The following is posted at http://www.behavior.net/forums/evolutionary.A review of Genome: The Autobiography of a Species in 23 Chapters by Matt
Ridley, 344 pp., NY: Harper Collins, 2000, $26. James Brody, Ph.D.
Genome has been with us for 18 months. Nonetheless, Ridley's prose is still
engaging, his outlooks refreshing and he has been praised widely, perhaps
because Genome is like a newspaper: gossip and facts, teasers and insight
--- real life pressed into a linear order and in chunks that look familiar
to most of us. First, he discusses genes in the order of their size ---
bigger genes happen to have smaller numbers. He next builds a story around
one trait that is associated with each gene. His chapter headings have a
gene number and a verbal icon for one of our favorite obsessions: Life,
Species, His-tory, Fate, Environment, Intelligence, Instinct, Conflict,
Self-Interest, Disease, Stress, Personality, Self-Assembly, Pre-History,
Immortality, Sex, Memory, Death, Cures, Prevention, Politics, Eugenics, and
Free Will. These are all divisions of the Times. Ridley joins multiple
topics inside each chapter but without subheadings and with few cross
references between chapters. Chapter 11: "Personality" is not unusual. It
pivots on the gene for a controversial dopamine receptor known as D4DR. In
12 pages we cover the gene itself, Dean Hamer's thoughts about
homosexuality, hierarchic standing, bits of Jerome Kagan's ideas, thrill
seekers, Prozac, cholesterol, serotonin, aggression, and Mike McGuire on
social status in vervets. Oddly, Ridley omitted ADHD, the second most
heritable psychiatric disorder after Asperger's syndrome and also linked to
D4DR.
There is fascinating, scattered information on trade offs that are
associated with our resistance to different pathogens. For example, genes
that make us more resistant to tu-berculosis also make us less resistant to
osteoporosis but, in double doses, cause Tay Sachs disease.
We can be more resistant to typhoid if less resistant to cystic fibrosis;
more resistant to malaria if less to cholera. A Nobel Prize lurks in some
of Ridley's material. The same gene, IGF2R, (Insulin Growth Factor), that
may raise our I. Q. and help us to be a fast talker or snappy dresser also
appears to suppress liver cancer. Ridley mentions this coincidence in his
chapter on intelligence but, in a separate chapter, 30 pages later, Ridley
comments that IGF2R is maternally imprinted and opposes its mirror form from
dad, IGF2. The mater-nal version, the -R form, limits fetal growth, the
paternal increases it. The tie to intelligence? Other studies suggest that
maternally imprinted genes in mice are more influen-tial in formation of the
cerebral cortex but paternally imprinted genes give mice large bodies and
larger hypothalami but no cortex. Grow big, be fast, be impulsive, and get
cancer? The possibilities are immense and nearly irresistible but no one has
organized them unless Haig and Trivers aren't telling the rest of us their
secrets. There are similar opportunities in the phenomenon of immune
suppression by cortisol, mentioned in Ridley's chapter on stress.
There's an obvious mechanism and pay off but no one has described it yet.
Things not taught in many public schools Ridley brocades facts and stories
like Robert Silvers does images and sometimes attains not only coherence but
also brilliance and passion. Eugenics, free will, genes and environments,
and genomic conflict are four of many photo mosaics. Eugenics: Karl Pearson
told Joshua Wedgwood, "What is social is right, and there is no definition
of right beyond that." The '30s socialists decided to suppress reproductive
options for those of us who just didn't fit in. Sweden sterilized 60,000
people in this cause and the United States, 100,000: Britain, however, did
not because a libertarian hero held the bridge. Wedgwood, whose forebears
collaborated with Darwins and even bred with them, was an MP and appalled by
the broad assumption of power over individuals by the state. He and a few
other libertarians filibustered and tabled 200 pieces of pro-eugenics
legislation against Churchill's and the majority's efforts to pass them.
(There's lots more to this story, I won't spoil it for you.)
