In Pursuit of the Gene: From Darwin to DNA [Paperback]

James Schwartz (Author)

Book Description

Publication Date: March 30, 2010

The mystery of inheritance has captivated thinkers since antiquity, and the unlocking of this mystery—the development of classical genetics—is one of humanity’s greatest achievements. This great scientific and human drama is the story told fully and for the first time in this book.

Acclaimed science writer James Schwartz presents the history of genetics through the eyes of a dozen or so central players, beginning with Charles Darwin and ending with Nobel laureate Hermann J. Muller. In tracing the emerging idea of the gene, Schwartz deconstructs many often-told stories that were meant to reflect glory on the participants and finds that the “official” version of discovery often hides a far more complex and illuminating narrative. The discovery of the structure of DNA and the more recent advances in genome science represent the culmination of one hundred years of concentrated inquiry into the nature of the gene. Schwartz’s multifaceted training as a mathematician, geneticist, and writer enables him to provide a remarkably lucid account of the development of the central ideas about heredity, and at the same time bring to life the brilliant and often eccentric individuals who shaped these ideas.

In the spirit of the late Stephen Jay Gould, this book offers a thoroughly engaging story about one of the oldest and most controversial fields of scientific inquiry. It offers readers the background they need to understand the latest findings in genetics and those still to come in the search for the genetic basis of complex diseases and traits.

(20080517)

Editorial Reviews

From Publishers Weekly

Starred Review. Understanding the nature of genetic inheritance was essential for evolution to be accepted as the dominant paradigm in biology. In a masterful work, science writer Schwartz looks at the science and the personalities behind that understanding, ranging from Darwin's belief in pangenesis to explain the inheritance of physical variations to Hermann Muller's Nobel Prize–winning work on X-rays and genetic mutation. Although he discusses the contributions of such luminaries as Francis Galton, William Bateson, Gregor Mendel, Hugo de Vries and Thomas Hunt Morgan, Schwartz provides far more than character sketches. In a thoroughly accessible manner, he offers insight into the critical experiments each undertook and allows readers to share the excitement of discovery. He also does a fabulous job of demonstrating the social nature of science, showing how competition often leads to unseemly actions and how the unwillingness to part with a favorite theory leads to an idiosyncratic interpretation of data. Schwartz illustrates how, despite all of this, science continues to make progress and our understanding of the world continues to grow. Although the history of genetics has been covered many times before, Schwartz brings unbridled energy, strong writing and a fresh perspective. 42 b&w illus. (Apr.)
Copyright © Reed Business Information, a division of Reed Elsevier Inc. All rights reserved. --This text refers to the Hardcover edition.

From Booklist

Schwartz’s scientific history of the origin of genetics spans from 1868, when Darwin proposed an incorrect theory of heredity, to 1944, when DNA was proven to be the molecule of heredity. Schwartz uses an accessible biographical structure, in which the main players conduct experiments, carry on arguments, and eventually put genetics on the right course. Schwartz’s emphasis on those who sent it up blind alleys underscores the difficulty of the heredity problem. Schwartz begins his profile of Darwin when he was a grand old man receiving visitors. One, Francis Galton, went off on a eugenics tangent but bequeathed a statistical approach that proved fruitful, while another, botanist Hugo de Vries, conceived the idea of mutations. The rediscovery in the early 1900s of Gregor Mendel’s work, which, as Schwartz explains, was resisted by scientists influenced by Darwin’s wrong ideas about inheritance, led to the celebrated work of Thomas Hunt Morgan and Hermann Muller, who pioneered gene mapping and manipulation. Thorough and detailed, Schwartz’s history is a solid source for learning about the pioneers of genetics. --Gilbert Taylor --This text refers to the Hardcover edition.

See all Editorial Reviews

Product Details

• Paperback: 384 pages
• Publisher: Harvard University Press (March 30, 2010)
• Language: English
• ISBN-10: 0674034910
• ISBN-13: 978-0674034914
• Product Dimensions: 9.2 x 6.3 x 0.9 inches
• Shipping Weight: 1.3 pounds (View shipping rates and policies)
• Average Customer Review: 4.6 out of 5 stars  See all reviews (5 customer reviews)
• Amazon Best Sellers Rank: #447,521 in Books (See Top 100 in Books)

More About the Author

Discover books, learn about writers, read author blogs, and more.

Customer Reviews

Most Helpful Customer Reviews

16 of 16 people found the following review helpful:

5.0 out of 5 stars Genes and geniuses, May 12, 2008

By 

W. Flesch (arlington, MA) - See all my reviews
(REAL NAME)   

This review is from: In Pursuit of the Gene: From Darwin to DNA (Hardcover)

Science (like evolution) is winners' history: we live in a world of things that work, and the reason things work is that they've been successful. The history of science is fascinating because it's all about the sheer contingencies that somehow combined to give modern understanding its aura of inevitablity. Nothing's more fun than to get a glimpse of brilliant people who not only didn't know what we know, but who thought hard about things that never even occurred to us. To really understand science, to understand the ideas and not just to make use of them, you have to go deeply into the history of science and see what ideas looked like before they won (or lost). Schwartz, an amazingly good writer who does really understand science, and also understands narrative (he writes like a novelist), makes the thinking, the debates, the brilliant wrong ideas, the surprises about which ones were right, fresh and exciting. The history (based on original archival work and interviews with some of the players in the story, as well as their survivors) is fascinating on its own, but will also be valuable for anyone interested in what an exciting new idea looks like. Most exciting new ideas don't pan out; but all the winners were exciting once, and this book shows how and why.

