Biomedical Engineering Reference
In-Depth Information
91. Rajendran, M. & Ellington, A.D. (2002) Selecting nucleic acids for biosensor applications
Combinatorial Chemistry & High Throughput Screening
5:263-270.
92. Sackmann, E. (1996) Supported membranes: Scientific and practical applications
Science
271:43-48.
93. Saleh, O.A. & Sohn, L.L. (2003) Direct detection of antibody-antigen binding using an
on-chip artificial pore
Proc. Natl. Acad. Sci. U. S. A.
100:820-824.
94. Schurer, H. et al. (2001) Aptamers that bind to the antibiotic moenomycin A
Bioorganic &
Medicinal Chemistry
9:2557-2563.
95. Sen, D. & Gilbert, W. (1988) Formation of parallel four-stranded complexes by guanine-rich
motifs in DNA and its implications for meiosis
Nature
334:364-366.
96. Sen, D. & Gilbert, W. (1990) A sodium-potassium switch in the formation of four-stranded
G4-DNA
Nature
344:410-414.
97. Sexton, L.T., Horne, L.P., Sherrill, S.A., Bishop, G.W., Baker, L.A. & Martin, C.R. (2007)
Resistive-pulse studies of proteins and protein/antibody complexes using a conical nanotube
sensor
Journal of the American Chemical Society
129:13144-13152.
98. Shim, J.W. & Gu, L.Q. (2007) Stochastic sensing on a modular chip containing a single-ion
channel
Anal. Chem.
79:2207-2213.
99. Shim, J.W. & Gu, L.Q. (2008) Encapsulating a single G-quadruplex aptamer in a protein
nanocavity
J Phys Chem B
112:8354-8360.
100. Shim, J.W., Tan, Q. & Gu, L.Q. (2009) Single-molecule detection of folding and unfolding of
a single G-quadruplex aptamer
in a nanopore nanocavity
Nucleic Acids Research
37:972-982.
101. Simonsson, T. (2001) G-quadruplex DNA structures - Variations on a theme
Biological
Chemistry
382:621-628.
102. Siwy, Z. et al. (2002) Rectification and voltage gating of ion currents in a nanofabricated pore
Europhysics Letters
60:349-355.
103. Siwy, Z., Trofin, L., Kohli, P., Baker, L.A., Trautmann, C. & Martin, C.R. (2005) Protein
biosensors based on biofunctionalized conical gold nanotubes
Journal of the American
Chemical Society
127:5000-5001.
104. Song, L.Z., Hobaugh, M.R., Shustak, C., Cheley, S., Bayley, H. & Gouaux, J.E. (1996)
Structure of staphylococcal alpha-hemolysin, a heptameric transmembrane pore
Science
274:1859-1866.
105. Stadtherr, K., Wolf, H. & Lindner, P. (2005) An aptamer-based protein biochip
Analytical
Chemistry
77:3437-3443.
106. Sun, L.Q., Cairns, M.J., Saravolac, E.G., Baker, A. & Gerlach, W.L. (2000) Catalytic nucleic
acids: From lab to applications
Pharmacological Reviews
52:325-347.
107. Tang, Z.W. et al. (2007) Selection of aptamers for molecular recognition and characterization
of cancer cells
Anal. Chem.
79:4900-4907.
108. Tereshko, V., Skripkin, E. & Patel, D.J. (2003) Encapsulating streptomycin within a small
40-mer RNA
Chemistry & Biology
10:175-187.
109. Tombelli, S., Minunni, M. & Mascini, M. (2005) Analytical applications of aptamers
Biosens. Bioelectron.
20:2424-2434.
110. Tuerk, C. & Gold, L. (1990) Systematic Evolution of Ligands by Exponential Enrichment -
Rna Ligands to Bacteriophage-T4 Dna-Polymerase
Science
249:505-510.
111. Uram, J.D., Ke, K., Hunt, A.J. & Mayer, M. (2006) Label-free affinity assays by rapid
detection of
immune complexes
in submicrometer pores
Angew. Chem.
Int. Ed.
45:2281-2285.
112. Vercoutere, W., Winters-Hilt, S., Olsen, H., Deamer, D., Haussler, D. & Akeson, M. (2001)
Rapid discrimination among individual DNA hairpin molecules at single-nucleotide resolu-
tion using an ion channel
Nature Biotechnology
19:248-252.
113. Wang, H., Dunning, J.E., Huang, A.P., Nyamwanda, J.A. & Branton, D. (2004) DNA
heterogeneity and phosphorylation unveiled by single-molecule electrophoresis
Proc. Natl.
Acad. Sci. U. S. A.
101:13472-13477.
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