Free Will: I spoke in Manhattan in November '99 about reinterpreting "free
will" as the expression of our unique genetic preferences. My small but very
gifted New York audi-ence didn't think I had beat determinism by aligning my
genetic interests with my free will. They were right. Ridley independently
made a similar interpretation about free will when he finished his last
chapter in December. He distinguishes events that are "determined" from
events that are "unpredictable." Find the gap between "determined" and
"unpredictable" and discover freedom. I'm not sure this works either. The
word "free" is a semantic artifact of adolescent defiance. Drop "free will,"
substitute "personal will" and regain consistency with behavior genetics and
with the rest of science. In any case, Ridley uses a quote that Lawrence
Wright (1997) originally got from Lindon Eaves: "Freedom (!) is the ability
to stand up and transcend the limitations of the environment....If you're
going to be pushed around, would you rather be pushed around by your
environment, which is not you, or by your genes, which in some sense is who
you are." (Ridley, p. 313, exclamation added by JB). "Personal will" ought
to work better, even for Eaves' quote. Genes and Environments: Frans De
Waal (2001) can discuss genes and environment without slighting one or the
other; anyone else will take a favorite. Ridley is no exception and handles
the task in his usual manner, aiming a salvo toward environmental
determinism and perhaps the followers of one U.K. biologist who, like the
Vatican, requires 4 initials on his display. Lewontin (2000) has a better
idea: environments only become environments after genes organize them from
settings; organisms and settings together make "constructions."
Similarly, Plomin and others carefully tell us how human genes pick from
environments (Brody, 2001; Plomin et al, 2000; Rowe, 1994, Scarr, 1992).
Turner (2000), Dawkins 1982) and other scholars do likewise for the genes in
other species, including plants, that build modified environments for
individuals and for whole communities. This "active" Darwinism (Popper,
1994; Brody, 1999) complements our traditional understanding of natural
selection. In stable conditions, the features of niches are selected,
amplified, and retained across generations according to the receptor
preferences of their occupants (Turner, 2000; Lewontin, 2000). Ridley
mentions NONE of this literature or very few of the exciting developments in
met-rical genetic traits and quantitative trait loci, physically dispersed
genes that act as a common node to vary a particular behavior trait (Plomin
et al, 2000). Through these in-sights, contemporary behavior genetics has
sharply reduced our need for diseases to make genes interesting. Genomic
Conflict: I am grateful for a quote from William Hamilton on p. 120:
"Seemingly inescapable conflict within diploid organisms came to me both as
a new agonizing challenge and at the same time a release ... My own
conscious and seem-ingly indivisible self was turning out far from what I
had imagined ... I was an ambassador ordered abroad by some fragile
coalition, a bearer of conflicting orders from the un-easy masters of a
divided empire... I am pretending to a unity that, deep inside myself, I now
know does not exist. (Hamilton, 1996, pp. 134-135). There really should be
a Nobel for Hamilton because of this paragraph. As Haig (1997) expressed it,
genes form political organizations that make selfish decisions and lie,
cheat, and steal from one another. Further, we are becoming knowledgeable of
the con-flicts that occur between genes donated from our mother and those
from our father and we sense these conflicts when we notice indecision or
guilt about our daily conduct (Haig, 1999).
However, Ridley split the material on genomic conflict and didn't list it in
his index al-though he listed David Haig. You have to paste some of Chapter
XY (between 6 and 7) to some of Chapter 15: Sex. Genomic conflict could also
have been an element in his chapter on free will. I would have liked GC
better in one segment and as a foundation to human moral conflict, a basis
that we can share with a chimpanzee or with my cat. This step further joins
humans into life's web, that we no longer have a monopoly on obligation or
guilt. Surprises The index is lousy. Furthermore, the notes are organized
by gene number but without mentioning page numbers; the page headings in the
main text are by chapter title, not gene number. In either the index or the
notes, you gotta look around more to find what you want. This seems cheap
and careless in a $26 bestseller that begs for personal cross-referencing.
Further, there are some odd conclusions in Genome. Ridley sketches an
argument that serotonin mediates not assurance but anxiety. This is opposite
the prevailing weight of research whether from humans or from worms. He
links decreases in cholesterol to in-creased aggression and suicide; I've
seen those behaviors tied to the reduced availabil-ity of fats, especially
the omega 3s. He almost resurrects canalization and the Baldwin Effect.
Ridley's Cambrian explosion is dated at 1 billion years ago, about 500
million be-fore the rest of us had ours. And recent discoveries hint that
there was no such thing for any of us. Ridley discounts the Aquatic Ape
theory, that our ontogeny may have fol-lowed a shoreline, but he does it
without mentioning Elaine Morgan or Marc Verhaegen. Finally, our
autobiography as a species may exist but Matt lied, it's not in Genome. We
will have to check the crib notes left in other species before we can put
our own into or-der. Summary Ridley remarked in a "Publishers Weekly"
interview that he wanted to write a book "a mile wide and an inch deep."
