Gerald Edelman

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Gerald Edelman
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|birth_place = Ozone Park, Queens, New York2014177|1}}|death_place = La Jolla, California|residence =|citizenship =|nationality = American|ethnicity =|field = ImmunologyNeurosciencePhilosophy of Mind|work_institutions =|alma_mater = Ursinus College, University of Pennsylvania School of Medicine, The Rockefeller University|doctoral_advisor =|doctoral_students =|known_for =|influences =|influenced =|prizes = Nobel Prize in Physiology or Medicine in 1972|religion =|footnotes =|signature =|spouse=Maxine M. Morrison (m. 1950; 3 children)}}Gerald Maurice Edelman ({{IPAc-en|ˈ|ɛ|d|əl|m|ən}}; July 1, 1929 – May 17, 2014) was an American biologist who shared the 1972 Nobel Prize in Physiology or Medicine for work with Rodney Robert Porter on the immune system.WEB,weblink The Nobel Prize in Physiology or Medicine 1972, September 27, 2007, Edelman's Nobel Prize-winning research concerned discovery of the structure of antibody molecules.Structural differences among antibodies of different specificities {{webarchive|url= |date=May 8, 2006 }} by G. M. Edelman, B. Benacerraf, Z. Ovary and M. D. Poulik in Proc Natl Acad Sci U S A (1961) volume 47, pages 1751-1758. In interviews, he has said that the way the components of the immune system evolve over the life of the individual is analogous to the way the components of the brain evolve in a lifetime. There is a continuity in this way between his work on the immune system, for which he won the Nobel Prize, and his later work in neuroscience and in philosophy of mind.

Early life

Gerald Edelman was born in 1929JOURNAL, 10.1038/510474a, Gerald Edelman (1929–2014) Biologist who won Nobel for solving antibody structure, Nature, 510, 7506, 474, 2014, Rutishauser, Urs, 2014Natur.510..474R, 24965643, in Ozone Park, Queens, New York, to Jewish parents, physician Edward Edelman, and Anna (née Freedman) Edelman, who worked in the insurance industry.WEB,weblink Gerald M. Edelman: Biography, Les Prix Nobel en 1972, Odelberg, Wilhelm, 1973, Nobel Foundation, September 27, 2007, (Including Addendum, May 2005.) He studied violin for years, but eventually realized that he did not have the inner drive needed to pursue a career as a concert violinist, and decided to go into medical research instead.Edelman's remarks in 2008 radio interview with physicist Michio Kaku (host of Exploration). He attended public schools in New York, graduating from John Adams High School,NEWS, Ravo, Nick, Attention Bewilders Queens High School,weblink New York Times, January 7, 1987, and going on to college in Pennsylvania where he graduated magna cum laude with a B.S. from Ursinus College in 1950 and received an M.D. from the University of Pennsylvania School of Medicine in 1954.


After a year at the Johnson Foundation for Medical Physics, Edelman became a resident at the Massachusetts General Hospital; he then practiced medicine in France while serving with US Army Medical Corps. In 1957, Edelman joined the Rockefeller Institute for Medical Research as a graduate fellow, working in the laboratory of Henry Kunkel and receiving a Ph.D. in 1960. The institute made him the Assistant (later Associate) Dean of Graduate Studies; he became a professor at the school in 1966. In 1992, he moved to California and became a professor of neurobiology at The Scripps Research Institute.WEB,weblink PDF, Gerald M. Edelman: Curriculum Vitae, September 27, 2007, After his Nobel prize award, Edelman began research into the regulation of primary cellular processes, particularly the control of cell growth and the development of multi-celled organisms, focussing on cell-to-cell interactions in early embryonic development and in the formation and function of the nervous system. These studies led to the discovery of cell adhesion molecules (CAMs), which guide the fundamental processes that help an animal achieve its shape and form, and by which nervous systems are built. One of the most significant discoveries made in this research is that the precursor gene for the neural cell adhesion molecule gave rise in evolution to the entire molecular system of adaptive - Gerald M. Edelman biography

