Haldane, Mayr, and Beanbag Genetics
Seiten
2011
Oxford University Press Inc (Verlag)
978-0-19-538734-6 (ISBN)
Oxford University Press Inc (Verlag)
978-0-19-538734-6 (ISBN)
The book presents an account of the controversy between two great biologists, J.B.S. Haldane and Ernst Mayr, regarding the significance of the mathematical contributions of the three pioneers, J.B.S. Haldane, R.A. Fisher and S. Wright, to the theory of evolution. The author is a former pupil of J.B.S. Haldane.
Haldane, Mayr, and Beanbag Genetics presents a summary of the classic exchange between two great biologists - J.B.S. Haldane and Ernst Mayr - regarding the value of the contributions of the mathematical school represented by J.B.S. Haldane, R.A. Fisher and S. Wright to the theory of evolution. Their pioneering contributions from 1918 to the 1960s dominated and shaped the field of population genetics, unique in the annals of science. In 1959, Mayr questioned what he regarded as the beanbag genetic approach of these pioneers to evolutionary theory, "an input or output of genes, as the adding of certain beans to a beanbag and the withdrawing of others." In 1964, Mayr's contention was refuted by Haldane in a remarkably witty, vigorous and pungent essay, "A defense of beanbag genetics" which compared the mathematical theory to a scaffolding within which a reasonably secure theory expressible in words may be built up. Correspondence between Haldane and Mayr is included.
Beanbag genetics has come a long way since 1964. Mayr's (1959) critique of simple uncomplicated population genetics is no longer valid. Population genetics today includes much more than Mayr's beanbag genetics. Population genetics models now include multiple factors, linkage, dominance and epistasis. These may be regarded as the advanced beanbag models. Furthermore, population genetics and developmental genetics have become interdependent. Contemporary beanbag genetics includes molecular clocks, nucleotide diversity, coalescence and DNA-based phylogenetic trees, along with the four major holdovers from classical genetics, mutation, selection, migration and random drift. Molecular genetics has made it possible to study evolution rates at the nucleotide level. It is also possible today to compare DNA similarities and divergence in diverse species of animals and plants, which were not previously crossable.
Haldane, Mayr, and Beanbag Genetics presents a summary of the classic exchange between two great biologists - J.B.S. Haldane and Ernst Mayr - regarding the value of the contributions of the mathematical school represented by J.B.S. Haldane, R.A. Fisher and S. Wright to the theory of evolution. Their pioneering contributions from 1918 to the 1960s dominated and shaped the field of population genetics, unique in the annals of science. In 1959, Mayr questioned what he regarded as the beanbag genetic approach of these pioneers to evolutionary theory, "an input or output of genes, as the adding of certain beans to a beanbag and the withdrawing of others." In 1964, Mayr's contention was refuted by Haldane in a remarkably witty, vigorous and pungent essay, "A defense of beanbag genetics" which compared the mathematical theory to a scaffolding within which a reasonably secure theory expressible in words may be built up. Correspondence between Haldane and Mayr is included.
Beanbag genetics has come a long way since 1964. Mayr's (1959) critique of simple uncomplicated population genetics is no longer valid. Population genetics today includes much more than Mayr's beanbag genetics. Population genetics models now include multiple factors, linkage, dominance and epistasis. These may be regarded as the advanced beanbag models. Furthermore, population genetics and developmental genetics have become interdependent. Contemporary beanbag genetics includes molecular clocks, nucleotide diversity, coalescence and DNA-based phylogenetic trees, along with the four major holdovers from classical genetics, mutation, selection, migration and random drift. Molecular genetics has made it possible to study evolution rates at the nucleotide level. It is also possible today to compare DNA similarities and divergence in diverse species of animals and plants, which were not previously crossable.
Krishna Dronamraju is President of the Foundation for Genetic Research, in Houston, Texas. His publications include 17 books and over 200 research papers in genetics, biotechnology and history of science. A former student and colleague of J.B.S. Haldane, he is a Visiting Professor of the University of Paris and a nominee for the Nobel Prize.
INTRODUCTION; JBS HALDANE AND EVOLUTIONARY BIOLOGY; APPENDIX: CORRESPONDENCE BETWEEN J.B.S. HALDANE AND ERNST MAYR; PHOTOGRAPHS; REFERENCES
Erscheint lt. Verlag | 28.4.2011 |
---|---|
Verlagsort | New York |
Sprache | englisch |
Maße | 211 x 142 mm |
Gewicht | 431 g |
Themenwelt | Naturwissenschaften ► Biologie ► Evolution |
Naturwissenschaften ► Biologie ► Genetik / Molekularbiologie | |
ISBN-10 | 0-19-538734-1 / 0195387341 |
ISBN-13 | 978-0-19-538734-6 / 9780195387346 |
Zustand | Neuware |
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