The contribution of biophysical and biochemical CO₂ concentration mechanisms to the carbon fixation of the green macroalga Ulva prolifera.

IF 5.3 2区生物学 Q1 MARINE & FRESHWATER BIOLOGY

Marine Life Science & Technology Pub Date : 2024-12-12 eCollection Date: 2025-08-01 DOI:10.1007/s42995-024-00265-7

Xiaohua Zhang, Guang Gao, Zhengquan Gao, Kunshan Gao, Dongyan Liu

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Abstract

CO₂ concentration mechanisms (CCMs) are important in maintaining the high efficiency of photosynthesis of marine algae. Aquatic photoautotrophs have two types of CCMs: biophysical CCMs, based on the conversion of inorganic carbon, and biochemical CCMs, based on the formation of C₄ acid intermediates. However, the contribution of biophysical and biochemical CCMs to algal carbon fixation remains unclear. Here, we used ethoxyzolamide (EZ) inhibitors of carbonic anhydrase and 3-mercaptopicolinic acid (MPA) inhibitors for phosphoenolpyruvate carboxykinase to examine the importance of biophysical and biochemical CCMs in photosynthesis of the green macroalga Ulva prolifera. The culture experiments showed that the carbon fixation of the species declined when EZ inhibited the biophysical CCM, while the increase in cyclic electron flow around the photosystem I indicated a more active biochemical CCM, contributing to ~ 50% of total carbon fixation. The biophysical CCM was also reinforced when MPA inhibited the biochemical CCM. In a comparison, the biophysical CCM can compensate for almost 100% of total carbon fixation. The results indicate that biophysical CCMs dominate the process of carbon fixation of U. prolifera while biochemical CCM plays a supporting role. Our results provide evidence of a complementary coordination mechanism between the biophysical and biochemical CCMs that promotes the efficiency of photosynthesis of U. prolifera, an efficient mechanism to boost the alga's bloom.

Supplementary information: The online version contains supplementary material available at 10.1007/s42995-024-00265-7.

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生物物理和生物化学CO2浓度机制对绿色巨藻增生Ulva固碳的贡献。

CO2浓度机制对维持海藻的高效光合作用具有重要意义。水生光自养生物有两种类型的CCMs：基于无机碳转化的生物物理CCMs和基于C4酸中间体形成的生化CCMs。然而，生物物理和生物化学CCMs对藻类固碳的贡献尚不清楚。本研究利用碳酸酐酶的乙氧基唑胺（EZ）抑制剂和磷酸烯醇丙酮酸羧激酶的3-巯基氨基酸（MPA）抑制剂，研究了生物物理和生化CCMs在绿色巨藻增生Ulva （Ulva prolifera）光合作用中的重要性。培养实验表明，当EZ抑制生物物理CCM时，物种的固碳能力下降，而光系统I周围循环电子流的增加表明生物化学CCM更活跃，占总固碳量的约50%。当MPA抑制生物化学CCM时，生物物理CCM也得到增强。相比之下，生物物理CCM可以补偿几乎100%的总碳固定。结果表明，生物物理CCM在增菌的固碳过程中起主导作用，而生物化学CCM起辅助作用。我们的研究结果提供了生物物理和生物化学CCMs之间互补协调机制的证据，该机制促进了藻华的有效机制。补充信息：在线版本包含补充资料，可在10.1007/s42995-024-00265-7获得。

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来源期刊

Marine Life Science & Technology MARINE & FRESHWATER BIOLOGY-

CiteScore

9.60

自引率

10.50%

发文量

期刊介绍： Marine Life Science & Technology (MLST), established in 2019, is dedicated to publishing original research papers that unveil new discoveries and theories spanning a wide spectrum of life sciences and technologies. This includes fundamental biology, fisheries science and technology, medicinal bioresources, food science, biotechnology, ecology, and environmental biology, with a particular focus on marine habitats. The journal is committed to nurturing synergistic interactions among these diverse disciplines, striving to advance multidisciplinary approaches within the scientific field. It caters to a readership comprising biological scientists, aquaculture researchers, marine technologists, biological oceanographers, and ecologists.