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Transcript
Dimensions in Silicon and in Biology
red blood cell
~5 m (SEM)
DNA
proteins
nm
Simple
molecules
<1nm
diatom
30 m
bacteria
1 m
10-10
10-9
10-8
10-7
10-6
m
10-5
10-4
10-3
10-2
SOI transistor
width 0.12m
semiconductor
nanocrystal (CdSe)
Nanometer memory element
5nm
(Lieber)
1012 bits/cm2 (1Tbit/cm2)
control biological machines
Circuit design
Copper wiring
width 0.2m
IBM PowerPC 750TM
Microprocessor
7.56mm×8.799mm
6.35×106 transistors
Biological machines
•
•
•
•
Compute (DNA)
– Input/Output
– Energetically efficient
– High data density
– Error correction
Self replication
Fabrication (synthesis) and breakdown
All processes highly efficient
How to take advantage of Nature’s engineering?
Controlling Biology
Inside E.Coli
M. Hoppert et al, American Scientist, 2001
Goals:
• Control biological activity
– external
– reversible
– on molecular scale (selective)
– direct
– in vitro/ in vivo
– universal
Interfacing to biology
biomolecule
RFMF
active site
Au nanocrystal
“1”
•
•
“0”
metal nanocrystal as antennas
– inductively heat the nanocrystal to heat biomolecule
– induce conformational change
Universality:
– Biomolecules denature with heat
– Structure: function correlation
Induction Heating
Magnetic field
Inductively heat solution
of gold nanocrystals
Ameritherm, Inc.
alternating current i
frequency f
Induced current
in metal
Metal piece
•
•
Alternating magnetic field induces alternating eddy currents
in metal samples
For nm particles:
– f=1GHz (radiofrequency 109/s):
– Radiofrequency magnetic field: RFMF
Controlled systems
Molecular Machines group
Hamad-Schifferli, et al
DNA double stranded
DNA single stranded
+
Protein assembled:
active
Protein disassembled
into subunits: inactive
Zhang group
Shi, et al
Biomolecular Machines
•
Manufacturing and assembly:
Polymerases, ligases, synthetases, ribosomes, ATP synthase, RNA
ribozymes, telomerases,
•
Breakdown:
Proteases, nucleases, hydrolases, glycosidases, protesome, ATPases,
ribozymes, DNAzymes.
•
Conversion:
Isomerases, dehydrogenases, protein kinases, phosphatases, transposases,
oxidases, reductases, splicesome, chaperonin, transferases, deaminases.
•
Transport:
Hemoglobin, ion and amino acid transport proteins, nuclear receptors.
•
Signal transmission:
G-proteins, membrane ion channels, NMDA and other neurotransmitter
receptors.
•
Structural Organization:
Histones/nucleosomes, collagens, keratins, actin, tubulin filaments,
neurofilaments, dentin and other matrix proteins.
•
Binding receptors:
Antibodies, repressors, activators and other ion binding proteins.
Control of expression: antisense
transcription
DNA
polymerase
RNA
translation
ribosome
protein
protein
antisense strand
with Au
ribosome
AUG
AUG
mRNA
protein
no protein
RFMF
antisense strand
(DNA 15-20mer)
+
AUG
no protein
protein
Antisense in cells
antisense
1.) Transfection:
Electroporate
Chemically induced
peptide mediated
GFP
2.) RFMF
Protein expressed
3.) detection: GFP (Green
Fluorescent Protein)
Protein not expressed
RFMF
Protein expressed