Nobel Prize

While in Paris serving in the Army, Edelman read a book that sparked his interest in antibodies.WEB,weblink Frontiers Profile: Gerry Edelman, September 27, 2007, November 21, 2000, He decided that, since the book said so little about antibodies, he would investigate them further upon returning to the United States, which led him to study physical chemistry for his 1960 Ph.D. Research by Edelman and his colleagues and Rodney Robert Porter in the early 1960s produced fundamental breakthroughs in the understanding of the antibody's chemical structure, opening a door for further study.PRESS RELEASE, The Nobel Prize in Physiology or Medicine 1972, Karolinksa Institutet, October 1972,weblink September 27, 2007, Their discoveries represent clearly a break-through that immediately incited a fervent research activity the whole world over ..., For this work, Edelman and Porter shared the Nobel Prize in Physiology or Medicine in 1972.In its Nobel Prize press release in 1972, the Karolinska Institutet lauded Edelman and Porter's work as a major breakthrough:

Disulfide bonds

File:Anticorps.png|thumb|right|272px|Diagram illustrating the disulfide bonds (red) that link the light (green) and heavy (blue) protein subunits of Immunoglobulin GImmunoglobulin GEdelman's early research on the structure of antibody proteins revealed that disulfide bonds link together the protein subunits. The protein subunits of antibodies are of two types, the larger heavy chains and the smaller light chains. Two light and two heavy chains are linked together by disulfide bonds to form a functional antibody.

Molecular models of antibody structure

Using experimental data from his own research and the work of others, Edelman developed molecular models of antibody proteins.JOURNAL, 14173001, 1964 first1 = G. first2 = J., A Model for the 7S Antibody Molecule, 51, 5, 846–853, 300172, Proceedings of the National Academy of Sciences of the United States of America, 10.1073/pnas.51.5.846antigen binding domains of antibodies (Fragment antigen-binding>Fab) include amino acids from both the Immunoglobulin light chain and Immunoglobulin heavy chain>heavy protein subunits. The inter-chain disulfide bonds help bring together the two parts of the antigen binding domain.

Antibody sequencing

Edelman and his colleagues used cyanogen bromide and proteases to fragment the antibody protein subunits into smaller pieces that could be analyzed for determination of their amino acid sequence.JOURNAL, 5650389, 1968 first1 = B. first2 = P. first3 = W. first4 = G., The covalent structure of a human gamma G-immunoglobulin. V. Partial amino acid sequence of the light chain, 7, 5, 1983–1994, Biochemistry, 10.1021/bi00845a049, JOURNAL, 4177258, 1968 first1 = P. D. first2 = B. A. first3 = M. J. first4 = W. H. first5 = G. M., Variable regions of heavy and light polypeptide chains of the same gammaG-immunoglobulin molecule, 61, 1, 168–175, 285919, Proceedings of the National Academy of Sciences of the United States of America, 10.1073/pnas.61.1.168, 1968PNAS...61..168G, At the time when the first complete antibody sequence was determined (1969)JOURNAL, 5257969, 1969 first1 = G. M. first2 = B. A. first3 = W. E. first4 = P. D. first5 = U. first6 = M. J., The covalent structure of an entire gammaG immunoglobulin molecule, 63, 1, 78–85, 534037, Proceedings of the National Academy of Sciences of the United States of America, 10.1073/pnas.63.1.78Variable region>variable regions.


Topobiology is Edelman's theory which asserts that morphogenesis is driven by differential adhesive interactions among heterogeneous cell populations and it explains how a single cell can give rise to a complex multi-cellular organism. As proposed by Edelman in 1988, topobiology is the process that sculpts and maintains differentiated tissues and is acquired by the energetically favored segregation of cells through heterologous cellular interactions.

