Revealing the significance of chlorophyll b in the moss Physcomitrium patens by knocking out two functional chlorophyllide a oxygenase.

IF 2.9 3区 生物学 Q2 PLANT SCIENCES Photosynthesis Research Pub Date : 2023-12-01 Epub Date: 2023-08-31 DOI:10.1007/s11120-023-01044-8
Lin Zhang, Chunhong Yang, Cheng Liu
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Abstract

The chlorophyllide a oxygenase (CAO) plays a crucial role in the biosynthesis of chlorophyll b (Chl b). In the moss Physcomitrium patens (P. patens), two distinct gene copies, PpCAO1 and PpCAO2, are present. In this study, we investigate the differential expression of these CAOs following light exposure after a period of darkness (24 h) and demonstrate that the accumulation of Chl b is only abolished when both genes are knocked out. In the ppcao1cao2 mutant, most of the antenna proteins associated with both photosystems (PS) I and II are absent. Despite of the existence of LHCSR proteins and zeaxanthin, the mutant exhibits minimal non-photochemical quenching (NPQ) capacity. Nevertheless, the ppcao1cao2 mutant retains a certain level of pseudo-cyclic electron transport to provide photoprotection for PSI. These findings shed light on the dual dependency of Chl b synthesis on two CAOs and highlight the distinct effects of Chl b deprival on PSI and PSII core complexes in P. patens, a model species for bryophytes.

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通过敲除两个功能性叶绿素a加氧酶揭示叶绿素b在苔藓中的意义。
叶绿素内酯a加氧酶(CAO)在叶绿素b (Chl b)的生物合成中起着至关重要的作用。在藓类Physcomitrium patens (P. patens)中存在两个不同的基因拷贝,PpCAO1和PpCAO2。在这项研究中,我们研究了在一段时间的黑暗(24小时)后,这些CAOs在光照下的差异表达,并证明只有当两个基因都被敲除时,Chl b的积累才会被消除。在ppcao1cao2突变体中,大部分与光系统(PS) I和II相关的天线蛋白缺失。尽管存在LHCSR蛋白和玉米黄质,突变体表现出最小的非光化学猝灭(NPQ)能力。然而,ppcao1cao2突变体保留了一定水平的伪循环电子传递,为PSI提供光保护。这些发现揭示了Chl b合成对两种CAOs的双重依赖,并强调了Chl b的剥夺对苔藓植物模式种P. patens的PSI和PSII核心复合物的明显影响。
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来源期刊
Photosynthesis Research
Photosynthesis Research 生物-植物科学
CiteScore
6.90
自引率
8.10%
发文量
91
审稿时长
4.5 months
期刊介绍: Photosynthesis Research is an international journal open to papers of merit dealing with both basic and applied aspects of photosynthesis. It covers all aspects of photosynthesis research, including, but not limited to, light absorption and emission, excitation energy transfer, primary photochemistry, model systems, membrane components, protein complexes, electron transport, photophosphorylation, carbon assimilation, regulatory phenomena, molecular biology, environmental and ecological aspects, photorespiration, and bacterial and algal photosynthesis.
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