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[i]All living organisms on this planet use six elements for almost all of the chemical structures of DNA, RNA, proteins, and lipids. There is a smattering of other elements, mostly metals, that are essential for biological functions (e.g., the iron in hemoglobin). However, we wouldn’t expect to find anything outside of carbon, hydrogen, oxygen, nitrogen, sulfur and phosphorus in the basic structures of biomolecules. Surprisingly, a team of scientists provide evidence in Science that another element, arsenic, can be incorporated into the basic chemical makeup of the macromolecules of life, replacing some of its phosphorus. Evolutionary geochemist Felisa Wolfe-Simon, the lead author, and her colleagues found a strain of bacterium (GFAJ-1 of the Halomonadaceae family) that can grow in a medium abundant in arsenic and lacking phosphorus. The GFAJ-1 bacterium naturally resides in the arsenic-rich waters (200 uM) of Mono Lake located in California's Eastern Sierra, and it belongs to a family of proteobacteria that is known to accumulate arsenic. It's not remarkable that GFAJ-1 survives in high concentrations of arsenic, but what is startling is that it potentially integrates arsenic into its DNA and proteins.[/i]
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