Thus, Genome has an Internet style that contrasts with the architectural
prose of Jacob or Lewontin, or of de Waal in his latest book, "The Ape and
the Sushi Master." Genome is about news and can be as fun as a Sunday
Times. You can select news that fits your bias and there's enough in Genome
for anyone to find many points of agree-ment. You can clip what you like,
scribble in red, and ignore the rest, including the stuff that irritates you
because it's in your specialty and you know more than Ridley. Also like the
Times, some of Genome will be out of date before the ink dries. For example,
the estimated size of the human genome plummeted from 100,000 to 32,000
genes, each of which may have 12-14 versions, and proteins have become the
next frontier in emergent biological organizations. The book's structure is
awkward because Ridley forces the interactive net of our genes into a linear
sequence. Emergent products, however, have many paths so that nets loop
forever while, in contrast, trees, books, and human narratives have a start
and a finish. Jacob (1998) used a different model, combinatorial mosaics of
genes that work together and that work through receptors to pick, build, and
modify environments (Lewontin, 2000). These two works form a triangle with
Ridley's, giving his ideas a much-needed, more interactive, structure.
(Also, Time, Love, Memory, Weiner, 2000, is crafted in ar-gument and style
and should be very high on your list, complementing Genome.) Could Genome be
recreated but in a web format? Or in an electronic version that lets the
reader make personal links? (Harper and Collins, are you listening?) Genome
was "...being completed, a few months before the end of a millennium..." (p.
301) and made it to my bookseller in January. Amazing! Further, Genome has
an Amazon sales rank of 7601 and was in their Top 10 for 2000. Even Newt
Gingrich loved Ge-nome in his April review. (De Waal was similarly blessed:
Newt gave copies of Chimpanzee Politics to the freshmen members of Congress
in 1994.) Matt, his publisher, and both of their accountants MUST be smiling
and none of them thinking about his skipping a final editor.
References:
Alcock, J. (2001) The Triumph of Sociobiology. Oxford: London.
Bloom, H. (2000) Global Brain: The Evolution of Mass Mind from the Big Bang
to the 21st Century. NY: Wiley.
Brody, J. (1999) Active Darwinism, free will, and psychotherapy. Paper
presented to the New York Chapter, Association for the Advancement of
Philosophy and Psychia-try, 11/13/99 at St. John the Divine.
---------- (2001) A Cuckoo's Egg in Darwin's Nest?: Active
Genotype-Environment Correlation. Poster presented at the annual meeting of
the Human Behavior and Evolution Society, London, June.
Dawkins, R. (1982) The Extended Phenotype. NY: Oxford.
Dunbar, R. (1996) Grooming, Gossip, and the Evolution of Language.
Cambridge, MA: Harvard.
Haig, D. (1997) The social gene. In J. Krebs & N. Davies (Eds.) Behavioural
Ecology: An Evolutionary Approach, 4th Edition, Oxford, U.K.: Blackwell
Science, pp. 284-306.
---------- (1999) Genetic conflicts and the divided self. A talk given at
Hunter School of Social Work, May 6, 1999. Hamilton, W. (1996) Narrow Roads
of Geneland. Vol. 1: Evolution of Social Behavior. NY: Freeman Spektrum.
Jacob, F. (1998) Of Flies, Mice, and Men. Cambridge, MA: Harvard University
Press.
Lewontin, R. (2000) Triple Helix. Cambridge, MA: Harvard University Press.
Plomin, R., DeFries J, McClearn G, & McGuffin, P. (2000) Behavioral Genetics
(4th ed.) NY: Worth.
Rowe D (1994) The Limits of Family Influence: Genes, Experience, and
Behavior. NY: Guilford.
Scarr, S. (1992) Developmental theories for the 1990s: Development and
individual differences. Child Development. 63, 1-19.
Turner, J. Scott (2000) The extended organism: The physiology of
animal-built structures. Cambridge, MA: Harvard University Press.
de Waal, F. (2001) The Ape and the Sushi Master: Cultural Reflections of a
Primatologist. NY: Basic Books.
Weiner, J. (1999) Time, Love, Memory: A Great Biologist and His Quest for
the Origins of Behavior. NY: Knopf
Wright, L. (1997) Twins: And What They Tell Us about Who We Are. NY:
Wiley.
James Brody is a psychologist in private practice near Philadelphia and
Editor for the Evolutionary Psychology/Clinical Sociobiology Forum on
Behavior.Net.