Biomedical Engineering Reference
In-Depth Information
91. Wang Y, Irudayaraj J (2011) A SERS DNAzyme biosensor for lead ion detection. Chem
Commun 47:4394-4396
92. Li J, Lu Y (2000) A highly sensitive and selective catalytic DNA biosensor for lead ions. J
Am Chem Soc 122:10466-10467
93. Liu J, Brown AK, Meng X, Cropek DM, Istok JD, Watson DB, Lu Y (2007) A catalytic
beacon sensor for uranium with parts-per-trillion sensitivity and millionfold selectivity. Proc
Natl Acad Sci U S A 104:2056-2061
94. Liu J, Lu Y (2007) Rational design of “turn-on” allosteric DNAzyme catalytic beacons
for aqueous mercury ions with ultrahigh sensitivity and selectivity. Angew Chem Int Ed
46:7587-7590
95. Liu J, Lu Y (2007) A DNAzyme catalytic beacon sensor for paramagnetic Cu
2C
ions in
aqueous solution with high sensitivity and selectivity. J Am Chem Soc 129:9838-9839
96. Zhang X, Wang Z, Xing H, Xiang Y, Lu Y (2010) Catalytic and molecular beacons for
amplified detection of metal ions and organic molecules with high sensitivity. Anal Chem
82:5005-5011
97. Xu W, Lu Y (2010) Label-free fluorescent aptamer sensor based on regulation of malachite
green fluorescence. Anal Chem 82:574-578
98. Xiang Y, Tong A, Lu Y (2009) Abasic site-containing DNAzyme and aptamer for label-free
fluorescent detection of Pb
2C
and adenosine with high sensitivity, selectivity, and tunable
dynamic range. J Am Chem Soc 131:15352-15357
99. Huang CC, Chang HT (2008) Aptamer-based fluorescence sensor for rapid detection of
potassium ions in urine. Chem Commun: 1461-1463
100. Nutiu R, Li Y (2005) A DNA-protein nanoengine for “on-demand” release and precise
delivery of molecules. Angew Chem Int Ed 44:5464-5467
101. Nutiu
R,
Li
Y
(2003)
Structure-switching
signaling
aptamers.
J
Am
Chem
Soc
125:4771-4778
102. Medintz IL, Uyeda HT, Goldman ER, Mattoussi H (2005) Quantum dot bioconjugates for
imaging, labelling and sensing. Nat Mater 4:435-446
103. Gao XH, Yang LL, Petros JA, Marshal FF, Simons JW, Nie S (2005) In vivo molecular and
cellular imaging with quantum dots. Curr Opin Biotechnol 16:63-72
104. Medintz IL, Clapp AR, Mattoussi H, Goldman ER, Fisher B, Mauro JM (2003) Self-
assembled nanoscale biosensors based on quantum dot FRET donors. Nat Mater 2:630-638
105. Medintz IL, Clapp AR, Brunel FM, Tiefenbrunn T, Uyeda HT, Chang EL, Deschamps JR,
Dawson PE, Mattoussi H (2006) Proteolytic activity monitored by fluorescence resonance
energy transfer through quantum-dot-peptide conjugates. Nat Mater 5:581-589
106. Shi LF, De Paoli V, Rosenzweig N, Rosenzweig Z (2006) Synthesis and application of
quantum dots FRET-based protease sensors. J Am Chem Soc 128:10378-10379
107. Zhang CY, Yeh HC, Kuroki MT, Wang TH (2005) Single-quantum-dot-based DNA nanosen-
sor. Nat Mater 4:826-831
108. Peng H, Zhang L, Kjallman THM, Soeller C, Travas-Sejdic J (2007) DNA hybridization
detection with blue luminescent quantum dots and dye-labeled single-stranded DNA. J Am
Chem Soc 129:3048-3049
109. Yuan J, Guo W, Yang X, Wang E (2009) Anticancer drug-DNA interactions measured using a
photoinduced electron-transfer mechanism based on luminescent quantum dots. Anal Chem
81:362-368
110. Levy M, Cater SF, Ellington AD (2005) Quantum-dot aptamer beacons for the detection of
proteins. Chembiochem 6:2163-2166
111. Choi JH, Chen KH, Strano MS (2006) Aptamer-capped nanocrystal quantum dots: a new
method for label-free protein detection. J Am Chem Soc 128:15584-15585
112. Liu J, Lee JH, Lu Y (2007) Quantum dot encoding of aptamer-linked nanostructures for one-
pot simultaneous detection of multiple analytes. Anal Chem 79:4120-4125
113. Wu CS, Oo MKK, Fan X (2010) Highly sensitive multiplexed heavy metal detection using
quantum-dot-labeled DNAzymes. ACS Nano 4:5897-5904
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