ER-Anchored Transcription Factors bZIP17 and bZIP60 Regulate Triterpene Saponin Biosynthesis in<i>Medicago truncatula</i><sup>1[OPEN]</sup>

Ribeiro, Bianca; Erffelinck, Marie‐Laure; Colinas, Maite; Williams, Clara; Hamme, Evelien Van; Lacchini, Elia; Clercq, Rebecca De; Perassolo, Marı́a; Goossens, Alain

doi:10.1101/2020.01.17.910802

Cited by 4 publications

(3 citation statements)

References 89 publications

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“…Compared to the positive regulators, fewer negative regulators have been identified for saponin biosynthesis. The basic leucine zipper (bZIP) TFs, bZIP17 and bZIP60, downregulate JA-dependent triterpenoid saponin synthesis in M. truncatula by suppressing the activities of TSAR1 and TSAR2 [70].…”

Section: Regulation Of Saponin Biosynthesismentioning

confidence: 99%

Saponin Biosynthesis in Pulses

Patterson

Zaharia

2022

Plants

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Pulses are a group of leguminous crops that are harvested solely for their dry seeds. As the demand for plant-based proteins grows, pulses are becoming important food crops worldwide. In addition to being a rich source of nutrients, pulses also contain saponins that are traditionally considered anti-nutrients, and impart bitterness and astringency. Saponins are plant secondary metabolites with great structural and functional diversity. Given their diverse functional properties and biological activities, both undesirable and beneficial, saponins have received growing attention. It can be expected that redirecting metabolic fluxes to control the saponin levels and produce desired saponins would be an effective approach to improve the nutritional and sensory quality of the pulses. However, little effort has been made toward understanding saponin biosynthesis in pulses, and, thus there exist sizable knowledge gaps regarding its pathway and regulatory network. In this paper, we summarize the research progress made on saponin biosynthesis in pulses. Additionally, phylogenetic relationships of putative biosynthetic enzymes among multiple pulse species provide a glimpse of the evolutionary routes and functional diversification of saponin biosynthetic enzymes. The review will help us to advance our understanding of saponin biosynthesis and aid in the development of molecular and biotechnological tools for the systematic optimization of metabolic fluxes, in order to produce the desired saponins in pulses.

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Section: Regulation Of Saponin Biosynthesismentioning

confidence: 99%

Saponin Biosynthesis in Pulses

Patterson

Zaharia

2022

Plants

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“…In addition to investigating positive regulators that mediate soyasaponin synthesis, negative regulators in soyasaponin synthesis also have been explored to a lesser extent. For example, the basic leucine zipper (bZIP) transcription factors bZIP17 and bZIP60, indicative of endoplasmic reticulum stress, have suspected roles in downregulating MeJA-induced triterpene saponin synthesis in barrel medic by impeding the activity of TSAR1 and TSAR2 . Furthermore, phytohormones such as gibberellins may act as negative regulators by downregulating enzymes such as β-amyrin in licorice and therefore decreasing soyasaponin synthesis .…”

Section: Enhancing Soyasaponin Yields: Targeted Biosynthesismentioning

confidence: 99%

“…For example, the basic leucine zipper (bZIP) transcription factors bZIP17 and bZIP60, indicative of endoplasmic reticulum stress, have suspected roles in downregulating MeJA-induced triterpene saponin synthesis in barrel medic by impeding the activity of TSAR1 and TSAR2. 66 Furthermore, phytohormones such as gibberellins may act as negative regulators by downregulating enzymes such as βamyrin in licorice and therefore decreasing soyasaponin synthesis. 61 Although transcriptional regulation plays the most prominent role in soyasaponin gene expression, recent work suggests that post-transcriptional modifications may also play a significant role in modulating soyasaponin production.…”

Section: Threatsmentioning

confidence: 99%

Bridging the Gaps between Plant and Human Health: A Systematic Review of Soyasaponins

Yates

Roberson

Ramsue

et al. 2021

J. Agric. Food Chem.

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Saponins, prominent secondary plant metabolites, are recognized for their roles in plant defense and medicinal benefits. Soyasaponins, commonly derived from legumes, are a class of triterpenoid saponins that demonstrate significant potential for plant and human health applications. Previous research and reviews largely emphasize human health effects of soyasaponins. However, the biological effects of soyasaponins and their implications for plants in the context of human health have not been welldiscussed. This review provides comprehensive discussions on the biological roles of soyasaponins in plant defense and rhizosphere microbial interactions; biosynthetic regulation and compound production; immunological effects and potential for therapeutics; and soyasaponin acquisition attributed to processing effects, bioavailability, and biotransformation processes based on recent soyasaponin research. Given the multifaceted biological effects elicited by soyasaponins, further research warrants an integrated approach to understand molecular mechanisms of regulations in their production as well as their applications in plant and human health.

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Production of plant bioactive triterpenoid saponins: from metabolites to genes and back

2020

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ER-Anchored Transcription Factors bZIP17 and bZIP60 Regulate Triterpene Saponin Biosynthesis inMedicago truncatula^1[OPEN]

Abstract: One sentence summaryER stress bZIP transcription factors can interfere with the activity of jasmonateinducible bHLH transcription factors to modulate the elicitation of plant specialized metabolism in stress conditions. Footnotes:

Cited by 4 publications

References 89 publications

Saponin Biosynthesis in Pulses

Saponin Biosynthesis in Pulses

Bridging the Gaps between Plant and Human Health: A Systematic Review of Soyasaponins

Production of plant bioactive triterpenoid saponins: from metabolites to genes and back

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ER-Anchored Transcription Factors bZIP17 and bZIP60 Regulate Triterpene Saponin Biosynthesis inMedicago truncatula1[OPEN]

Abstract: One sentence summaryER stress bZIP transcription factors can interfere with the activity of jasmonateinducible bHLH transcription factors to modulate the elicitation of plant specialized metabolism in stress conditions. Footnotes:

Cited by 4 publications

References 89 publications

Saponin Biosynthesis in Pulses

Saponin Biosynthesis in Pulses

Bridging the Gaps between Plant and Human Health: A Systematic Review of Soyasaponins

Production of plant bioactive triterpenoid saponins: from metabolites to genes and back

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Product

Resources

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ER-Anchored Transcription Factors bZIP17 and bZIP60 Regulate Triterpene Saponin Biosynthesis inMedicago truncatula^1[OPEN]