Theory of consciousness

{{see also|Secondary consciousness}}In his later career, Edelman was noted for his theory of consciousness, documented in a trilogy of technical books and in several subsequent books written for a general audience, including Bright Air, Brilliant Fire (1992),JOURNAL, Tauber, Alfred I., Alfred I. Tauber, Review of Bright Air, Brilliant Fire: On the matter of the mind by Gerald M. Edelman, November 19, 1992, N Engl J Med, 327, 21, 1535–1536, 10.1056/NEJM199211193272119, JOURNAL, Review of Bright Air, Brilliant Fire: On the Matter of the Mind by Gerald Edelman, Kirkus Reviews, April 20, 1992,weblink A Universe of Consciousness (2001, with Giulio Tononi), Wider than the Sky (2004) and Second Nature: Brain Science and Human Knowledge (2007).In Second Nature Edelman defines human consciousness as:
"... what you lose on entering a dreamless deep sleep ... deep anesthesia or coma ... what you regain after emerging from these states. [The] experience of a unitary scene composed variably of sensory responses ... memories ... situatedness ..."
The first of Edelman's technical books, The Mindful Brain (1978),BOOK, The Mindful Brain: Cortical Organization and the Group-selective Theory of Higher Brain Function, Gerald M. Edelman, MIT Press, 1978, 9780262050203, develops his theory of Neural Darwinism, which is built around the idea of plasticity in the neural network in response to the environment. The second book, Topobiology (1988),BOOK, Topobiology: An Introduction to Molecular Embryology, Gerald M. Edelman, Basic Books, 1988, 9780465086344, proposes a theory of how the original neuronal network of a newborn's brain is established during development of the embryo. The Remembered Present (1990)BOOK, The Remembered Present: A Biological Theory of Consciousness, Gerald M. Edelman, Basic Books, 1989, 9780465069101, contains an extended exposition of his theory of consciousness.In his books, Edelman proposed a biological theory of consciousness, based on his studies of the immune system. He explicitly located his theory within Charles Darwin's Theory of Natural Selection, citing the key tenets of Darwin's population theory, which postulates that individual variation within species provides the basis for the natural selection that eventually leads to the evolution of new species.BOOK, Gerald M. Edelman, Jean-Pierre Changeux, The Brain, Transaction Publishers, 2001, 45, He explicitly rejected dualism and also dismissed newer hypotheses such as the so-called 'computational' model of consciousness, which liken the brain's functions to the operations of a computer. Edelman argued that the mind and consciousness are purely biological phenomena, arising from complex cellular processes within the brain, and that the development of consciousness and intelligence can be explained by Darwinian theory.Edelman's theory seeks to explain consciousness in terms of the morphology of the brain. A newborn baby's brain comprises a massive population of neurons (approx. 100 billion cells) and those that survive the initial phases of growth and development will make approximately 100 trillion connections with each other. A sample of brain tissue the size of a match head contains about a billion connections, and if we consider how these neuronal connections might be variously combined, the number of possible permutations becomes hyper-astronomical - in the order of ten followed by millions of zeros.BOOK, Gerald Edelman, Bright Air, Brilliant Fire, Penguin, 1992, 17, The young brain contains many more neurons than will ultimately survive to maturity, and Edelman argued that this redundant capacity is needed because neurons are the only cells in the body that cannot be renewed and because only those cells and networks best adapted to their ultimate purpose will be selected as they organize into neuronal groups.

Neural Darwinism

Edelman's theory of neuronal group selection, also known as 'Neural Darwinism', has three basic tenets—Developmental Selection, Experiential Selection and Reentry.
  1. Developmental selection -- the formation of the gross anatomy of the brain is controlled by genetic factors, but in any individual the connectivity between neurons at the synaptic level and their organisation into functional neuronal groups is determined by somatic selection during growth and development. This process generates tremendous variability in the neural circuitry—like the fingerprint or the iris, no two people will have precisely the same synaptic structures in any comparable area of brain tissue. Their high degree of functional plasticity and the extraordinary density of their interconnections enables neuronal groups to self-organise into many complex and adaptable "modules." These are made up of many different types of neurons which are typically more closely and densely connected to each other than they are to neurons in other groups.
  2. Experiential selection -- Overlapping the initial growth and development of the brain, and extending throughout an individual's life, a continuous process of synaptic selection occurs within the diverse repertoires of neuronal groups. This process may strengthen or weaken the connections between groups of neurons and it is constrained by value signals that arise from the activity of the ascending systems of the brain, which are continually modified by successful output. Experiential selection generates dynamic systems that can 'map' complex spatio-temporal events from the sensory organs, body systems and other neuronal groups in the brain onto other selected neuronal groups. Edelman argues that this dynamic selective process is directly analogous to the processes of selection that act on populations of individuals in species, and he also points out that this functional plasticity is imperative, since not even the vast coding capability of entire human genome is sufficient to explicitly specify the astronomically complex synaptic structures of the developing brain.Gerald Edelman, Bright Air, Brilliant Fire (Penguin, 1992), p.224
  3. Reentry —the concept of reentrant signalling between neuronal groups. He defines reentry as the ongoing recursive dynamic interchange of signals that occurs in parallel between brain maps, and which continuously interrelates these maps to each other in time and space (film clip: Edelman demonstrates spontaneous group formation among neurons with re-entrant connectionsGerald Edelman: "From Brain Dynamics to Consciousness: A Prelude to the Future of Brain-Based Devices", Video, IBM Lecture on Cognitive Computing, June 2006). Reentry depends for its operations on the intricate networks of massively parallel reciprocal connections within and between neuronal groups, which arise through the processes of developmental and experiential selection outlined above. Edelman describes reentry as "a form of ongoing higher-order selection ... that appears to be unique to animal brains" and that "there is no other object in the known universe so completely distinguished by reentrant circuitry as the human brain."

