Response to the CO2 concentrating mechanisms and transcriptional time series analysis of Ulva prolifera under inorganic carbon limitation

IF 5.5 1区生物学 Q1 MARINE & FRESHWATER BIOLOGY

Harmful Algae Pub Date : 2024-09-19 DOI:10.1016/j.hal.2024.102727

Jingyi Sun , Wei Dai , Shuang Zhao , Jinlin Liu , Jianheng Zhang , Juntian Xu , Peimin He

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引用次数: 0

Abstract

Ulva prolifera is a dominant species in green tides and has been affecting marine ecosystem for many years. Due to the low availability of CO₂ in the environment, U. prolifera utilizes the CO₂ concentrating mechanisms (CCMs) to increase intracellular inorganic carbon concentration. However, the transcriptional response mechanism and temporal changes of U. prolifera CCMs based on transcriptomics have not been thoroughly described. Therefore, we induced U. prolifera CCMs in a low CO₂ environment to explore the dynamic regulation of CCMs expression under inadequate inorganic carbon supply. The results showed that inorganic carbon limitation increased the inorganic carbon affinity of U. prolifera, upregulating CCMs. The first 24 h of inorganic carbon environmental changes were the most active period for U. prolifera's expression regulation. U. prolifera gradually achieved a new steady state by regulating metabolic processes such as nucleic acids, energy, and ethylene-activated signaling pathways. In the carbon fixation system of U. prolifera, there are characteristics of both biophysical and biochemical CCMs. After 24 h of inorganic carbon limitation, the biophysical CCMs becomes more effective under conditions of inorganic carbon depletion. This study aids in exploring the CCMs of U. prolifera and their evolution in response to environmental changes.

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无机碳限制下莼菜对二氧化碳浓缩机制的响应及转录时间序列分析

莼菜是绿潮中的主要物种，多年来一直影响着海洋生态系统。由于环境中的二氧化碳含量较低，增殖莼利用二氧化碳浓缩机制（CCMs）来增加细胞内的无机碳浓度。然而，基于转录组学的 U. prolifera CCMs 的转录响应机制和时序变化尚未得到详尽描述。因此，我们在低二氧化碳环境中诱导 U. prolifera CCMs，探索无机碳供应不足条件下 CCMs 表达的动态调控。结果表明，无机碳限制增加了 U. prolifera 对无机碳的亲和力，从而上调了 CCMs 的表达。无机碳环境变化的前 24 小时是 U. prolifera 表达调控最活跃的时期。通过调节核酸、能量和乙烯激活的信号通路等代谢过程，增殖紫云英逐渐达到新的稳定状态。在 U. prolifera 的碳固定系统中，既有生物物理 CCM 的特点，也有生物化学 CCM 的特点。无机碳限制 24 小时后，生物物理 CCM 在无机碳耗竭条件下变得更加有效。这项研究有助于探索 U. prolifera 的 CCMs 及其在环境变化中的演变。

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来源期刊

Harmful Algae 生物-海洋与淡水生物学

CiteScore

12.50

自引率

15.20%

发文量

122

审稿时长

7.5 months

期刊介绍： This journal provides a forum to promote knowledge of harmful microalgae and macroalgae, including cyanobacteria, as well as monitoring, management and control of these organisms.