16 of 17 people found the following review helpful:

5.0 out of 5 stars A Triumph of Reason over Ideology, August 8, 2008

By 

Herbert Gintis (Northampton, MA USA) - See all my reviews

Amazon Verified Purchase

This review is from: In Pursuit of the Gene: From Darwin to DNA (Hardcover)

I liked this book a lot the first time I read it. After finishing the book, there were many details, and not a few key points, that I had not consigned to memory, so I read it again. It was so good the second time that I read it a third time. This is a great book---Schwartz writes science history as though it were a fast-paced detective story with a plethora of personal details and exciting subplots. I am reminded of Elof Axel Carlson's fine history, Mendel's Legacy: The Origins of Classical Genetics, which the reader might also find complementary to Schwartz' account.

The subtitle is slightly inaccurate. The book is really about genetics from Thomas Hunt Morgan, Hugo de Vries, and William Bateson to Hermann Muller, although there are very interesting chapters on Galton, Weldon, and Mendel. Hermann Muller is clearly the standout figure in this whole saga, and the book could have been entitled "The Age of Hermann Muller: Precursors and Contemporaries."

Despite the skill of the author, this book cannot be read by everybody. This is because the scientific concepts involved, although carefully explained by Schwartz, are complex and subtle, and most people simply do not get enough pleasure from thinking hard to render learning them worthwhile. This pains me deeply. Why can we all appreciate music, art, literature, sports, sex, humor, and cuisine, while only a minority get equal pleasure from science? It is probably this imbalance that accounts for the presence of post-modernism in academia, creationism in popular ideology, and the indomitable tendency for truth to be sacrificed on the altar of political correctness. The most heart-rending story in this book is Schwartz' account of how the anti-genetics quack Lysenko won the heart of Stalin, leading to the destruction of Soviet agriculture and the persecution of the most talented and dedicated scientific agronomists, including Muller's host in Russia, Vavilov, who died of torture and starvation in a Soviet prison (his lesser-known colleagues were simply shot). A similar anti-science/anti-technology ideology condemned many millions to starvation in Mao Tse Tung's infamous "politics in command," period in Chinese history.

The standard story is that the monk Gregor Mendel discovered the laws of genetic segregation, publishing a monograph on the subject in 1865. This monograph was widely ignored, and Mendel's laws were rediscovered in the early years of the next century. Schwartz argues that Mendel's writings were rediscovered, although more than one scientist claimed independent discovery of the laws of genetic segregation. Moreover, Mendel was not just a simple monk whose work slipped under the radar. Mendel actively promoted his work, but it was opposed by many who considered it to be at variance with the facts. Even as late as 1925, there were many prominent anti-Mendelians, and the opposition to his genetic principles was based solidly on empirical evidence. For instance, de Vries, one of the rediscoverers of Mendel's laws, later came to believe that most genetic inheritance was not Mendelian. De Vries followed the lead of the French hybridist Millardet, who found that in many plants that bred true for several generations, crosses with related species led to two highly stable hybrids, a phenomenon ostensibly incompatible with Mendelian laws. De Vries' Oenothera Lamarckiana, which he cultivated and studied over many generations, was one of these plants, and de Vries developed a complex theory of discontinuous mutation based on hybridization.

It was characteristic of virtually all biologists of the period to hold strongly to particular models of genetic inheritance, despite the fact that the evidence was deeply ambiguous and appeared incompatible with all models. Muller held an unshakable belief in the universality of Mendel's laws. Indeed, his phenomenal success stemmed from his unwavering faith, together with great observational and experimental skills. Eventually he worked out the correct model of Oenothera Lamarckiana and other "false hybrids," finding that these plants were obligate heterozygotes because both homozygotes at the relevant locus were lethal.

Muller's explanation of "false hybrids" also undermined de Vries' elaborate theory of discontinuous mutation, and left the field for Muller and others (especially Altenberg) to develop the correct theory of heritable point mutations. But, I don't want to reveal too much of the plot, which would take away some of the fun for the reader.

8 of 9 people found the following review helpful:

3.0 out of 5 stars Fast pace requires pre-existing knowledge of genetics' origins, August 6, 2009

By 

J. Hubble (Northern California) - See all my reviews
(REAL NAME)   

This review is from: In Pursuit of the Gene: From Darwin to DNA (Hardcover)

I wanted to be interested in this book, but I kept finding myself putting it down, and only with much effort was I able to finish. The writing style is fairly accessible. However, the content seems to be a little too compressed. There are many players involved and many bits of biology to keep track of. The subtitle may also be better stated as "Darwin to DNA (exclusive)" The discussion of DNA is passed over quickly in a final epilogue.

The book approaches science through a very personal approach, putting forth much of the "behind the scenes" relationships and competition that took place to arrive at the better understanding of genetics. The story is built through the history of the intertwined relationships of many of the great biologists, starting with Darwin and going on to nearly the present day. The focus is on a few significant players, providing at times fairly detailed biographies of both personal and scientific life.

Unfortunately, it falls short in trying to do too much. With so many people covered, it became difficult to sort one from the other. The details of their discoveries also was jumbled and not explained in clear detail. For somebody with an existing knowledge of the key discoveries and discoverers, this book would likely provide enjoyable insights in to the background of the discoveries. However, as a human biography or an introduction to the origins of genetics, it falls flat.