their size and charge. The process involves placing a mixture of biomolecules in a gel matrix, typically made of agarose or polyacrylamide, and then applying an electric field to the gel. The gel acts as a sieve, allowing smaller molecules to move through it more quickly than larger molecules.
The most common type of gel electrophoresis used for DNA and RNA is called agarose gel electrophoresis, which is used to separate and analyze DNA fragments based on their size. A sample of DNA is mixed with a loading buffer and then placed in a well in the gel. An electric current is applied, and the DNA fragments migrate through the gel towards the positive electrode. The smaller fragments move faster than the larger fragments, and as a result, they will move farther in the same amount of time. This creates a separation of the DNA fragments based on their size, and the different size bands can be visualized after staining the gel with ethidium bromide.
Protein gel electrophoresis, also known as SDS-PAGE, is a technique used to separate and analyze proteins based on their size and charge. In this technique, proteins are denatured and then separated by size on a polyacrylamide gel.
Gel electrophoresis is a powerful tool for identifying and characterizing DNA, RNA, and proteins, and it is widely used in molecular biology, biochemistry, and genetics. It also plays a critical role in the diagnosis of genetic disorders, forensic science, and in the identification of microorganisms.
Genetically Modified Organisms
Genetically Modified Organisms (GMOs) are organisms that have had their genetic material altered in a way that does not occur naturally through mating or natural recombination. This is typically done using recombinant DNA technology. GMOs have the potential to bring many benefits, such as increased crop yields, improved disease resistance, and reduced use of pesticides. However, there are also concerns about the safety of GMOs for human consumption and their potential impact on the environment.
Human Safety Concerns
In terms of human safety, there is ongoing debate over the potential health risks of consuming GMOs. Some studies have suggested that GMOs may cause allergic reactions, while others have found no evidence of harm. The World Health Organization (WHO), the American Medical Association (AMA) and the National Academy of Sciences (NAS) have stated that currently available genetically modified foods are safe to eat and are no different from traditionally bred foods.
Environmental Concerns
Environmental concerns include the potential for GMOs to crossbreed with wild relatives and create "superweeds" that are resistant to herbicides, and the potential for GMOs to harm beneficial insects and other non-target organisms.
What are the Pros and Cons of GMOs?
The Pros of GMOs are:
- Increased crop yields
- Increased resistance to pests and disease
- Reduced use of pesticides
- Improved nutritional content of food
- Increased tolerance to environmental stress
The Cons of GMOs are:
- Potential health risks for humans
- Potential harm to beneficial insects and other non-target organisms
- Lack of long-term research
- Potential for crossbreeding with wild relatives and creating "superweeds"
- Economic and ethical concerns about the control of the food supply by a few large companies
Modern-day Issues Regarding Biotechnology
Biotechnology is a rapidly advancing field with many potential benefits, but it also raises a number of ethical, legal, and social issues.
Ethical
Ethical issues in biotechnology include concerns about genetic engineering, human cloning, and the use of stem cells. Genetic engineering raises questions about the manipulation of life and the creation of "designer babies," while human cloning raises concerns about the creation of identical human beings and the potential for misuse. The use of stem cells raises questions about the destruction of human embryos and the potential for creating a "market" for human tissue.
Legal
Legal issues in biotechnology include intellectual property rights, regulation of genetically modified organisms (GMOs), and patenting of genetic material. Intellectual property rights are a contentious issue in biotechnology, with questions about who owns the rights to genetic material, and how to ensure that the benefits of biotechnology are shared fairly. The regulation of GMOs is also a complex issue, with questions about how to ensure the safety and efficacy of genetically modified organisms while also protecting the rights of farmers and consumers.
Social
Social issues in biotechnology include access to healthcare, bioprospecting and bio-piracy, and the potential for biotechnology to exacerbate social inequalities. Biotechnology has the potential to revolutionize healthcare, but access to these technologies is often limited by cost and geography, which can exacerbate existing social inequalities. Bioprospecting, the search for useful biological resources in nature, and bio-piracy, the unauthorized access and use of such resources, raises ethical and legal issues about the rights of indigenous people and the fair distribution of benefits from these resources.
