Hopkinson Brian M, Roe Kelly L, Barbeau Katherine A
Geosciences Research Division, Scripps Institution of Oceanography, University of California, San Diego, La Jolla, California 92093, USA.
Appl Environ Microbiol. 2008 Oct;74(20):6263-70. doi: 10.1128/AEM.00964-08. Epub 2008 Aug 29.
The ability to acquire diverse and abundant forms of iron would be expected to confer a survival advantage in the marine environment, where iron is scarce. Marine bacteria are known to use siderophores and inorganic iron, but their ability to use heme, an abundant intracellular iron form, has only been examined preliminarily. Microscilla marina, a cultured relative of a bacterial group frequently found on marine particulates, was used as a model organism to examine heme uptake. Searches of the genome revealed analogs to known heme transport proteins, and reverse transcription-quantitative PCR analysis of these genes showed that they were expressed and upregulated under iron stress and during growth on heme. M. marina was found to take up heme-bound iron and could grow on heme as a sole iron source, supporting the genetic evidence for heme transport. Similar putative heme transport components were identified in the genomes of diverse marine bacteria. These systems were found in the genomes of many bacteria thought to be particle associated but were lacking in known free-living organisms (e.g., Pelagibacter ubique and marine cyanobacteria). This distribution of transporters is consistent with the hydrophobic, light-sensitive nature of heme, suggesting that it is primarily available on phytoplankton or detritus or in nutrient-rich environments.
在铁元素稀缺的海洋环境中,能够获取多样且丰富的铁形式有望赋予生存优势。已知海洋细菌会利用铁载体和无机铁,但它们利用血红素(一种丰富的细胞内铁形式)的能力仅得到了初步研究。微小海洋螺菌(Microscilla marina)是一种经常在海洋颗粒物上发现的细菌类群的培养近亲,被用作研究血红素摄取的模式生物。对其基因组的搜索揭示了与已知血红素转运蛋白的类似物,对这些基因的逆转录定量PCR分析表明,它们在铁胁迫下以及在以血红素为生长底物时表达并上调。研究发现微小海洋螺菌能够摄取与血红素结合的铁,并且可以以血红素作为唯一铁源生长,这为血红素转运提供了遗传学证据。在多种海洋细菌的基因组中鉴定出了类似的假定血红素转运成分。这些系统存在于许多被认为与颗粒相关的细菌基因组中,但在已知的自由生活生物(如嗜甲基菌Pelagibacter ubique和海洋蓝细菌)的基因组中却不存在。这种转运蛋白的分布与血红素的疏水、光敏性质一致,表明它主要存在于浮游植物、碎屑或营养丰富的环境中。