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Neurological
Basis of Behavior (PSY -
610)
VU
LESSON
10
GENES
AND EXPERIENCE
Objective:
·
To
understand the Brain behaviour relationships from the perspectives of biological
systems.
In
this section of the module the students would go through and understand
Biological systems- their
genetic
basis and similarities with other animals. Mendelian Genetics. Where is the
genetic
programming
of behaviour ( if any) Watson Crick Model. What are the similarities and
differences
between
species, progenies of higher order animals, including homosapien? How much do
genes
contribute
to behavior: The discipline of Behavior genetics?
Genetic
Basis of behavior
Genes
not act directly on behaviour, but on the proteins/aminoacids which are
responsible for
the
structure and metabolism of the organism.
Behavior
geneticist and studies in this area agree that a) environment and experience
are
important
as they interact with genetic material. The researcher try to pinpoint how much
of
each
contribute to behavior. b) a single gene at a single location cannot lead to one
behaviour.
Behavior
is the sum total of different genes at different loci. It is not an all or
none
characteristics.
It is always a combination of different genes, polygenic
systems.
Experimental
Studies: Genetic Manipulation
There
have been experimental studies which manipulate genes using artificial selection
and other
conditions
in animals reared in labs. This is done because the environmental conditions in
the laboratory
are
held constant (temperature, day/night cycle , food and the social
environment),selection of specific
traits
of interest which can be followed up, and animals with those characteristics
mated and progenies (
offspring
) followed up and tested for behavioral as well as other
characteristics.
How
do the behavioural geneticists measure and test behaviour of interest in the
laboratory animals. The
characteristics
of interest are taken and animals tested and their scores/ performance looked at
carefully.
Then
animals scoring on both extremes separated form the group that is the High and
Low scorers taken
and
separated. Then low scorer females and low scorer males mated. The same
procedure was carried
out
for the high scorers. The progenies were then developed into two separate
populations by repeated
selective
testing and mating. This has been done as early as in the
1930's.
Tryon
( 1934) carried out an experiment at the University of Berkley where he bred
maze bright ( who
did
extremely well on maze tests) and maze dull( those who made a lot of errors in
maze) rats for 21
generations.
By the 8th generation no overlap in two he found that there was no overlap in
the two
populations.
The question that it could be possibly due to rearing as bright mothers were
rearing bright
offspring.
This was ruled out as he designed an experimental cross fostering design in
which the maze
bright
offspring were reared by maze dull parents; they still made significantly less
errors. Similarly,
using
the same cross fostering procedure he had dull rats reared by bright rats. Since
then many
behaviors
such as open field activity, alcohol and morphine preference has been identified
using such
designs.
However we must remember that behaviour is complex, and has multiple variables.
There is
not
just one single gene for maze running, (there are a lot of cues involved).
Further, Searle (1949)
reported
that in comparing two groups, he conducted 30 different tests on the maze bright
and maze
dull.
He reports that maze bright rats were superior in performance and less
emotional, therefore the
better
learner may learn because there is more emotional stability not because they are
more intelligent!
34
Neurological
Basis of Behavior (PSY -
610)
VU
Are
there any Environment effects? Cooper and Zubeck ( 1958) raised the maze
bright/dull rats in three
different
environments a) impoverished( cage made from wire netting with groups living),
b)
stimulating
and enriched housing with wire netting, group housing but it had toys, ramps for
animals to
play
with. His findings showed that the maze dull rats perform similar to the maze
bright if reared in
stimulating
environment. Bennett, Diamond, Krech and Rozenweig (1964) found that rats in
richer
environment
have thicker cortices! This means that their brain development is affected by
early
stimulation
(more on this later in the chapter on brain development)
The
foremost names in the field of genetics and behaviour are Theodosius Dobzhansky
and Seymour
Benzer.
Their work on Drosophilia (fruitfly) is pioneering work. They took a genetically
heterogenous
population
and through selective breeding created new breeds to show that behaviour
genetically linked.
A
lot of work was needed to identify which behaviours were linked to which genes
and were located on
which
chromosome! Further, constant selection was to be maintained or genetic pool
could be broken
into,
genes may get re-assorted and effort gone waste (and behaviour under observation
may get lost). It
could
be a simple careless mistake of a stray fly getting into the experimental
breeding cage.
In
Dobzhansky and Benzer's experiments, the gene material was also changed through
radiation and bio
engineering
manipulations. They developed mutants who were sluggish (slow movers)
hyperkinetic
(very
fast movers, who died soon as they consumed more oxygen and body metabolism
faster) non
climbers
(those who could not climb against gravity), easily shocked (goes into seizure)
negatively
phototactic
(those who move away from light source- normal flies move towards
light).
Similarly
dogs were identified for characteristics by John Paul scott in his laboratory in
bar harbor
Maine.
The breed beagle (snoopy dog of the cartoons) became the model for
hyperactivity.
Mouse
strains were identified and bred for different characteristics; aggressive
behaviors, alcoholics vs.
nonalcoholic,
hoarders vs. non-hoarders, emotionality (defecate in a novel situation),
waltzing mice
(inner
ear defect). All of this is a consequence of in breeding
In
breeding
Simply
defined this is repeatedly using the same gene pool which leads to expression of
recessive genes
which
may carry both behavioural and physical defects.
In
a study Theisen (1972) reports that the death rate in children below 10 years of
age is 24 per 1000 in
normal
population. In interrelated marriages it rises to 81 per 1000. In closer
marriages the rate rises
even
more. There are other more serious effects such as physically less capable,
weaker and age when
they
walked and talked was much later than normals. This showed developmental lags.
Other deficits
that
Theisen (1972) reports are lower Intelligence scores, with lower verbal scores,
and language scores
were
even lower than normals.
In
summary, it is well documented that if the gene pool is reduced more recessive
disorders show up.
Larger
gene pools lead to a healthier and longer surviving offspring which can compete
in a wide range
of
environments.
References:
1.
Kalat J.W (1998) Biological
Psychology Brooks/ Cole
Publishing
2.
Carlson N.R. (2005) Foundations of
Physiological Psychology Allyn and Bacon,
Boston
3.
Pinel, John P.J. (2003)
Biopsychology (5th edition) Allyn and Bacon
Singapore
4
Bloom F, Nelson and Lazerson (2001),
Behavioral Neuroscience: Brain, Mind and
Behaviors (3rd
edition)
Worth Publishers New
York
5.
Bridgeman,B (1988)The Biology of
Behaviour and Mind. John Wiley
and Sons New
York
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