期刊
PLANT JOURNAL
卷 80, 期 1, 页码 52-68出版社
WILEY
DOI: 10.1111/tpj.12615
关键词
Nannochloropsis oceanica; antagonistic synergy; abscisic acid; cytokinin; phytohormone evolution; stress response; cell-cycle progression
资金
- Natural Science Foundation of China [31200063]
- Ministry of Science and Technology of China [2012CB721101]
- Basic Research Program of Qingdao [13-1-4-229-jch]
- Knowledge Innovation Program of the Chinese Academy of Sciences [KSZD-EW-Z-017-2]
- EU [ED0007/01/01]
- Czech Grant Agency [GA206/09/1284]
- Ministry of Education, Youth and Sports of the Czech Republic [LK21306, LO 1204]
The origin of phytohormones is poorly understood, and their physiological roles in microalgae remain elusive. Genome comparison of photosynthetic autotrophic eukaryotes has revealed that the biosynthetic pathways of abscisic acid (ABA) and cytokinins (CKs) emerged in unicellular algae. While ABA and CK degradation mechanisms emerged broadly in algal lineages, complete vascular plant-type conjugation pathways emerged prior to the rise of Streptophyta. In microalgae, a complete set of proteins from the canonical ABA and CK sensing and signaling pathways is not essential, but individual components are present, suggesting stepwise recruitment of phytohormone signaling components. In the oleaginous eustigmatophyte Nannochloropsis oceanica IMET1, UHPLC-MS/MS detected a wide array of plant hormones, despite a phytohormone profile that is very distinct from that of flowering plants. Time-series transcriptional analysis during nitrogen depletion revealed activation of the ABA biosynthetic pathway and antagonistic transcription of CK biosynthetic genes. Correspondingly, the ABA level increases while the dominant bioactive CK forms decrease. Moreover, exogenous CKs stimulate cell-cycle progression while exogenous ABA acts as both an algal growth repressor and a positive regulator in response to stresses. The presence of such functional flowering plant-like phytohormone signaling systems in Nannochloropsis sp. suggests a much earlier origin of phytohormone biosynthesis and degradation than previously believed, and supports the presence in microalgae of as yet unknown conjugation and sensing/signaling systems that may be exploited for microalgal feedstock development.
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