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Transcript
Legend
Sg = Signal,
Implementation of Binary Gene Expression in a Single
Cell System
-An extension based on Stephen’s Non-binary model with modifications
Tr = Triger,
-The dotted box represents one repeating unit of
the binary series
B = Bit recording
gene
-Initially, everything is inactive
-B1 is Bit recording gene 1 instead of Bacteria 1,
since we are using a single cell system
B1
On0
Tr0
Sg0
Off
On1
Tr1
SG1
Legend
Pic 1
Sg = Signal,
Tr = Triger,
-First pulse of Sigal0 comes in
B = Bit recording
gene
-Activates On0, On1, Tr0, B1
-Tr1 can’t do anything yet, same idea as
Stephen’s Prime 2 and On2 operation.
Sg0
B1
B1
On0
Tr0
Sg0
Off
On1
Tr1
SG1
Legend
Pic 2
Sg = Signal,
Tr = Triger,
-After a little while, On0, On1 degrade
B = Bit recording
gene
-Tr0 remains B1 ON
Sg0
B1
B1
On0
Tr0
Sg0
Off
On1
Tr1
SG1
Legend
Pic 3
Sg = Signal,
Tr = Triger,
-Second pulse of Sg0 comes in
B = Bit recording
gene
-Turns on Tr1 this time. Although ON0* and
TR1* inhibits and induces the Off gene at the
same time, the inducer overrides the effect of
inhibitor via forming inducer-inhibitor
complexes
Sg0
B1
B1
-Off is active
-B1 and Tr0 turned off
On0
-The signal of B1 going from ON to OFF is sent
to next repeating unit by SG1
Tr0
Sg0
Off
On1
Tr1
SG1
Legend
Pic 4
Sg = Signal,
Tr = Triger,
-Only Off gene is active, keeping B1 OFF until
next Sg0 arrives
B = Bit recording
gene
Sg0
B1
B1
On0
Tr0
Sg0
Off
On1
Tr1
SG1
Legend
Pic 5
Sg = Signal,
Tr = Triger,
-Third Sg0 inpulse comes
B = Bit recording
gene
-Off is inhibited by ON0*
-But there is no TR1* activation, we get back to
the same state as the picture 1
Sg0
B1
B1
On0
Tr0
Sg0
Off
On1
Tr1
SG1
Legend
Sg = Signal,
B2 works the same as B1
Tr = Triger,
-Remember in Pic 3, SG1 is passed onto the
next unit
B = Bit recording
gene
-Pulse diagram on left shows what has happened
up to Pic 3.
Sg0
B2
B1
SG1
B2
On0’
Tr0’
-Off course the set of genes of On0’, On1’, etc
need to be a different set of genes, however, in a
Multi-Cell system, these genes can be the
SAME because bacteria cell wall keeps these
gene products internally so that they won’t be
mixed up, only the Signaling gene need to be
different. Thus different bacteria types can have
almost identical genes. This could be a plausible
property of a Multi Cell system.
SG1
Off’
On1’
Tr1’
SG2
Legend
Sg0
Sg = Signal,
B1
Tr = Triger,
B2
-After another two cycles of Sg0, B2 will do
what B1 does in Pic 3, i.e. outputing SG2 to B3,
and things continue on..
B = Bit recording
gene
B2
On0’
-By looking at the pulse diagram, B1 finishes
one cycle with 2 Sg0 pulses, B2 undergoes one
cycle with 4 Sg0 pulses, B3 will complete a
cycle with 8 pulses … so the clock will be going
in a binary logarithmic fashion
Tr0’
SG1
Off’
On1’
Tr1’
SG2