Paul Henderson, Ph.D.

University of California, Davis
email: phenderson@ucdavis.edu

Grants

Nanolipoproteins to Study Breast Cancer Growth Receptors 2008 (Cycle 14)
IDEA (Innovative, Developmental, and Exploratory Awards) 14IB-0075 $99,000
Role of Oxidative DNA Damage to Breast Tumor Progression 2003 (Cycle IX)
New Investigator 9KB-0179 $588,555


A sample preparation protocol for quantification of radiolabeled nucleoside incorporation into DNA by accelerator mass spectrometry
  Periodical: Science
  Author(s): S Haha, J Mundta, E Ubicka, K Turteltauba, J Gregg, P Henderson
  Yr: 2007 Vol: 259 Nbr: 1 Pgs: 763-766
  Associated Grant: Role of Oxidative DNA Damage to Breast Tumor Progression
 
Measurement of 7,8-dihydro-8-oxo-2'-deoxyguanosine metabolism in MCF-7 cells at low concentrations using accelerator mass spectrometry.
  Periodical: Proceedings of the National Academy of Sciences of the United States of America
  Author(s): Hah SS, Mundt JM, Kim HM, Sumbad RA, Turteltaub KW, Henderson PT
  Yr: 2007 Vol: 104 Nbr: 27 Pgs: 11203-8
  Associated Grant: Role of Oxidative DNA Damage to Breast Tumor Progression
 
Urea Lesion Formation in DNA as a Consequence of 7,8-Dihydro-8-oxoguanine Oxidation and Hydrolysis Provides a Potent Source of Point Mutations
  Periodical: Chemical Research in Toxicology
  Author(s): Henderson PT, Neely WL, Delaney JC, Gu F, Niles JC, Hah SS, Tannenbaum SR, and Essigmann J
  Yr: 2005 Vol: 18 Nbr: Pgs: 12-18
  Associated Grant: Role of Oxidative DNA Damage to Breast Tumor Progression
 
Hydantoin derivative formation from oxidation of 7,8-dihydro-8-oxo-2'-deoxyguanosine (8-oxodG) and incorporation of 14C-labeled 8-oxodG into the DNA of human breast cancer cells.
  Periodical: Bioorganic Medical Chemistry
  Author(s): Hah SS, Kim HM, Sumbad RA, Henderson PT.
  Yr: 2005 Vol: Nbr: 15 Pgs: 3627-31
  Associated Grant: Role of Oxidative DNA Damage to Breast Tumor Progression
 
A protocol for quantitation of radiolabeled nucleoside incorporation into DNA by accelerator mass spectrometry
  Periodical: Nuclear Instrumentation Methods, Physical Research B
  Author(s): Hah SS, Mundt JM, Ubick EA, Turteltaub KW, Gregg JP and Henderson PT
  Yr: 0 Vol: Nbr: Pgs:
  Associated Grant: Role of Oxidative DNA Damage to Breast Tumor Progression