Biomedical Engineering Reference
In-Depth Information
Shin, J. S., & Pierce N. A. (2004). A synthetic DNA
walker for molecular transport.
Journal of the
American Chemical Society
, 126, 10834-10835.
Alon, U. (2007). Simplicity in biology.
Nature
,
446, 497.
Brent, R., & Bruck, J. (2006). Can computers help
to explain biology?.
Nature
, 440, 416-417.
Simmel, F. C., & Dittmer, W. U. (2005). DNA
nanodevices.
Small
, 1, 284-299.
Dirks, R. M., Lin, M., Winfree, E., & Pierce, N. A.
(2004). Paradigms for computational nucleic acid
design.
Nucleic Acids Research
, 32, 1392-1403.
Stelling, J., Sauer, U., Szallasi, Z., Doyle III, F., &
Doyle, J. (2004). Robustness of cellular functions.
Cell
, 118, 675-685.
Foster, I. (2006). A two-way street to scienceĀ“s
future.
Nature
, 440, 419.
Stojanovic, M. N., & Kolspashchikov, D. M.
(2004). Modular aptameric sensors.
Journal of the
American Chemical Society
, 126, 9266-9270.
Freitas, R. A. Jr. (2005). Current status of nano-
medicine and medical nanorobotics.
Journal of
Computational and Theoretical Nanoscience
,
2, 1-25.
Stojanovic, M. N., & Stefanovic, D. (2003). A
deoxyribozyme-based molecular automaton.
Nature Biotechnology
, 21, 1069-1074.
Gibbs, W. W. (2004). Synthetic life.
Scientific
American
, 290, 74-81.
Takahashi, K., Yaegashi, S., Kameda, A., &
Hagiya., M. (2005).
Chain reaction systems based
on loop dissociation of DNA
. Paper presented at
the DNA 11, Eleventh International Meeting on
DNA Based Computers, Preliminary Proceedings,
London, Ontario, Canada.
Green, S. J., Lubrich, D., & Tuberfield, A. J. (2006).
DNA hairpins: fuel for autonomous DNA devices.
Biophysical Journal
, 91, 2966-2975.
Klipp, E., Herwig, R., Kowald, A., Wierling, C.,
& Lehrach, H. (2005).
Systems biology in prac-
tice. Concepts, implementation, and application
.
Weinheim: Wiley-VCH.
Weiss, R., & Basu, S. (2002)
The device physics
of cellular logic gates. First Workshop on Non-
Silicon Computing
. Boston, MA.
Mao, C., Labean, T. H., Reif, J. H., & Seeman, N.
C. (2000). Logical computation using algorithmic
self-assembly of DNA triple-crossover molecules.
Nature
, 407, 493-496.
Weiss, R., Basu, S., Hooshangi, S., Kalmbach, A.,
Karig, D., Mehreja, R., & Netravali, I. (2003).
Genetic circuit building blocks for cellular com-
putation, communications, and signal processing.
Natural Computing
, 2, 47-84.
Paun, G., Rozenberg, G., & Salomaa, A. (1998).
DNA computing, new computing paradigms
.
Berlin, Springer.
Yurke, B., Turberfield, A. J., Mills, Jr A. P., Sim-
mel, F. C., & Neumann J. L. (2000). A DNA-fu-
elled molecular machine made of DNA.
Nature
,
406, 605-608.
Strogatz, S. (2000).
Nonlinear dynamics and
chaos: with applications to physics, biology,
chemistry and engineering
. Reading, MA: Per-
seus Publishing.
ADDITIONAL READING
Szallasi, Z., Stelling, J., & Periwal, V. (Eds.).
(2006).
System modeling in cellular biology: from
concepts to nuts and bolts
. Cambridge, MA: The
MIT Press.
Alberts, B., Johnson, A., Lewis, J., Raff, M., Rob-
erts, K., & Walter, P. (2002).
Molecular biology
of the cell
. New York: Garland.
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