Products related to Gene:
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Gene Control
The new edition of Gene Control, for the first time, provides extensive coverage on prokaryotic gene regulation, which makes it the only textbook offering a complete and detailed account of gene control for both prokaryotic and eukaryotic organisms.The core objective of this edition is to educate students about the fundamental principles and mechanisms governing gene expression, regulation, and function.To reinforce these ideas, each chapter now includes discussion questions to promote critical thinking.There are also multiple choice questions and animations for students, and a large question bank and figure slides for instructors.The textbook also emphasizes the vital role of scientific experiments and evidence in shaping our current understanding of gene control and provides comprehensive coverage of essential gene expression techniques and methodologies throughout the book. This extensively updated edition of the renowned textbook Gene Control will remain a valuable resource for students, instructors, researchers, and medical professionals exploring various aspects of gene control, ranging from the regulation of genes in infectious diseases to embryonic development across different organisms, from bacteria to humans.
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Terminator Gene
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Gene Editing
Introduces readers to the science behind gene editing, including how and why the technology was created, current examples of the technology in action, and cutting-edge research advancing the technology.Eye-catching infographics, clear text, informative sidebars, and a “How It Works” special feature make this book an engaging introduction to this exciting technology.
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Gene Control
The new edition of Gene Control has been updated to include significant advances in the roles of the epigenome and regulatory RNAs in gene regulation.The chapter structure remains the same: the first part consists of pairs of chapters that explain the mechanisms involved and how they regulate gene expression, and the second part deals with specific biological processes (including diseases) and how they are controlled by genes.Coverage of methodology has been strengthened by the inclusion more explanation and diagrams. The significant revision and updating will allow Gene Control to continue to be of value to students, scientists and clinicians interested in the topic of gene control.
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Is the resistance gene a type of reporter gene, for example the ampicillin resistance gene?
No, the resistance gene is not a type of reporter gene. Reporter genes are used to monitor the activity of a promoter or the expression of a gene, while resistance genes provide cells with the ability to survive in the presence of certain selective agents, such as antibiotics. The ampicillin resistance gene, for example, allows bacteria to grow in the presence of ampicillin by producing an enzyme that inactivates the antibiotic. While both types of genes are commonly used in molecular biology research, they serve different purposes in experimental design.
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How does gene regulation occur in the src gene?
Gene regulation in the src gene occurs through a combination of transcriptional and post-transcriptional mechanisms. Transcriptional regulation involves the binding of transcription factors to specific regulatory elements in the DNA, which can either activate or repress gene expression. Post-transcriptional regulation involves the processing and stability of the mRNA transcript, as well as the regulation of translation. Additionally, the src gene can also be regulated by epigenetic modifications such as DNA methylation and histone modifications, which can influence its accessibility to transcriptional machinery. Overall, gene regulation in the src gene is a complex process involving multiple levels of control to ensure the appropriate expression of the gene.
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How is gene regulation carried out in the src gene?
Gene regulation in the src gene is primarily controlled by a process called transcriptional regulation. This involves the binding of specific transcription factors to regulatory regions of the gene, such as enhancers and promoters, to either activate or repress gene expression. Additionally, post-transcriptional mechanisms, such as alternative splicing and mRNA stability, can also influence the expression of the src gene. Overall, the regulation of the src gene is a complex process involving multiple levels of control to ensure proper gene expression in response to various cellular signals and environmental cues.
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What is gene editing?
Gene editing is a technology that allows scientists to make precise changes to an organism's DNA. This can involve adding, removing, or altering specific sections of the genetic code. One of the most well-known gene editing techniques is CRISPR-Cas9, which uses a guide RNA to target a specific gene and the Cas9 enzyme to make the desired changes. Gene editing has the potential to revolutionize fields such as medicine, agriculture, and biotechnology by allowing for the modification of genetic traits in a controlled and targeted manner.