Key Terms to Review (37)
Agarose Gel Electrophoresis
: A technique used in biochemistry and molecular biology to separate proteins or fragments based on their size using an electric field applied through agarose gel.Agriculture
: Agriculture is the practice of cultivating plants and rearing animals for food, fiber, medicinal plants, and other products used to sustain and enhance human life.American Medical Association (AMA)
: The American Medical Association is a professional group that publishes research to advance public health and advocates for physicians' interests in the United States.Annealing Process
: The annealing process in molecular biology refers to the recombination of complementary strands of DNA or RNA to form a double-stranded molecule after being separated (usually by heat).Aquaculture
: Aquaculture refers to the breeding, rearing, and harvesting of fish, shellfish, algae and other organisms in all types of water environments.Bio-piracy
: Bio-piracy is the practice of commercially exploiting naturally occurring biochemical or genetic material, especially by obtaining patents that restrict its future use, while failing to pay fair compensation to the community from which it originates.Biopharmaceuticals
: Biopharmaceuticals are medical drugs produced using biotechnology. They include proteins (including antibodies), nucleic acids (DNA, RNA or antisense oligonucleotides) used for therapeutic or in vivo diagnostic purposes.Biotechnology
: Biotechnology is the use of living systems and organisms to develop or make products, or any technological application that uses biological systems, living organisms, or derivatives thereof.Cosmetics Production
: Cosmetics production is the process by which beauty products such as makeup, skincare items, hair care products etc., are created using various ingredients and techniques.Denaturation Process
: The denaturation process refers to the alteration or loss of secondary and tertiary structure in proteins or nucleic acids (like DNA) due to factors such as heat or chemicals. This process disrupts hydrogen bonds, causing molecules to lose their shape without breaking covalent bonds.Environmental Management
: Environmental management involves making decisions about how we interact with our environment, aiming to prevent harmful effects on ecosystems caused by human activities.Ethidium Bromide
: Ethidium bromide is a fluorescent dye used to stain DNA in molecular biology experiments, allowing it to be visualized under UV light.Extension Process
: The extension process in DNA replication is the phase where new DNA strands are synthesized by adding nucleotides to the primer, which is complementary to the template strand.Fermentation
: Fermentation is an anaerobic process (meaning it doesn't require oxygen) used by many cells to produce ATP from glucose when oxygen levels are low or absent.Food Production
: Food production refers to all processes involved in growing crops and raising livestock for human consumption. It includes everything from planting seeds to harvesting crops or slaughtering animals for meat.Forensics
: Forensics is the application of scientific methods and techniques to investigate crimes or legal issues. It involves collecting, examining, and analyzing evidence to solve criminal cases.Gel Electrophoresis
: A laboratory method used to separate mixtures of DNA, RNA, or proteins according to molecular size.Gene Cloning
: The process by which a gene of interest is located and copied out of all the DNA extracted from an organism.Genetic Engineering
: Genetic engineering refers to the process where scientists alter an organism’s genetic material (DNA) in order to achieve desired traits.Genetically Modified Organisms (GMOs)
: GMOs are organisms whose genetic material has been altered using genetic engineering techniques. This can include plants, animals, and microorganisms.Host Cells
: Host cells are living cells in which viruses reproduce. A host cell provides the necessary components for viral replication.Industrial Production
: Industrial production refers to the output of industrial establishments like factories which includes manufacturing goods from raw materials as well as processing mined metals into finished products.Intellectual Property Rights
: Intellectual property rights are the rights given to persons over the creations of their minds. They usually give the creator an exclusive right over the use of his/her creation for a certain period of time.Medicine
: The science and practice of diagnosing, treating, and preventing diseases.National Academy of Sciences (NAS)
: The National Academy of Sciences is an honorific society in America composed mainly of distinguished scholars engaged in scientific research. It provides independent advice on matters related to science and technology.PCR (Polymerase Chain Reaction)
