|1.||Sowers, Lawrence C: 3 articles (04/2010 - 06/2008)|
|2.||Kim, Cherine H: 2 articles (04/2010 - 08/2009)|
|3.||Theruvathu, Jacob A: 2 articles (04/2010 - 08/2009)|
|4.||Byun, Jaeman: 2 articles (02/2006 - 06/2003)|
|5.||Takeshita, Junko: 2 articles (02/2006 - 06/2003)|
|6.||Heinecke, Jay W: 2 articles (02/2006 - 06/2003)|
|7.||Cież, Dariusz: 1 article (06/2015)|
|8.||Pałasz, Aleksandra: 1 article (06/2015)|
|9.||Herring, Jason L: 1 article (04/2010)|
|10.||Darwanto, Agus: 1 article (04/2010)|
08/11/2009 - "In this paper, we have constructed oligonucleotides containing 5-chlorouracil (ClU), one of the known inflammation damage products. "
08/29/2003 - "5-Chlorouracil, a marker of DNA damage from hypochlorous acid during inflammation. "
04/19/2010 - "Inflammation-mediated hypochlorous acid (HOCl) can damage DNA, DNA precursors, and other biological molecules, thereby producing an array of damage products such as 5-chlorouracil (ClU). "
06/01/2008 - "Inflammation-mediated, neutrophil-derived hypochlorous acid can damage DNA and result in the chlorination damage products 5-chlorocytosine and 5-chlorouracil as well as the oxidation damage products 5-hydroxycytosine and 5-hydroxyuracil. "
06/27/2003 - "Because 5-chlorouracil and 5-bromouracil can be incorporated into nuclear DNA, and these thymine analogs are well known mutagens, our observations raise the possibility that halogenation reactions initiated by phagocytes provide one pathway for mutagenesis and cytotoxicity at sites of inflammation."
02/10/2006 - "The level of 5-chlorouracil was 10-fold higher in atherosclerotic aortic tissue obtained during vascular surgery than in normal aortic tissue, suggesting that halogenated nucleobases produced by macrophages might contribute to atherogenesis. "
02/10/2006 - "Because 5-chlorouracil can be incorporated into nuclear DNA, our observations raise the possibility that halogenation reactions initiated by phagocytes provide one pathway for mutagenesis, phenotypic modulation, and cytotoxicity during atherogenesis."
06/05/2015 - "Their antiviral potential is based on the inhibition of key step in viral replication pathway resulting in potent activities against HIV, hepatitis B and C, the herpes viruses etc. Uracil derivatives such as 5-fluorouracil or 5-chlorouracil were the first pharmacological active derivatives to be generated. "
|3.||Hypochlorous Acid (Hypochlorite)
|4.||DNA (Deoxyribonucleic Acid)
|9.||Bromouracil (5 Bromouracil)