DNA methylation is a quintessential epigenetic mechanism. Widely considered a stable regulator of gene silencing, it represents a form of “molecular braille,” chemically printed on DNA to regulate its structure and the expression of genetic information. However, there was a time when methyl groups simply existed in cells, mysteriously speckled across the cytosine building blocks of DNA. Why was the code of life chemically modified, apparently by “no accident of enzyme action” (Wyatt 1951)? If all cells in a body share the same genome sequence, how do they adopt unique functions and maintain stable developmental states? Do cells remember? In this historical perspective, I review epigenetic history and principles and the tools, key scientists, and concepts that brought us the synthesis and discovery of prokaryotic and eukaryotic methylated DNA. Drawing heavily on Gerard Wyatt’s observation of asymmetric levels of methylated DNA across species, as well as to a pair of visionary 1975 DNA methylation papers, 5-methylcytosine is connected to DNA methylating enzymes in bacteria, the maintenance of stable cellular states over development, and to the regulation of gene expression through protein-DNA binding. These works have not only shaped our views on heritability and gene regulation but also remind us that core epigenetic concepts emerged from the intrinsic requirement for epigenetic mechanisms to exist. Driven by observations across prokaryotic and eukaryotic worlds, epigenetic systems function to access and interpret genetic information across all forms of life. Collectively, these works offer many guiding principles for our epigenetic understanding for today, and for the next generation of epigenetic inquiry in a postgenomics world.
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Book
Ben Martynoga;
(2018)
Molecular Tinkering: The Edinburgh Scientists Who Changed the Face of Modern Biology
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Article
Felsenfeld, Gary;
(2014)
The Evolution of Epigenetics
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Chapter
Jablonka, Eva;
(2011)
Cellular Epigenetic Inheritance in the Twenty-First Century
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Article
M. Polo Camacho;
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What’s All the Fuss About? The Inheritance of Acquired Traits Is Compatible with the Central Dogma
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Santesmases, María Jesús;
(2002)
Enzymology at the Core: Primers and Templates in Severo Ochoa's Transition from Biochemistry to Molecular Biology
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The Scientific Commons in the Marketplace: The Industrialization of Biomedical Materials at the New England Enzyme Center, 1963--1980
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Prebble, John N.;
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Contrasting Approaches to a Biological Problem: Paul Boyer, Peter Mitchell and the Mechanism of the ATP Synthase, 1961--1985
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Chapter
Grote, Mathias;
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From Enzymes to Molecular Machines: Materiality in Research on Rhodopsins, 1970s
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Article
Helvoort, Ton van;
(2002)
Institutionalizing Biochemistry: The Enzyme Institute at the University of Wisconsin
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Article
Baedke, Jan;
(2013)
The Epigenetic Landscape in the Course of Time: Conrad Hal Waddington's Methodological Impact on the Life Sciences
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Chow-White, Peter A.;
García-Sancho, Miguel;
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Bidirectional Shaping and Spaces of Convergence: Interactions between Biology and Computing from the First DNA Sequencers to Global Genome Databases
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Article
Gisler, Priska;
Kurath, Monika;
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Paradise Lost? “Science” and “the Public” after Asilomar
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Article
Kauffman, George B.;
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DNA Structure: Happy 50th Birthday!
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Article
Susan Lindee;
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Human genetics after the bomb: Archives, clinics, proving grounds and board rooms
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Wheeler, Quentin;
Assis, Leandro;
Rieppel, Olivier;
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Phylogenetics: Heed the Father of Cladistics
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Article
M'charek, Amade;
Hagendijk, Rob;
Vries, Wiebe de;
(2013)
Equal before the Law: On the Machinery of Sameness in Forensic DNA Practice
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Article
Gilbert, Scott F.;
Howes-Mischel, Rebecca;
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“Show Me Your Original Face Before You Were Born”: The Convergence of Public Fetuses and Sacred DNA
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When Physics and Biology Meet: The Nanoscale Case
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Article
Yi, Doogab;
(2011)
Who Owns What? Private Ownership and the Public Interest in Recombinant DNA Technology in the 1970s
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Article
Falk, Raphael;
(2010)
What Is a Gene?---Revisited
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