Publications
spectrometry (9 POSTS)
2024 (1 POST)
An integrated approach to evaluating water contaminants and evaporation in agricultural water distribution systems
Fender CL, Good SP, Garcia-Jaramillo. 2024. An integrated approach to evaluating water contaminants and evaporation in agricultural water distribution systems. Ecotoxicol Environ Safety 287(15 Nov):117277; doi: 10.1016/j.ecoenv.2024.117277. PMID: 39515202.
View Abstract2014 (1 POST)
DNA isolation and sample preparation for quantification of adduct levels by accelerator mass spectrometry
Dingley KH, Ubick EA, Vogel JS, Ognibene TJ, Malfatti MA, Kulp K, Haack KW. 2014. DNA isolation and sample preparation for quantification of adduct levels by accelerator mass spectrometry. Methods Mol Biol 1105:147–157; doi: 10.1007/978-1-62703-739-6_12. PMID: 24623226.
View Abstract2006 (2 POSTS)
Accelerator mass spectrometry allows for cellular quantification of doxorubicin at femtomolar concentrations
Degregorio MW, Dingley KH, Wurz GT, Ubick E, Turteltaub KW. 2006. Accelerator mass spectrometry allows for cellular quantification of doxorubicin at femtomolar concentrations. Cancer Chemother Pharmacol 57(3):335-342; doi: 10.1007/s00280-005-0060-1. PMID: 16047147.
View AbstractA novel 14C-postlabeling assay using accelerator mass spectrometry for the detection of O6-methyldeoxy-guanosine adducts
Tompkins EM, Farmer PB, Lamb JH, Jukes R, Dingley K, Ubick E, et al. 2006. A novel 14C-postlabeling assay using accelerator mass spectrometry for the detection of O6-methyldeoxy-guanosine adducts. Rapid Commun Mass Spectrom 20(5):883–891; doi: 10.1002/rcm.2370. PMID: 16470516.
View Abstract2005 (2 POSTS)
Determination of the tissue distribution and excretion by accelerator mass spectrometry of the nonadecapeptide 14C-Moli1901 in beagle dogs after intratracheal instillation
Rickert DE, Dingley K, Ubick E, Dix KJ, Molina L. 2005. Determination of the tissue distribution and excretion by accelerator mass spectrometry of the nonadecapeptide 14C-Moli1901 in beagle dogs after intratracheal instillation. Chem Biol Interact 155(1–2):55–61; doi: 10.1016/j.cbi.2005.04.002. PMID: 15893299.
View AbstractAccelerator mass spectrometry for biomedical research
Brown K, Dingley KH, Turteltaub KW. 2005. Accelerator mass spectrometry for biomedical research. Methods Enzymol 402:423–443; doi: 10.1016/S0076-6879(05)02014-8. PMID: 16401518.
View Abstract2003 (1 POST)
Tamoxifen DNA damage detected in human endometrium using the ultra sensitive technique of accelerator mass spectrometry
Martin EA, Gaskell M, Al-Azzawi F, Garner RC, Brown K, Boocock DJ, Mattock E, Pring DW, Dingley K, et al. 2003. Tamoxifen DNA damage detected in human endometrium using the ultra sensitive technique of accelerator mass spectrometry. Cancer Res 63(23):8461–8465. PMID: 14679010.
View Abstract2002 (1 POST)
Use of tritium accelerator mass spectrometry for tree ring analysis
Love AH, Hunt JR, Roberts ML, Southon JR, Chiarappa-Zucca ML, Dingley KH. 2002. Use of tritium accelerator mass spectrometry for tree ring analysis. Environ Sci Technol 36(13):2848–2852; doi: 10.1021/es015837o. PMID: 12144257.
View Abstract1995 (1 POST)
Detecting and identifying volatile aldehydes as dinitrophenylhydrazones using gas chromatography mass spectrometry
Thomas MJ, Robison TW, Samuel M, Forman HJ. 1995. Detecting and identifying volatile aldehydes as dinitrophenylhydrazones using gas chromatography mass spectrometry. Free Rad Biol Med 18(3):553-557; doi: 10.1016/0891-5849(94)e0121-x.
View Abstract