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M. G. Klotz, P. S. G. Chain, A. F. El Sheikh, L. R. Hauser, S. G. Hommes, F. W. Lariomer, S. A. Malfatti, J. M. Norton, A. T. Poret-Peterson, L. M. Vergez and B. B. Ward, “Complete Genome Sequence of Marine Chemolithoautotrphic Amm-OX Bacterium Nitrosococcus oceani,” Applied and Environmental Microbiology, Vol. 72, 2006, pp. 6299-6315. doi:10.1128/AEM.00463-06

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• TITLE: Role of Nitrite in Tumor Growth, Symbiogenetic Evolution of Cancer Cells, and China’s Successes in the War against Cancer

  AUTHORS: Kenneth J. Hsu, Chao S. Huangfu, Min Z. Qin

  KEYWORDS: Nitrite, Tomor, Symbiogenetic Evolution

  JOURNAL NAME: Journal of Cancer Therapy, Vol.2 No.5, December 31, 2011

  ABSTRACT: Statistics and experiments indicate a correlation between cancer mortality and nitrite in drinking water. Nitrite is a reductant that can deprive a cell of oxygen; it is also an oxidant that can be a substrate in anaerobic ammonium oxidation, the metabolic mode of the anammox bacteria. Eukaryote cells evolved through a fusion of anaerobic and aerobic bacteria. We postulate that an anammox bacterium sought refuge in a fusion with a membrane-bound cluster of aerobic bacteria. While the latter evolved into mitochondria organelles, the former became the nucleus of a prokaryote cell. Eventually, oxidative phosphorilation is the characteristic metabolic pathway of normal eukaryote cells, and we postulate that anammox is the protein-catabolism pathway for cancer cells. The metabolism consumes nitrite and explains thus the link between nitrite and cancer.