Phytohormones in microalgae: a new opportunity for microalgal biotechnology?

•New evidence suggests that microalgae possess functional phytohormone metabolic pathways.•Additional signaling mechanisms may be present in microalgae to transmit the hormone signals.•Manipulation of phytohormones in microalgae may represent opportunities for biofuel feedstock development. Phytohor...

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Published in	Trends in plant science Vol. 20; no. 5; pp. 273 - 282
Main Authors	Lu, Yandu, Xu, Jian
Format	Journal Article
Language	English
Published	England Elsevier Ltd 01.05.2015
Subjects	abscisic acid Abscisic Acid - metabolism auxins biofuels biosynthesis biotechnology Biotechnology - methods cytokinins Cytokinins - metabolism ethylene Ethylenes - metabolism evolution feedstocks genetic engineering Genetic Engineering - methods gibberellins Gibberellins - metabolism Indoleacetic Acids - metabolism microalgae Microalgae - metabolism Nannochloropsis phytohormone system plant evolution Plant Growth Regulators - metabolism signal transduction microalgae phytohormone system genetic engineering plant evolution
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Abstract	•New evidence suggests that microalgae possess functional phytohormone metabolic pathways.•Additional signaling mechanisms may be present in microalgae to transmit the hormone signals.•Manipulation of phytohormones in microalgae may represent opportunities for biofuel feedstock development. Phytohormones, including auxin, abscisic acid (ABA), cytokinin (CK), ethylene (ET), and gibberellins (GAs), have been found in a broad spectrum of microalgal lineages. Although the functional role of microalgal endogenous phytohormones remains elusive, molecular evidence from the oleaginous microalga Nannochloropsis oceanica suggests that endogenous ABA and CK are functional and that their physiological effects are similar to those in higher plants. In this Opinion article, proceeding from genome-based metabolic reconstruction, we suggest that modern higher plant phytohormone biosynthesis pathways originate from ancient microalgae even though some of the microalgal phytohormone signaling pathways remain unknown. Dissection and manipulation of microalgal phytohormone systems could offer a new view of phytohormone evolution in plants and present new opportunities in developing microalgal feedstock for biofuels.
AbstractList	Phytohormones, including auxin, abscisic acid (ABA), cytokinin (CK), ethylene (ET), and gibberellins (GAs), have been found in a broad spectrum of microalgal lineages. Although the functional role of microalgal endogenous phytohormones remains elusive, molecular evidence from the oleaginous microalga Nannochloropsis oceanica suggests that endogenous ABA and CK are functional and that their physiological effects are similar to those in higher plants. In this Opinion article, proceeding from genome-based metabolic reconstruction, we suggest that modern higher plant phytohormone biosynthesis pathways originate from ancient microalgae even though some of the microalgal phytohormone signaling pathways remain unknown. Dissection and manipulation of microalgal phytohormone systems could offer a new view of phytohormone evolution in plants and present new opportunities in developing microalgal feedstock for biofuels. •New evidence suggests that microalgae possess functional phytohormone metabolic pathways.•Additional signaling mechanisms may be present in microalgae to transmit the hormone signals.•Manipulation of phytohormones in microalgae may represent opportunities for biofuel feedstock development. Phytohormones, including auxin, abscisic acid (ABA), cytokinin (CK), ethylene (ET), and gibberellins (GAs), have been found in a broad spectrum of microalgal lineages. Although the functional role of microalgal endogenous phytohormones remains elusive, molecular evidence from the oleaginous microalga Nannochloropsis oceanica suggests that endogenous ABA and CK are functional and that their physiological effects are similar to those in higher plants. In this Opinion article, proceeding from genome-based metabolic reconstruction, we suggest that modern higher plant phytohormone biosynthesis pathways originate from ancient microalgae even though some of the microalgal phytohormone signaling pathways remain unknown. Dissection and manipulation of microalgal phytohormone systems could offer a new view of phytohormone evolution in plants and present new opportunities in developing microalgal feedstock for biofuels. Phytohormones, including auxin, abscisic acid (ABA), cytokinin (CK), ethylene (ET), and gibberellins (GAs), have been found in a broad spectrum of microalgal lineages. Although the functional role of microalgal endogenous phytohormones remains elusive, molecular evidence from the oleaginous microalga Nannochloropsis oceanica suggests that endogenous ABA and CK are functional and that their physiological effects are similar to those in higher plants. In this Opinion article, proceeding from genome-based metabolic reconstruction, we suggest that modern higher plant phytohormone biosynthesis pathways originate from ancient microalgae even though some of the microalgal phytohormone signaling pathways remain unknown. Dissection and manipulation of microalgal phytohormone systems could offer a new view of phytohormone evolution in plants and present new opportunities in developing microalgal feedstock for biofuels.Phytohormones, including auxin, abscisic acid (ABA), cytokinin (CK), ethylene (ET), and gibberellins (GAs), have been found in a broad spectrum of microalgal lineages. Although the functional role of microalgal endogenous phytohormones remains elusive, molecular evidence from the oleaginous microalga Nannochloropsis oceanica suggests that endogenous ABA and CK are functional and that their physiological effects are similar to those in higher plants. In this Opinion article, proceeding from genome-based metabolic reconstruction, we suggest that modern higher plant phytohormone biosynthesis pathways originate from ancient microalgae even though some of the microalgal phytohormone signaling pathways remain unknown. Dissection and manipulation of microalgal phytohormone systems could offer a new view of phytohormone evolution in plants and present new opportunities in developing microalgal feedstock for biofuels.
Author	Lu, Yandu Xu, Jian
Author_xml	– sequence: 1 givenname: Yandu surname: Lu fullname: Lu, Yandu email: luyd@qibebt.ac.cn – sequence: 2 givenname: Jian surname: Xu fullname: Xu, Jian email: xujian@qibebt.ac.cn
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/25697753$$D View this record in MEDLINE/PubMed
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Snippet	•New evidence suggests that microalgae possess functional phytohormone metabolic pathways.•Additional signaling mechanisms may be present in microalgae to... Phytohormones, including auxin, abscisic acid (ABA), cytokinin (CK), ethylene (ET), and gibberellins (GAs), have been found in a broad spectrum of microalgal...
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SubjectTerms	abscisic acid Abscisic Acid - metabolism auxins biofuels biosynthesis biotechnology Biotechnology - methods cytokinins Cytokinins - metabolism ethylene Ethylenes - metabolism evolution feedstocks genetic engineering Genetic Engineering - methods gibberellins Gibberellins - metabolism Indoleacetic Acids - metabolism microalgae Microalgae - metabolism Nannochloropsis phytohormone system plant evolution Plant Growth Regulators - metabolism signal transduction
Title	Phytohormones in microalgae: a new opportunity for microalgal biotechnology?
URI	https://dx.doi.org/10.1016/j.tplants.2015.01.006 https://www.ncbi.nlm.nih.gov/pubmed/25697753 https://www.proquest.com/docview/1693184834 https://www.proquest.com/docview/1701481370 https://www.proquest.com/docview/2000165029
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