Chemistry Reference
In-Depth Information
BSA
Bovine serum albumin
CV
Coefficient of variation
CR
Cross-reactivity
DMF
N,N-Dimethylformamide
e.g.
Latin: exempli gratia (for example)
d
n
0
t
2
n
g
|
3
EIA
Enzyme immunoassay
ELISA
Enzyme-linked immunosorbent assay
EMIT
Enzyme multiplied immunoassay technique
HRP
Horseradish peroxidase
i.e.
Latin: id est. (that is)
IC50
Concentration that is required for 50% inhibition in vitro
Ig
Immunoglobulin
LC-MS/MS
Liquid chromatography-tandem-mass spectrometry
Mab
Monoclonal antibody
NSB
Non-specific binding
o/n
Over night
OD
Optical density
Pab
Polyclonal antibody
PBS
Phosphate-buffered saline
RIA
Radioimmunoassay
RT
Room temperature, 20 uC
SPE
Solid-phase extraction
TBS
Tris-buffered saline
TMB
3,39,5,59-tetramethylbenzidine
vs.
Latin: versus (against, turned)
References
Bahlmann, A., Weller, M. G., Panne, U. and Schneider, R. J., 2009.
Monitoring carbamazepine in surface and wastewaters by an immunoassay
based on a monoclonal antibody. Analytical and Bioanalytical Chemistry.
395: 1809-1820.
Barone, J. J. and Roberts, H. R., 1996. Caffeine consumption. Food and
Chemical Toxicology. 34: 119-129.
Buerge, I. J., Poiger, T., M ยจ ller, M. D. and Buser, H. R., 2003. Caffeine, an
anthropogenic marker for wastewater contamination of surface waters.
Environmental Science & Technology. 37: 691-700.
Carvalho, J. J., Emmerling, F. and Schneider, R. J., 2007. 7-(5-
Carboxypentyl)-1,3-dimethyl-xanthine monohydrate. Acta
Crystallographica, Section E: Structure Reports Online. 63: O3718-U2211.
Carvalho, J. J., Weller, M. G., Panne, U. and Schneider, R. J., 2010. A highly
sensitive
caffeine
immunoassay
based
on
a
monoclonal
antibody.
Analytical and Bioanalytical Chemistry. 396: 2617-2628.
Carvalho, J. J., 2011. Immunochemical and chromatographic methods for two
anthropogenic markers of contamination in surface waters: caffeine and
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