Products related to Genetic:
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Genetic Testing
Genetic testing has provided important clues to understanding our health, but it has also raised many ethical, legal, and medical questions and concerns.This book explores the breadth of genetic testing, its possibilities, and the controversies that surround its use. The mapping of the human genome has paved the way for a variety of genetic tests.Expectant mothers can have their fetus screened for a variety of genetic abnormalities, and couples worried that they might be carriers for a genetic disorder can be tested before deciding to have children.Women can be screened for the BRCA2 gene that has been linked to increased risk of breast cancer.Individuals curious about their ancestry can find out more about their heritage.Genetic testing can also be used to establish paternity and help solve crimes. Part of Greenwood's Health and Medical Issues Today series, this book is divided into three sections.Part I explores the history of genetic testing, including the rise of direct-to-consumer tests, and outlines the current applications and contexts in which genetic testing is performed.Part II delves deep into the ethical, legal, financial, medical, and psychological issues and controversies that surround genetic testing.Part III provides a variety of useful materials, including case studies, a timeline of critical events, and a directory of resources.
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Genetic Lactose
Genetic testing to assess the risk of developing lactose intolerance, including the C13910T and G22018A genes with a convenient home saliva test.
Price: 104 € | Shipping*: 0 € -
Genetic Coeliac
Genetic testing to determine if you carry the HLA-DQ risk marker for genetic Coeliac Disease with a simple home saliva test.
Price: 104 € | Shipping*: 0 € -
Genetic Haemochromatosis
Discover if you are at risk of haemochromatosis or iron overload disorder with a convenient home saliva test which screens for genes C282Y, H63D, and S65C.
Price: 80 € | Shipping*: 0 €
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How does genetic modification of genetic information work?
Genetic modification involves altering the genetic information of an organism by introducing new DNA into its genome. This can be achieved through various techniques such as gene editing using tools like CRISPR, or by introducing foreign DNA into the organism through a process called transgenesis. The new DNA can be designed to add, delete, or modify specific genes, which can result in changes to the organism's traits or characteristics. Genetic modification has the potential to create organisms with improved traits, such as increased resistance to diseases or improved nutritional content.
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What is the difference between genetic and genetic engineering?
Genetics refers to the study of genes, heredity, and variation in living organisms. It involves understanding how traits are passed down from one generation to the next. On the other hand, genetic engineering is the deliberate modification of an organism's genetic material using biotechnology. This can involve altering specific genes to achieve desired traits or characteristics. In essence, genetics is the study of natural genetic processes, while genetic engineering involves the intentional manipulation of genetic material for specific purposes.
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What genetic orientation?
Genetic orientation refers to the specific genetic makeup or characteristics of an individual, which can influence various traits and predispositions. This orientation is determined by the combination of genes inherited from one's parents and can impact things like physical appearance, health conditions, and even personality traits. Understanding one's genetic orientation can provide insights into potential health risks and help in making informed decisions about lifestyle choices and medical care.
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What is Oswald Avery's contribution to the discovery that DNA carries genetic information?
Oswald Avery's contribution to the discovery that DNA carries genetic information was through his groundbreaking experiments in the 1940s. Avery, along with his colleagues Colin MacLeod and Maclyn McCarty, demonstrated that DNA, and not proteins as previously believed, was the molecule responsible for carrying genetic information. Their experiments with bacteria showed that when DNA was altered, the genetic characteristics of the bacteria changed accordingly. This discovery laid the foundation for the understanding of DNA as the hereditary material in living organisms.
Similar search terms for Genetic:
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Genetic Haemochromatosis
Discover if you are at risk of haemochromatosis or iron overload disorder with a convenient blood test including genes C282Y, H63D, and S65C.
Price: 80 € | Shipping*: € -
Genetic Lactose
Genetic testing to assess the risk of developing lactose intolerance, including the C13910T and G22018A genes with a convenient home saliva test.
Price: 90 £ | Shipping*: 0 £ -
Genetic Coeliac
Genetic testing to determine if you carry the HLA-DQ risk marker for genetic Coeliac Disease with a simple home saliva test.
Price: 90 £ | Shipping*: 0 £ -
Genetic Haemochromatosis
Discover if you are at risk of haemochromatosis or iron overload disorder with a convenient home saliva test which screens for genes C282Y, H63D, and S65C.
Price: 69 £ | Shipping*: 0 £
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What is the difference between genetic research and genetic engineering?
Genetic research involves studying genes and their functions to understand how they contribute to traits and diseases. It focuses on identifying genetic variations and their impact on individuals. On the other hand, genetic engineering involves manipulating genes to create new traits or modify existing ones. It is a technology that allows scientists to directly alter the genetic makeup of an organism. In essence, genetic research is about studying genes, while genetic engineering is about actively changing them.
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How does the genetic modification of the genetic information work?
Genetic modification involves altering the genetic information of an organism by introducing specific changes to its DNA. This can be done by inserting new genes, removing existing genes, or modifying the expression of certain genes. Techniques such as CRISPR-Cas9 allow for precise editing of DNA sequences, enabling scientists to target specific genes and make desired modifications. Once the genetic information has been modified, the organism's cells will start producing proteins based on the new instructions encoded in its DNA.
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Could genetic memories exist?
Genetic memories, also known as ancestral or inherited memories, are a concept that suggests that memories or experiences of our ancestors could be passed down through our genes. While there is some evidence to suggest that certain experiences can have an impact on gene expression and behavior in future generations, the idea of direct transmission of specific memories is not supported by scientific evidence. Memories are complex and involve the brain's intricate neural networks, which are not encoded in our DNA. Therefore, the existence of genetic memories as commonly understood is not supported by current scientific understanding.
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What is genetic inheritance?
Genetic inheritance refers to the passing of traits and characteristics from parents to offspring through the transmission of genes. Genes are segments of DNA that contain instructions for specific traits, such as eye color or height. Offspring inherit a combination of genes from both parents, which determines their physical and biological characteristics. Genetic inheritance plays a crucial role in shaping an individual's traits and susceptibility to certain diseases.
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