Evolution theory

Edelman and Gally were the first to point out the pervasiveness of degeneracy in biological systems and the fundamental role that degeneracy plays in facilitating evolution.JOURNAL, Edelman and Gally, Degeneracy and complexity in biological systems, Proceedings of the National Academy of Sciences, USA, 2001, 98, 24, 13763–13768, 10.1073/pnas.231499798, 11698650, 2001PNAS...9813763E, 61115,

Later career

Edelman founded and directed The Neurosciences Institute, a nonprofit research center in San Diego that between 1993 and 2012 studied the biological bases of higher brain function in humans. He served on the scientific board of the World Knowledge Dialogue project.WEB,weblink World Knowledge Dialogue, October 12, 2007, Edelman was a member of the USA Science and Engineering Festival's Advisory Board.WEB,weblink Archived copy, February 23, 2015, yes,weblink" title="">weblink April 21, 2010,


Edelman married Maxine M. Morrison in 1950. They have two sons, Eric, a visual artist in New York City, and weblink" title="">David, an adjunct professor of neuroscience at University of San Diego. Their daughter, Judith Edelman, is a bluegrass musician, recording artist, and writer. Some observers{{Who|date=March 2012}} have noted that a character in Richard Powers' The Echo Maker may be a nod at Edelman.

Health and death

Later in his life, he had prostate cancer and Parkinson's disease.NEWS,weblink Gerald M. Edelman, Nobel Laureate and 'Neural Darwinist,' Dies at 84, The New York Times, May 23, 2014, May 23, 2014, Edelman died on May 17, 2014 in La Jolla, California, aged 84.WEB,weblink Gerald Edelman, Nobel laureate dies, U-T San, May 21, 2014, May 20, 2014, WEB,weblink Hirnforscher Gerald Edelman gestorben: Darwins Gehirn,, May 19, 2014, January 18, 2019,


  • Neural Darwinism: The Theory of Neuronal Group Selection (Basic Books, New York 1987). {{ISBN|0-19-286089-5}}
  • Topobiology: An Introduction to Molecular Embryology (Basic Books, 1988, Reissue edition 1993) {{ISBN|0-465-08653-5}}
  • The Remembered Present: A Biological Theory of Consciousness (Basic Books, New York 1990). {{ISBN|0-465-06910-X}}
  • Bright Air, Brilliant Fire: On the Matter of the Mind (Basic Books, 1992, Reprint edition 1993). {{ISBN|0-465-00764-3}}
  • The Brain, Edelman and Jean-Pierre Changeux, editors, (Transaction Publishers, 2000). {{ISBN|0-7658-0717-3}}
  • A Universe of Consciousness: How Matter Becomes Imagination, Edelman and Giulio Tononi, coauthors, (Basic Books, 2000, Reprint edition 2001). {{ISBN|0-465-01377-5}}
  • Wider than the Sky: The Phenomenal Gift of Consciousness (Yale Univ. Press 2004) {{ISBN|0-300-10229-1}}
  • Second Nature: Brain Science and Human Knowledge (Yale University Press 2006) {{ISBN|0-300-12039-7}}

See also



Further reading

  • {{citation |year=1994 |author=Smoliar, Stephen W |chapter=Review of G.M. Edelman (book review) |editor1=William J. Clancey |editor2=Stephen W. Smoliar |editor3=Mark Stefik |title=Contemplating minds: a forum for artificial intelligence |place=Massachusetts |publisher=Massachusetts Institute of Technology |url= |pages=431–446 |isbn=978-0-262-53119-1 |accessdate=May 21, 2010}} (originally published in Artificial Intelligence 39 (1989) 121-139.)

External links

{{Nobel Prize in Physiology or Medicine Laureates 1951-1975}}{{Eli Lilly Award in Biological Chemistry}}{{Authority control}}

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