用户:李4/民科收集处

砷DNA是一种假想的DNA类似物。在砷DNA分子中，砷元素部分或完全地取代了正常的DNA分子骨架中的磷元素。沃尔夫－西蒙于2010年在科学发表的一篇论文^[1]公布了一种在莫诺湖采集到的细菌，这种被命名为GFAJ-1的细菌在低磷环境中能吸收并利用砷来合成DNA等有机物。

一些科学家对沃尔夫－西蒙的发现持怀疑态度^[2]。微生物学家罗丝玛丽·雷德菲尔德（Rosemary Redfield）^[3]与雅典娜·安德烈斯（Athena Andreadis）^[4]分别发表言论，认为砷DNA这种物质只能是研究中失误的产物。

研究

美国地质调查局学者费利莎·沃尔夫－西蒙在美国加利福尼亚州门洛公园的莫洛湖畔发现了一种后来被命名为GFAJ-1的属于变形菌门（proteobacterium）细菌。这种细菌在人为营造的缺磷环境中显示出成功地将外界的砷元素吸收入细胞内并用以合成自身组成的能力。^[5]^[6] 由于砷元素在细胞能轻易地取代DNA等重要的生物分子中的磷元素，所以其对于大多数生命来说是有毒的，还能使部分动物致癌。而GFAJ-1被认为进化出了一种能提高这些取代物的稳定性的机制。其他有机体则因为缺乏该机制而不能防止或减弱细胞暴露在高浓度的砷中的损伤。但这种机制的确切原理仍不明晰。

参考文献

^ Wolfe-Simon, Felisa; Blum, Jodi Switzer; Kulp, Thomas R.; Gordon, Shelley E.; Hoeft; Pett-Ridge, Jennifer; Stolz, John F.; Webb, Samuel M.; Weber, Peter K.; Davis, Paul C. W.; Anbar, Ariel D.; Oremland, Ronald S. A Bacterium That Can Grow by Using Arsenic Instead of Phosphorus. 科学. 2 December 2010 [2010-12-06]. PMID 21127214. doi:10.1126/science.1197258. Authors list列表缺少|last12= (帮助)
^ Bortman, Henry. Arsenic-Eating Bacteria Opens New Possibilities for Alien Life. Space.com. Astrobiology Magazine (NASA). 2 December 2010 [2010-12-08]. 外部链接存在于|work= (帮助)
^ Redfield, Rosemary J. Arsenic-associated bacteria (NASA's claims). RR Research blog. 4 December 2010 [2010-12-06].
^ Andreadis, Athena. Arsenic and Odd Lace. The Huffington Post. The Huffington Post. 3 December 2010 [2010-12-08]. 外部链接存在于|work= (帮助)
^ Bortman, Henry. Searching for Alien Life, on Earth. Astrobiology Magazine (NASA). 5 October 2009 [2010-12-02].
^ Harvey, Mike. Could the Mono Lake arsenic prove there is a shadow biosphere?. UK: The Times. 4 March 2010 [2010-12-02].
^ Palmer, Jason. Arsenic-loving bacteria may help in hunt for alien life. BBC News. 2 December 2010 [2010-12-02].
^ Kottke, Jason. NASA news conference participants. Kottke.org. 29 November 2010 [2010-12-02].
^ ^9.0 ^9.1 Katsnelson, Alla. Arsenic-eating microbe may redefine chemistry of life. Nature News. 2 December 2010 [2010-12-02]. doi:10.1038/news.2010.645.

外部链接

Official NASA Presentation — Video (56:53) and additional information. — (3 December 2010)
NASA.gov: "NASA-Funded Research Discovers Life Built With Toxic Chemical" — (2 December 2010)
NASA - Astrobiology Magazine: "Searching for Alien Life, on Earth" — (October 2009)

参见

[Wolfe-Simon-1] Wolfe-Simon, Felisa; Blum, Jodi Switzer; Kulp, Thomas R.; Gordon, Shelley E.; Hoeft; Pett-Ridge, Jennifer; Stolz, John F.; Webb, Samuel M.; Weber, Peter K.; Davis, Paul C. W.; Anbar, Ariel D.; Oremland, Ronald S. A Bacterium That Can Grow by Using Arsenic Instead of Phosphorus. 科学. 2 December 2010 [2010-12-06]. PMID 21127214. doi:10.1126/science.1197258. Authors list列表缺少|last12= (帮助)

[Bortman-2] Bortman, Henry. Arsenic-Eating Bacteria Opens New Possibilities for Alien Life. Space.com. Astrobiology Magazine (NASA). 2 December 2010 [2010-12-08]. 外部链接存在于|work= (帮助)

[Redfield-3] Redfield, Rosemary J. Arsenic-associated bacteria (NASA's claims). RR Research blog. 4 December 2010 [2010-12-06].

[Andreadis-4] Andreadis, Athena. Arsenic and Odd Lace. The Huffington Post. The Huffington Post. 3 December 2010 [2010-12-08]. 外部链接存在于|work= (帮助)

[nasa-5] Bortman, Henry. Searching for Alien Life, on Earth. Astrobiology Magazine (NASA). 5 October 2009 [2010-12-02].

[6] Harvey, Mike. Could the Mono Lake arsenic prove there is a shadow biosphere?. UK: The Times. 4 March 2010 [2010-12-02].

[7] Palmer, Jason. Arsenic-loving bacteria may help in hunt for alien life. BBC News. 2 December 2010 [2010-12-02].

[8] Kottke, Jason. NASA news conference participants. Kottke.org. 29 November 2010 [2010-12-02].

[nature-9] 9.0 ^9.1 Katsnelson, Alla. Arsenic-eating microbe may redefine chemistry of life. Nature News. 2 December 2010 [2010-12-02]. doi:10.1038/news.2010.645.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]

用户:李4/民科收集处

目录

研究

相关发现

参考文献

外部链接

参见