: PCR is a technique used in molecular biology to amplify a single or few copies of a piece of DNA across several orders of magnitude, generating thousands to millions of copies.Plasmid
: A plasmid is a small, circular piece of DNA that is separate from the chromosomal DNA found in bacteria and some yeasts. They can replicate independently and often carry genes that confer special advantages, like antibiotic resistance.Protein Gel Electrophoresis (SDS-PAGE)
: SDS-PAGE (Sodium Dodecyl Sulfate Polyacrylamide Gel Electrophoresis) is a technique used by biologists to separate proteins according to their size.Recombinant DNA (rDNA)
: Recombinant DNA (rDNA) is artificially created DNA that combines sequences that do not normally occur together. This is often used in genetic engineering to create new organisms or products.Recombinant DNA Technology
: Recombinant DNA technology is the process by which new combinations of DNA are generated through the combination of two different sources.Restriction Enzymes
: Restriction enzymes are proteins that cut DNA at specific sequences, acting like molecular scissors. They are used in genetic engineering to cut and paste DNA fragments.Stem Cells
: Stem cells are undifferentiated cells capable of giving rise to indefinitely more cells of the same type, and from which certain other kinds of cell arise by differentiation.Superweeds
: Superweeds are plants that have developed resistance to herbicides, often due to repeated exposure and evolution.Thermostable DNA Polymerase Enzyme
: This is an enzyme that can withstand high temperatures and is used to amplify segments of DNA via polymerase chain reaction (PCR).Vector
: In biology, a vector refers to an organism that does not cause disease itself but spreads infection by conveying pathogens from one host to another.Wildlife Conservation
: Wildlife conservation is the practice of protecting wild species and their habitats in order to prevent species from going extinct.World Health Organization (WHO)
: The World Health Organization is a specialized agency of the United Nations responsible for international public health. It aims to promote health, keep the world safe, and serve the vulnerable.6.8 Biotechnology
8 min read•january 15, 2023
Samantha Himegarner
Riya Patel
Samantha Himegarner
Riya Patel
Introduction
Biotechnology is the use of living organisms, cells, or biological systems to create new products, processes, or technologies. It encompasses a wide range of applications, including medicine, agriculture, environmental management, and industrial production. Some examples of biotechnology include genetic engineering, fermentation, and the production of biopharmaceuticals. Biotechnology also includes techniques like recombinant DNA technology, PCR, gel electrophoresis, and gene cloning which are used to manipulate and study genetic material. Biotechnology has the potential to bring many benefits to society, such as new medical treatments, more efficient and sustainable agriculture, and new industrial processes, but it also raises important ethical, legal, and social issues that need to be carefully considered.
Biotechnology has a wide range of applications and is used in a variety of fields, including:
Medicine: Biotechnology is used to develop new drugs and therapies, as well as diagnostic tools and vaccines. Biotechnology is also used to create genetically engineered animals and plants to produce proteins or other molecules for medical use.
Agriculture: Biotechnology is used to improve crop yields and resistance to pests and disease. Genetically modified crops have been developed with increased resistance to herbicides and insects, and with improved nutritional content.
Environmental management: Biotechnology is used to clean up contaminated soil and water, and to create new methods for waste treatment. Biotechnology also has potential to create new systems for resource recovery and conservation.
Industrial production: Biotechnology is used to produce useful products such as biofuels, bioplastics, and enzymes for industrial use. Biotechnology also has the potential to create new industrial processes that are more efficient and sustainable.
Research: Biotechnology is used to study the genetics and biology of living organisms and to understand the underlying mechanisms of disease. Biotechnology also plays a critical role in genetic engineering and synthetic biology research.
Forensics: Biotechnology is used in forensic science to identify individuals based on DNA analysis and to solve crimes.
Food production: Biotechnology is used to improve the nutritional content of food, extend the shelf life, and increase resistance to pests and diseases.
Others: Biotechnology has many other applications such as in aquaculture, wildlife conservation, and in the production of cosmetics, and many more.
