来自邻近生物体的铁载体促进了未培养细菌的生长。
Siderophores from neighboring organisms promote the growth of uncultured bacteria.
作者信息
D'Onofrio Anthony, Crawford Jason M, Stewart Eric J, Witt Kathrin, Gavrish Ekaterina, Epstein Slava, Clardy Jon, Lewis Kim
机构信息
Antimicrobial Discovery Center and Department of Biology, Northeastern University, Boston, MA 02115, USA.
出版信息
Chem Biol. 2010 Mar 26;17(3):254-64. doi: 10.1016/j.chembiol.2010.02.010.
Abstract
The majority of bacterial species do not grow on synthetic media. Many non-growers require growth factors from other bacteria, but the nature of these compounds is largely unknown. We show here that previously uncultured isolates from marine sediment biofilm grow on a Petri dish in the presence of cultured organisms from the same environment. The growth factors produced by one cultured helper strain were identified as new acyl-desferrioxamine siderophores. A panel of previously uncultured isolates exhibited a range of siderophore promiscuity for growth promotion. This siderophore-based approach has enabled the culturing of organisms only distantly related to previously cultured microbes. The lack of growth in the laboratory for many strains from this habitat stems from an inability to autonomously produce siderophores, and the resulting chemical dependence on other microorganisms regulates community establishment in the environment.
摘要
大多数细菌种类无法在合成培养基上生长。许多无法生长的细菌需要从其他细菌获取生长因子,但其性质大多未知。我们在此表明,来自海洋沉积物生物膜的先前未培养的分离株,在存在来自同一环境的培养生物的情况下,能够在培养皿中生长。一种培养的辅助菌株产生的生长因子被鉴定为新型酰基去铁胺铁载体。一组先前未培养的分离株表现出一系列促进生长的铁载体混杂性。这种基于铁载体的方法使得与先前培养的微生物亲缘关系甚远的生物得以培养。该生境中许多菌株在实验室无法生长是由于无法自主产生铁载体,由此产生的对其他微生物的化学依赖调节了环境中的群落形成。
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