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Gene Pitney Gene Pitney 1965 UK 7" vinyl BR375
GENE PITNEY Gene Pitney (1965 UK solid centre 4-track 7 vinyl EP including Cradle Of My Arms Please Come Back Baby Ill Find You & Im Going Back to My Love front laminated flipback picture sleeve. The sleeve shows just a little light wearwith minor creasing to one corner and the vinyl remains in excellent condition with just a couple of light surface scuffs to show for over fifty years BR375)
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The Compatibility Gene
Short-listed for the Society of Biology Book Award 2014 Long-listed for the Royal Society Winton prize for science books 2014In The Compatibility Gene, leading scientist Daniel M Davis tells the story of the crucial genes that define our relationships, our health and our individuality.We each possess a similar set of around 25,000 human genes.Yet a tiny, distinctive cluster of these genes plays a disproportionately large part in how our bodies work.These few genes, argues Davis, hold the key to who we are as individuals and our relationship to the world: how we combat disease, how our brains are wired, how attractive we are, even how likely we are to reproduce. The Compatibility Gene follows the remarkable history of these genes' discovery.From the British scientific pioneers who struggled to understand the mysteries of transplants to the Swiss zoologist who devised a new method of assessing potential couples' compatibility based on the smell of worn T-shirts, Davis traces a true scientific revolution in our understanding of the human body: a global adventure spanning some sixty years. 'Unusual results, astonishing implications and ethical dilemmas' The Times'Packed with an insider's knowledge' New York Times'He makes immunology as fascinating to popular science readers as cosmology, consciousness, and evolution' Steven Pinker'An elegantly written, unexpectedly gripping account' Bill Bryson Guardian, Books of the Year Daniel M Davis is director of research at the University of Manchester's Collaborative Centre for Inflammation Research and a visiting professor at Imperial College, London.He has published over 100 academic articles, including papers in Nature and Science, and Scientific American.He has won the Oxford University Press Science Writing Prize and given numerous interviews for national and international media.He was elected a Fellow of the Academy of Medical Sciences in 2011.
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The Gene Genie
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The Judas Gene
Leading industrialist and donor to the Conservative Party, Ralph Manningham, forced his father into early retirement so that he could take over the family business.Many years later, he is discovered dead at his home, the spilled bottle of pills on his desk a clear suggestion of suicide. The news of Ralph’s death causes a stir within his political circles; influential figures are worried that a potential scandal will engulf them.Inspector Max Bellamy’s task is to pick up the pieces, but as events unfold, it becomes increasingly clear that Ralph’s apparent suicide is not as it seems. Who has the motive to want Ralph dead?In this perplexing and challenging ‘whodunnit’, will Inspector Bellamy succeed in solving the case, or will the shadows of deception prevail?
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What is gene inheritance?
Gene inheritance refers to the passing down of genetic information from parents to offspring. Genes are segments of DNA that contain instructions for specific traits or characteristics. Offspring inherit a combination of genes from both parents, which determines their physical traits, behaviors, and susceptibility to certain diseases. Gene inheritance plays a crucial role in shaping an individual's traits and characteristics.
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What is the master gene?
The master gene is a gene that controls the expression of other genes in a regulatory network. It plays a crucial role in determining the development and function of an organism by influencing the activity of multiple downstream genes. The master gene acts as a key regulator, orchestrating the complex interactions between various genes to ensure proper growth, differentiation, and function of cells. Mutations or dysregulation of the master gene can lead to developmental abnormalities or diseases.
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What is the hemoglobin gene?
The hemoglobin gene is a gene that encodes the production of hemoglobin, a protein found in red blood cells that is responsible for carrying oxygen from the lungs to the rest of the body. The hemoglobin gene is located on chromosome 11 in humans and is made up of several subunits that come together to form the hemoglobin protein. Mutations in the hemoglobin gene can lead to various blood disorders, such as sickle cell anemia and thalassemia.
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What is actually a gene?
A gene is a segment of DNA that contains the instructions for building a specific protein or performing a particular function within an organism. Genes are the basic unit of heredity and are passed down from parents to offspring. Each gene has a specific location on a chromosome and can be turned on or off to control various traits and characteristics of an organism. Genes play a crucial role in determining an individual's physical and biological traits.
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