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By three methods we may learn wisdom. First, by reflection, which is
the noblest. Second, by imitation, which is the easiest. Third, by
experience, which is the bitterest. - Confucius (551-478 BCE), Chinese
philosopher

Jean-Baptiste Lamarck

The term Lamarckian genetics is named for French biologist
Jean-Baptiste Lamarck (1744-1829) who proposed a theory of evolution
which stated that evolutionary changes in organisms can be produced by
naturally occurring environmental influences upon the germ-plasm of
individual beings which then get passed on to the offspring.

The organism in question underwent physiological changes in its own
lifetime which came about by responding to its survival needs. This
hypothesis was in sharp contrast to Darwinian hypothesis which
stresses selection of the fittest as the mechanism for the evolution
of species and that evolution is not a need-based phenomenon, ie.,
evolution is random, not directed. Accordingly, the latter-day
geneticists rejected the Lamarckian hypothesis as being incompatible
with cellular mechanisms.

Lamarck proposed his theory based on use and disuse of body parts of
animals. He observed that long legs and webbed feet of wading birds
like the pelican arose when those birds ancestors responded to a need
to feed on Fish. Stretching of legs was required to avoid getting wet.
This trait got passed along over many generations. Likewise,
stretching of toes caused the webbed feet.

Another example is the long neck of the giraffe. The stretching of the
neck to reach leaves of a tree at higher levels not only increased the
length of their necks but also got transmitted to their offspring.

Conversely, disuse of certain body parts would cause them to wither
and disappear which explained how the snakes lost their legs in
comparison to other reptiles. Now one can reconcile with the saying in
Tamil, pambariyum pambin kaal (only a snake is aware of another snakes
legs). Basically, Lamarck argued that function preceded form.

Darwin (1809-1882) accepted the idea of use and disuse. Darwin
observed that the wing bones of domestic duck weighed less and the leg
bones more than do the same bones of the wild duck because the former
flew much less but walked more than its wild parents.

Similarly the development and inheritance of big udders in goats and
cows in countries where they are habitually milked in comparison with
these organs in other countries, is probably another instance of the
effects of use. However, it was not Darwin who killed the Lamarckian
theory of evolution. It is the neo-Darwinists, armed with Mendelian
genetic mechanisms, who rejected Lamarcks ideas for lack of supportive
evidence.

In 1883, German biologist August Weismann developed the germ-plasm
theory of heredity, according to which the bodys material (soma) was
entirely separate from the hereditary material (germ-plasm). By
insisting on the existence of a barrier between soma and germ-plasm,
Weismann eliminated the idea of inheritance of acquired
characteristics from being accepted.

Darwin 

To prove his point, Weismann cut the tails of mice and bred them over
several generations, but not one was born without a tail. He also
argued that circumcision of young boys among Jewish and Islamic faiths
did not result in that characteristic being inherited, i.e., the
offspring were always born with the foreskin in tact.

However, the neo-Lamarckians countered that these two cases were
injuries or mutilations not initiated by the organism and hence do not
qualify for Lamarckian inheritance. Despite the continuing
controversy, the neo-Darwinists carried the day. The current consensus
is that the environment cannot cause hereditary changes.

So, shall we write the obituary of Lamarckian genetics? Let us not
pull the trigger yet. Todays heresy may be tomorrows accepted truth.
Science, just like other disciplines, has its dogmas. Dogma, it is
said, is a fickle mistress in science. The demolition of the central
dogma of molecular biology (DNA--->RNA--> Protein) to account for the
RNA initiated function of viruses is one example of the need for
revision of dogmas. Lamarckian genetics may yet be revived if
biological facts argue for it.

Antibody genes (the bodys protective immune system DNA) have a special
characteristics. Their DNA sequence rearranges from the original
reproductive germline configuration to an everyday somatic
configuration in lymphocytes (a type of white blood cell) for the
production of antibodies by B cells. When B cells respond to
infection, the rearranged antibody genes undergo rapid mutation to
target the attacking species.

Those mutant cells, which produce the most effective antibody, are
then selected by a Darwinian process. Such a process is incompatible
with neo-Darwinism which maintains that evolution occurs only via
random mutation in germ cells followed by natural selection acting on
the living organism that carries the mutation. It is, however,
compatible with a neo-Lamarckian process of feedback to germ cells
from somatic cells.

Epigenetics: This new discipline of genetics refers to the study of
changes in genetic expression that are not linked to changes in DNA
sequences but related to the influence of the environment on the genes
being expressed or not basically, whether a gene is silenced or
activated. There are certain genes in the egg or the sperm which carry
a placard, Dont pay attention to me - in effect, these genes are
silenced. So, without a true genetic change (DNA mutation) one could
experience physiological changes or diseases.

Epigenetic changes are involved in processes such as gene regulation,
development or even cancer. While such changes can be transmitted to
the daughter cells thereby enabling the spreading of cancer, it is
generally recognised that such changes are normally erased when the
germ cells, which give rise to the next generation, are formed. In
rare instances such erasures do not happen.

Scientists in Australia and Scotland found a few years ago in an
inbred strain of mice (which are all genetically identical and so
should look exactly the same) the coat colours varied wildly, ranging
from yellow to mottled (spots or blotches of different colors) with
every combination in-between.

The coat colours were pretty much dependent upon the mothers coat
color very much in violation of the Mendelian principle (which states
that traits are randomly distributed during reproduction). It is
likely that the epigenetic gene regulation of the coat colour gets
transferred from the mother through the germ line to the offspring.

While Darwin agreed with Lamarck that the inheritance of acquired
characteristics played a role in evolution, Darwin stressed that
natural selection of genetic alterations, rather than some inner
striving, drives adaptive changes. Lamarck proposed that evolution was
driven by an organisms inner need to adapt to its environment. While
the issue is not completely decided, research developments in the
field of epigenetics are bound to keep the discussion alive for years
to come.

National poet Mahakavi Subramanya Bharathi, while arguing for an
egalitarian society, wrote:

vellai niraththoru punai -- engal vittil valaruthu kandir
pillaigal perrathap punai -- avai perukkoru niramagum

sambal niramoru kutti -- karun santhu niramoru kutti
pambu niramoru kutti -- vellaip paalin niramoru kutti

entha niramirunthalum -- avai yavum oretharamanro
intha niram cirithenrum -- ihdha erramenrum sollalamo?

(Meaning: A white cat can bring forth pups of various colours from
white to gray to black and brown but whatever be the colour, the pups
are all equal and one cannot say one is superior to the other.)

Bharathi was pretty much unwittingly echoing the principle of
epigenetics here, viz., there is no real genetic difference between
the pups although they were of different colours.