From: Dmitry Goldgaber <dgoldgaber@mail.psychiatry.sunysb.edu>
To: cypherpunks@toad.com
Message Hash: 4d81c9bdfa7cbc51eee32506cf393d0cd6f9d238f695a6ac9a41d834413405bd
Message ID: <35227461.6C61@mail.psychiatry.sunysb.edu>
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UTC Datetime: 1998-04-01 21:55:00 UTC
Raw Date: Wed, 1 Apr 1998 13:55:00 -0800 (PST)
From: Dmitry Goldgaber <dgoldgaber@mail.psychiatry.sunysb.edu>
Date: Wed, 1 Apr 1998 13:55:00 -0800 (PST)
To: cypherpunks@toad.com
Subject: Cryptography and DNA
Message-ID: <35227461.6C61@mail.psychiatry.sunysb.edu>
MIME-Version: 1.0
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"Chaffing and winnowing in molecular biology"
Ronald L. Rivest's method for hiding information by breaking it in to
packets mixed with other meaningless packets is similar to an approach
which is used in organic systems, at the DNA level.
In our bodies, packets of meaningful information from the DNA used for
encoding protein sequences, called exons, are mixed with meaningless
stretches of DNA, called introns. Certain rules exist for putting
protein coding sequences together which are based on information around
the
intron/exon border.
The analogy between cryptographic techniques and biological
processes at the genetic level are striking. I believe that principles
of protien coding may be useful to the cryptographic community. In
turn,
the principles and methods used by the cryptographic community may
be useful to those who are analysing DNA sequences which are available
and
are becoming available from the Human Genome Project and other non-human
Genome projects.
Dmitry Goldgaber
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1998-04-01 (Wed, 1 Apr 1998 13:55:00 -0800 (PST)) - Cryptography and DNA - Dmitry Goldgaber <dgoldgaber@mail.psychiatry.sunysb.edu>