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Introducing Epigenetics: A Graphic Guide Paperback – Mar 20 2017
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About the Author
André Gomes: André Gomes completed his PhD in Molecular Genetics at the University of Leicester in 2014, looking at the gene-expression analysis of transgenerational instability in mice. Having spent some time as a research assistant in Leicester, he now lives and works in London.
Oliver Pugh: Oliver Pugh is a designer and illustrator.
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Most helpful customer reviews on Amazon.com
The book is formatted for modern readers. It is short as Kindle books go – only 1385 locations. It is divided into chapters about one page each in length. I include the chapter index at the end of the review. It is rich in diagrams.
In writing such a book, the author must strike a balance between readability and completeness. She has to make some assumptions about the reader. This book appears to assume that the reader will be college educated, not flummoxed by the introduction of new technical terms, and somewhat familiar with genetics. In other words, it is not for everybody.
I am 50 years out of college but have read much of the popular literature on genetics, starting with Dawkins' Selfish Gene. I found that the book demanded my attention, forcing me to reread a few chapters in order to fully grasp the concepts, but in the end quite satisfying.
DNA, the blueprint for our bodies, is invariant. Every cell of the body contains the same long, complex DNA molecules. However, DNA always exists among other, supporting molecules, which do differ from cell to cell. These epigenetic assistants control how the information from the DNA is translated into building proteins for the various types of cells within the body.
DNA stands for diribonucleic acid – the double helix, half from the father, half from the mother. RNA stands for ribonucleic acid, the more general form. Proteins are formed by what is called messenger RNA. These molecules are copied from short subsets of the whole DNA molecule. Messenger RNA tells the cell how to build the proteins required to be, for instance, a brain cell or a liver cell.
The structures surrounding DNA in a given cell includes markers that control which part of the DNA will be used as templates for building amino acids within the cell and which will be ignored. There are different structures for different cells.
As the chapter titles below indicate, a lot of things affect the epigenetic material surrounding DNA. Among these are aging and exposure to chemicals such as those in tobacco. While the DNA may not change within an individual, the body parts made according to that DNA model do change via epigenetics.
Epigenetic diagnoses for disease, and epigenetic-based cures for disease our already in place, and many more appear to be on the horizon. This book will be useful reading for investors interested in the next big things in biotechnology. It will help them read investment product prospectuses and annual reports from companies involved in esoteric new technologies.
The book is truly a five-star effort. The author deserves a great deal of credit for striking such a good balance among readability, completeness and bulk.
The chapter titles:
Genes, RNA and Proteins
Chromosomes, Nucleosomes and Chromatin
DNA Replication and Mitosis
Meiosis and Inheritance
Beyond the DNA Sequence: Gene Regulation
Nature and Nurture
The History of Epigenetics
The Modern Understanding of Epigenetic Modifications
Interactions Between Different Epigenetic Modifications
Epigenetics Explains What Genetics Alone Cannot
Epigenetic Changes During Embryonic Development
X Chromosome Inactivation
How Our Environment Affects Our Genes
Not So Identical Twins
Epigenetic Inheritance in Animal Models
Human Epigenetic Inheritance: The Dutch Hunger Winter
Human Epigenetic Inheritance: Överkalix
Mechanisms of Epigenetic Inheritance
Epigenetics in Evolution
Epigenetics in Disease: Ageing
Epigenetics in Disease: Inherited Mutations in Epigenetic
Epigenetics in Disease: Imprinting Errors
The Epigenetics of Cancer
Epigenetics in Medicine
Stem Cell Therapies
Epigenetics and Pseudoscience
The Future of Epigenetics
New Epigenetic Modifications
Recommended Further Reading
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