Publications Prior to 2005
S. K Deo, J. C. Lewis, S. Daunert “Bioluminescence detection of proteolytic
bond cleavage by using recombinant aequorin” Analytical Biochemistry 2000,
281(1), 87-94.
S. K. Deo, S. Daunert “Green fluorescent protein mutant as label in
homogeneous assays for biomolecules” Analytical Biochemistry 2001, 289(1),
52-59.
S. K Deo, J. C. Lewis, S. Daunert “C-terminal and N-terminal fusions of
aequorin with small peptides in immunoassay development” Bioconjugate Chemistry
2001, 12(3), 378-384.
S. K. Deo, S. Daunert “An immunoassay for Leu-enkephalin based on a C-terminal
aequorin-peptide fusion” Analytical Chemistry 2001, 73(8), 1903-1908.
S. K. Deo, S. Daunert “Luminescent proteins from Aequorea victoria: applications
in drug discovery and in high throughput analysis” Fresenius' Journal of Analytical
Chemistry 2001, 369(3-4), 258-266.
M. Mirasoli, S. K. Deo, J. C. Lewis, and S. Daunert “Development and application
of a bioluminescent immunoassay using aequorin as a label” in Bioluminescence and
Chemiluminescence 2001, J. F. Case, P. J. Herring, B. H. Robinson, S. H. D. Haddock,
L. J. Kricka, P. E. Stanley, eds., World Scientific Publishing Company, Singapore,
357-360.
S. K. Deo, J. C. Lewis, and S. Daunert "Bioluminescence detection of proteolytic
bond cleavage by using recombinant aequorin", in “In Luminescence Biotechnology:
Instruments and Applications, ed. K. VanDyke, CRC Press, Boca Raton, Chapter 6, 2001.
S. Shrestha, I. R. Paeng, S. K. Deo, and S. Daunert "Cysteine-Free Mutant of Aequorin
as a Photolabel in Immunoassay Development", Bioconjugate Chemistry 2002, 13(2),
269-275.
U. A. Desai, S. K. Deo, K. V. Hyland, M. Poon, S. Daunert “Determination of
prostacyclin in plasma through a bioluminescent immunoassay for 6-keto-prostaglandin
F1α: Implication of dosage in patients with primary pulmonary hypertension”
Analytical Chemistry 2002, 74(15), 3892-3898.
V. Schauer-Vukasinovic Vesna; S. K. Deo, S. Daunert “Purification method for
recombinant proteins based on a fusion between the target protein and the C-terminus
of calmodulin” Analytical & Bioanalytical Chemistry 2002, 373(6), 501-507.
M. Mirasoli, S. K. Deo, J. C. Lewis, A. Roda, S. Daunert “Bioluminescence immunoassay
for cortisol using recombinant aequorin as a label” Analytical Biochemistry 2002,
306(2), 204-211.
S. K. Deo, P. E. Eisenhardt, E. A. Moschu, S. F. Peteu, L. G. Bachas, M. J. Modu,
S. Daunert “Responsive drug delivery system: New challenges to analytical chemists”
Analytical Chemistry, 2003, 75(9), 206A-213A.
R. S. Shetty, S. K. Deo, P. Shah, Y. Sun, B. P. Rosen, S. Daunert “Luminescence-based
whole-cell-sensing systems for cadmium and lead using genetically engineered bacteria”
Analytical and Bioanalytical Chemistry, 2003, 376(1), 11-17.
E. C. Dikici, S. K. Deo, S. Daunert “Drug detection based on the conformational
changes of calmodulin and the fluorescence of its enhanced green fluorescent protein
fusion partner” Analytica Chimica Acta 2003, 500(1-2), 237-245.
L L. E. Salins, S. K. Deo, S. Daunert “Phosphate binding protein as the biorecognition
element in a biosensor for phosphate” Sensors & Actuators B: Chemical 2004, 97(1),
81-89.
G. Jia, K. Ma, K. Kim, J. V. Zoval, M. J. Madou, S. K. Deo, S. Daunert, R. Peytavi,
M. G. Bergeron “CD (compact disc) -Based DNA Hybridization and Detection” Proceedings
of SPIE International Symposium-Photonics Europe, 26-30April, 2004, Strasbourg, France
S. K. Deo “Exploring bioanalytical applications of assisted reassembly of proteins”
Analytical and Bioanalytical Chemistry, 2004, 379(3), 383-390.
M. Mirasoli, E. Michelini S. K. Deo, E. C. Dikici, A. Roda, S. Daunert “Aequorin
fusion proteins as bioluminescent tracers in competitive immunoassays” Proceedings of
the Society for Optical Engineering, 2004, in press.
E. A. Moschou, B. V. Sharma, S. K. Deo, S. Daunert “Fluorescence Glucose Detection:
Advances Toward the Ideal in vivo Biosensor” Journal of Fluorescence, 2004, 14 (5):
535-547.
R. S. Shetty, S. K. Deo, Y. Liu, S. Daunert “Fluorescence-based sensing system For
copper using genetically engineered living yeast cells” Biotechnology & Bioengineering,
2004, 5;88(5):664-70.