Hirashima Masumi, Satoh Soichirou, Tanaka Ryouichi, Tanaka Ayumi
Institute of Low Temperature Science, Hokkaido University, Kita-ku, N19 W8, Sapporo 060-0819, Japan.
J Biol Chem. 2006 Jun 2;281(22):15385-93. doi: 10.1074/jbc.M602903200. Epub 2006 Mar 30.
The organization of pigment molecules in photosystems is strictly determined. The peripheral antennae have both chlorophyll a and b, but the core antennae consist of only chlorophyll a in green plants. Furthermore, according to the recent model obtained from the crystal structure of light-harvesting chlorophyll a/b-protein complexes II (LHCII), individual chlorophyll-binding sites are occupied by either chlorophyll a or chlorophyll b. In this study, we succeeded in altering these pigment organizations by introducing a prokaryotic chlorophyll b synthesis gene (chlorophyllide a oxygenase (CAO)) into Arabidopsis. In these transgenic plants (Prochlirothrix hollandica CAO plants), approximately 40% of chlorophyll a of the core antenna complexes was replaced by chlorophyll b in both photosystems. Chlorophyll a/b ratios of LHCII also decreased from 1.3 to 0.8 in PhCAO plants. Surprisingly, these transgenic plants were capable of photosynthetic growth similar to wild type under low light conditions. These results indicate that chlorophyll organizations are not solely determined by the binding affinities, but they are also controlled by CAO. These data also suggest that strict organizations of chlorophyll molecules are not essential for photosynthesis under low light conditions.
光合系统中色素分子的组织是严格确定的。外周天线既有叶绿素a也有叶绿素b,但在绿色植物中,核心天线仅由叶绿素a组成。此外,根据最近从捕光叶绿素a/b蛋白复合物II(LHCII)的晶体结构获得的模型,单个叶绿素结合位点要么被叶绿素a占据,要么被叶绿素b占据。在本研究中,我们通过将原核叶绿素b合成基因(叶绿素酸酯a加氧酶(CAO))导入拟南芥,成功改变了这些色素组织。在这些转基因植物(荷兰原绿球藻CAO植物)中,两个光合系统中核心天线复合物约40%的叶绿素a被叶绿素b取代。在PhCAO植物中,LHCII的叶绿素a/b比值也从1.3降至0.8。令人惊讶的是,这些转基因植物在弱光条件下能够像野生型一样进行光合生长。这些结果表明,叶绿素组织并非仅由结合亲和力决定,它们也受CAO控制。这些数据还表明,在弱光条件下,叶绿素分子的严格组织对于光合作用并非必不可少。
