Steglich Claudia, Mullineaux Conrad W, Teuchner Klaus, Hess Wolfgang R, Lokstein Heiko
Institut für Biologie/Genetik, Humboldt-Universität zu Berlin, Germany.
FEBS Lett. 2003 Oct 9;553(1-2):79-84. doi: 10.1016/s0014-5793(03)00971-2.
Prochlorococcus marinus SS120 is an ecologically important and biochemically intriguing marine cyanobacterium. In addition to divinyl chlorophylls (DV-Chls) a and b it possesses a particular form of phycoerythrin (PE), but no other phycobilins and therefore no complete phycobilisomes. Here, a spectroscopic characterisation of these DV-Chls and PE is provided. Comparison of fluorescence quantum yields, excited state lifetimes and absorption characteristics indicate similar light-harvesting properties of the DV-Chls as their monovinyl counterparts. PE, which is present only in tiny amounts, was purified and considerably enriched. A phycourobilin to phycoerythrobilin ratio of 3:1 chromophores per (alphabeta) PE monomer is suggested. The in vitro fluorescence lifetime of PE is 1.74 ns. In vivo time-resolved fluorescence measurements with synchrotron radiation were used to investigate the possible role of PE in light-harvesting. The fluorescence decay time for PE is about 550 ps, indicating an unusually slow excitation energy transfer. The decay time slowed to 1 ns after addition of glycerol to cell cultures. The contribution of PE to total light-harvesting capacity was estimated to be about one (alphabeta) PE monomer per 330 DV-Chl b molecules. Thus, the capacity of PE to function primarily as a photosynthetic light-harvesting pigment in P. marinus SS120 is low.
海洋原绿球藻SS120是一种在生态上具有重要意义且在生物化学方面引人关注的海洋蓝细菌。除了二乙烯基叶绿素(DV-Chls)a和b外,它还拥有一种特殊形式的藻红蛋白(PE),但没有其他藻胆素,因此也没有完整的藻胆体。在此,对这些DV-Chls和PE进行了光谱表征。荧光量子产率、激发态寿命和吸收特性的比较表明,DV-Chls与其单乙烯基对应物具有相似的光捕获特性。仅以微量存在的PE被纯化并大量富集。建议每个(αβ)PE单体的藻尿胆素与藻红胆素的发色团比例为3:1。PE的体外荧光寿命为1.74 ns。利用同步辐射进行体内时间分辨荧光测量,以研究PE在光捕获中的可能作用。PE的荧光衰减时间约为550 ps,表明激发能量转移异常缓慢。向细胞培养物中添加甘油后,衰减时间减慢至1 ns。据估计,PE对总光捕获能力的贡献约为每330个DV-Chl b分子有一个(αβ)PE单体。因此,PE在海洋原绿球藻SS120中主要作为光合光捕获色素发挥作用的能力较低。