Technology
Recombinant DNA
Recombinant DNA (rDNA) is DNA that has been artificially created by combining genetic material from different sources. This is typically done by cutting and splicing DNA molecules from different organisms using enzymes, and then inserting the resulting pieces into host cells. This process allows scientists to combine the genetic information from multiple organisms in order to create new organisms with desired traits or to study the function of specific genes. Recombinant DNA technology is a key tool in biotechnology and is used in a variety of applications such as genetic engineering, medicine, and agriculture.
Gene Cloning
Gene cloning is a process by which a single gene or a group of genes are isolated, copied, and then inserted into a host organism or vector. The most common method for gene cloning is called recombinant DNA technology, which involves cutting a DNA molecule at a specific location using restriction enzymes and then joining it to a vector, such as a plasmid. This vector can then be introduced into a host organism, such as bacteria, where it will replicate and produce multiple copies of the original gene.
Once the gene of interest is cloned, it can be used for a variety of applications, such as producing large quantities of a protein for medical use, creating genetically modified crops, or studying the function of a specific gene. Gene cloning also allows scientists to create multiple copies of a gene, which can be used for genetic research and manipulation.
Polymerase Chain Reaction
Polymerase Chain Reaction (PCR) is a laboratory technique used to amplify or make many copies of a specific DNA sequence. PCR is a powerful tool that allows scientists to obtain a large amount of a specific DNA fragment from a small amount of starting material.
The PCR process involves three basic steps: denaturation, annealing, and extension. In the denaturation step, the double-stranded DNA is heated to a high temperature to separate the two strands. In the annealing step, the temperature is lowered and short pieces of synthetic DNA called primers, which are complementary to the ends of the target DNA sequence, are added. These primers serve as a starting point for the synthesis of new DNA strands by a thermostable DNA polymerase enzyme. In the extension step, the temperature is raised again to allow the polymerase enzyme to add nucleotides to the ends of the primers, creating new copies of the target DNA sequence. These steps are repeated multiple times (usually 20-40 cycles) to produce millions or even billions of copies of the original DNA sequence.
PCR is widely used in molecular biology and genetics, as well as in forensic science, medical testing, and the diagnosis of genetic diseases. It also plays a crucial role in genetic engineering and biotechnology.
Gel Electrophoresis
Gel electrophoresis is a laboratory technique used to separate and analyze DNA, RNA, and proteins based on their size and charge. The process involves placing a mixture of biomolecules in a gel matrix, typically made of agarose or polyacrylamide, and then applying an electric field to the gel. The gel acts as a sieve, allowing smaller molecules to move through it more quickly than larger molecules.
The most common type of gel electrophoresis used for DNA and RNA is called agarose gel electrophoresis, which is used to separate and analyze DNA fragments based on their size. A sample of DNA is mixed with a loading buffer and then placed in a well in the gel. An electric current is applied, and the DNA fragments migrate through the gel towards the positive electrode. The smaller fragments move faster than the larger fragments, and as a result, they will move farther in the same amount of time. This creates a separation of the DNA fragments based on their size, and the different size bands can be visualized after staining the gel with ethidium bromide.
Protein gel electrophoresis, also known as SDS-PAGE, is a technique used to separate and analyze proteins based on their size and charge. In this technique, proteins are denatured and then separated by size on a polyacrylamide gel.
Gel electrophoresis is a powerful tool for identifying and characterizing DNA, RNA, and proteins, and it is widely used in molecular biology, biochemistry, and genetics. It also plays a critical role in the diagnosis of genetic disorders, forensic science, and in the identification of microorganisms.
Genetically Modified Organisms
Genetically Modified Organisms (GMOs) are organisms that have had their genetic material altered in a way that does not occur naturally through mating or natural recombination. This is typically done using recombinant DNA technology. GMOs have the potential to bring many benefits, such as increased crop yields, improved disease resistance, and reduced use of pesticides. However, there are also concerns about the safety of GMOs for human consumption and their potential impact on the environment.
Human Safety Concerns
In terms of human safety, there is ongoing debate over the potential health risks of consuming GMOs. Some studies have suggested that GMOs may cause allergic reactions, while others have found no evidence of harm. The World Health Organization (WHO), the American Medical Association (AMA) and the National Academy of Sciences (NAS) have stated that currently available genetically modified foods are safe to eat and are no different from traditionally bred foods.
