Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- 1 What is Life? The next fifty years. An introduction
- 2 What will endure of 20th century biology?
- 3 ‘What is life?’ as a problem in history
- 4 The evolution of human inventiveness
- 5 Development: is the egg computable or could we generate an angel or a dinosaur?
- 6 Language and life
- 7 RNA without protein or protein without RNA?
- 8 ‘What is life?’: was Schrödinger right?
- 9 Why new physics is needed to understand the mind
- 10 Do the laws of Nature evolve?
- 11 New laws to be expected in the organism: synergetics of brain and behaviour
- 12 Order from disorder: the thermodynamics of complexity in biology
- 13 Reminiscences
- Index
5 - Development: is the egg computable or could we generate an angel or a dinosaur?
Published online by Cambridge University Press: 03 February 2010
- Frontmatter
- Contents
- List of contributors
- Preface
- 1 What is Life? The next fifty years. An introduction
- 2 What will endure of 20th century biology?
- 3 ‘What is life?’ as a problem in history
- 4 The evolution of human inventiveness
- 5 Development: is the egg computable or could we generate an angel or a dinosaur?
- 6 Language and life
- 7 RNA without protein or protein without RNA?
- 8 ‘What is life?’: was Schrödinger right?
- 9 Why new physics is needed to understand the mind
- 10 Do the laws of Nature evolve?
- 11 New laws to be expected in the organism: synergetics of brain and behaviour
- 12 Order from disorder: the thermodynamics of complexity in biology
- 13 Reminiscences
- Index
Summary
In calling the structure of the chromosome fibres a code-script we mean that the all-penetrating mind, once conceived by Laplace, to which every causal connection lay immediately open, could tell from their structure whether the tgg would develop, under suitable conditions, into a black cock or into a speckled hen, into a fly or a maize plant, a rhododendron, a beetle, a mouse or a woman.
What we wish to illustrate is simply that with the molecular picture of the gene it is no longer inconceivable that the miniature cell should precisely correspond with a highly complicated and specified plan of development and should somehow contain the means to put it into operation.
(E. Schrödinger, 1944)These quotations from Schrödinger were very perceptive, and raised two key questions. The first is whether the development of the egg is computable, and I will suggest that the answer is no, but that it will be possible to simulate some aspects of development. As regards the second question, how genes control development, Schrödinger could not have known that genes exert their influence through controlling which proteins are made, and in this way they control cell behaviour and development.
In posing these questions, Schrödinger was giving recognition to the fundamental importance of development. Development is at the core of multicellular biology. It is the link between genetics and morphology. Indeed much of the genetic information in our cells is required to direct development. Evolution can be thought of in terms of altering the programme of development so that structures are modified and new ones form.
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- What is Life? The Next Fifty YearsSpeculations on the Future of Biology, pp. 57 - 66Publisher: Cambridge University PressPrint publication year: 1995
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