Environmental Concerns
Environmental concerns include the potential for GMOs to crossbreed with wild relatives and create "superweeds" that are resistant to herbicides, and the potential for GMOs to harm beneficial insects and other non-target organisms.
What are the Pros and Cons of GMOs?
The Pros of GMOs are:
- Increased crop yields
- Increased resistance to pests and disease
- Reduced use of pesticides
- Improved nutritional content of food
- Increased tolerance to environmental stress
The Cons of GMOs are:
- Potential health risks for humans
- Potential harm to beneficial insects and other non-target organisms
- Lack of long-term research
- Potential for crossbreeding with wild relatives and creating "superweeds"
- Economic and ethical concerns about the control of the food supply by a few large companies
Modern-day Issues Regarding Biotechnology
Biotechnology is a rapidly advancing field with many potential benefits, but it also raises a number of ethical, legal, and social issues.
Ethical
Ethical issues in biotechnology include concerns about genetic engineering, human cloning, and the use of stem cells. Genetic engineering raises questions about the manipulation of life and the creation of "designer babies," while human cloning raises concerns about the creation of identical human beings and the potential for misuse. The use of stem cells raises questions about the destruction of human embryos and the potential for creating a "market" for human tissue.
Legal
Legal issues in biotechnology include intellectual property rights, regulation of genetically modified organisms (GMOs), and patenting of genetic material. Intellectual property rights are a contentious issue in biotechnology, with questions about who owns the rights to genetic material, and how to ensure that the benefits of biotechnology are shared fairly. The regulation of GMOs is also a complex issue, with questions about how to ensure the safety and efficacy of genetically modified organisms while also protecting the rights of farmers and consumers.
Social
Social issues in biotechnology include access to healthcare, bioprospecting and bio-piracy, and the potential for biotechnology to exacerbate social inequalities. Biotechnology has the potential to revolutionize healthcare, but access to these technologies is often limited by cost and geography, which can exacerbate existing social inequalities. Bioprospecting, the search for useful biological resources in nature, and bio-piracy, the unauthorized access and use of such resources, raises ethical and legal issues about the rights of indigenous people and the fair distribution of benefits from these resources.
Key Terms to Review (37)
Agarose Gel Electrophoresis
: A technique used in biochemistry and molecular biology to separate proteins or fragments based on their size using an electric field applied through agarose gel.Agriculture
: Agriculture is the practice of cultivating plants and rearing animals for food, fiber, medicinal plants, and other products used to sustain and enhance human life.American Medical Association (AMA)
: The American Medical Association is a professional group that publishes research to advance public health and advocates for physicians' interests in the United States.Annealing Process
: The annealing process in molecular biology refers to the recombination of complementary strands of DNA or RNA to form a double-stranded molecule after being separated (usually by heat).Aquaculture
: Aquaculture refers to the breeding, rearing, and harvesting of fish, shellfish, algae and other organisms in all types of water environments.Bio-piracy
: Bio-piracy is the practice of commercially exploiting naturally occurring biochemical or genetic material, especially by obtaining patents that restrict its future use, while failing to pay fair compensation to the community from which it originates.Biopharmaceuticals
: Biopharmaceuticals are medical drugs produced using biotechnology. They include proteins (including antibodies), nucleic acids (DNA, RNA or antisense oligonucleotides) used for therapeutic or in vivo diagnostic purposes.Biotechnology
: Biotechnology is the use of living systems and organisms to develop or make products, or any technological application that uses biological systems, living organisms, or derivatives thereof.Cosmetics Production
: Cosmetics production is the process by which beauty products such as makeup, skincare items, hair care products etc., are created using various ingredients and techniques.Denaturation Process
: The denaturation process refers to the alteration or loss of secondary and tertiary structure in proteins or nucleic acids (like DNA) due to factors such as heat or chemicals. This process disrupts hydrogen bonds, causing molecules to lose their shape without breaking covalent bonds.Environmental Management
: Environmental management involves making decisions about how we interact with our environment, aiming to prevent harmful effects on ecosystems caused by human activities.Ethidium Bromide
: Ethidium bromide is a fluorescent dye used to stain DNA in molecular biology experiments, allowing it to be visualized under UV light.Extension Process
: The extension process in DNA replication is the phase where new DNA strands are synthesized by adding nucleotides to the primer, which is complementary to the template strand.Fermentation
: Fermentation is an anaerobic process (meaning it doesn't require oxygen) used by many cells to produce ATP from glucose when oxygen levels are low or absent.Food Production
: Food production refers to all processes involved in growing crops and raising livestock for human consumption. It includes everything from planting seeds to harvesting crops or slaughtering animals for meat.Forensics
: Forensics is the application of scientific methods and techniques to investigate crimes or legal issues. It involves collecting, examining, and analyzing evidence to solve criminal cases.Gel Electrophoresis
: A laboratory method used to separate mixtures of DNA, RNA, or proteins according to molecular size.Gene Cloning
: The process by which a gene of interest is located and copied out of all the DNA extracted from an organism.Genetic Engineering
: Genetic engineering refers to the process where scientists alter an organism’s genetic material (DNA) in order to achieve desired traits.Genetically Modified Organisms (GMOs)
: GMOs are organisms whose genetic material has been altered using genetic engineering techniques. This can include plants, animals, and microorganisms.Host Cells
: Host cells are living cells in which viruses reproduce. A host cell provides the necessary components for viral replication.Industrial Production
: Industrial production refers to the output of industrial establishments like factories which includes manufacturing goods from raw materials as well as processing mined metals into finished products.Intellectual Property Rights
: Intellectual property rights are the rights given to persons over the creations of their minds. They usually give the creator an exclusive right over the use of his/her creation for a certain period of time.Medicine
: The science and practice of diagnosing, treating, and preventing diseases.National Academy of Sciences (NAS)
: The National Academy of Sciences is an honorific society in America composed mainly of distinguished scholars engaged in scientific research. It provides independent advice on matters related to science and technology.PCR (Polymerase Chain Reaction)
: PCR is a technique used in molecular biology to amplify a single or few copies of a piece of DNA across several orders of magnitude, generating thousands to millions of copies.Plasmid
: A plasmid is a small, circular piece of DNA that is separate from the chromosomal DNA found in bacteria and some yeasts. They can replicate independently and often carry genes that confer special advantages, like antibiotic resistance.Protein Gel Electrophoresis (SDS-PAGE)
: SDS-PAGE (Sodium Dodecyl Sulfate Polyacrylamide Gel Electrophoresis) is a technique used by biologists to separate proteins according to their size.Recombinant DNA (rDNA)
: Recombinant DNA (rDNA) is artificially created DNA that combines sequences that do not normally occur together. This is often used in genetic engineering to create new organisms or products.Recombinant DNA Technology
: Recombinant DNA technology is the process by which new combinations of DNA are generated through the combination of two different sources.Restriction Enzymes
: Restriction enzymes are proteins that cut DNA at specific sequences, acting like molecular scissors. They are used in genetic engineering to cut and paste DNA fragments.Stem Cells
: Stem cells are undifferentiated cells capable of giving rise to indefinitely more cells of the same type, and from which certain other kinds of cell arise by differentiation.Superweeds
: Superweeds are plants that have developed resistance to herbicides, often due to repeated exposure and evolution.Thermostable DNA Polymerase Enzyme
: This is an enzyme that can withstand high temperatures and is used to amplify segments of DNA via polymerase chain reaction (PCR).Vector
: In biology, a vector refers to an organism that does not cause disease itself but spreads infection by conveying pathogens from one host to another.Wildlife Conservation
: Wildlife conservation is the practice of protecting wild species and their habitats in order to prevent species from going extinct.World Health Organization (WHO)
: The World Health Organization is a specialized agency of the United Nations responsible for international public health. It aims to promote health, keep the world safe, and serve the vulnerable.
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