EBSn, a Robust Synthetic Reporter for Monitoring Ethylene Responses in Plants

Josefina Patricia Fernandez-Moreno; Mario Fenech; Anna E. Yaschenko; Chengsong Zhao; Matthew Neubauer; Hannah N. Davis; Alex J. Marchi; Raine Concannon; Alexandra Keren-Keiserman; Moshe Reuveni; Victor Levitsky; Dmitry Oshchepkov; Vladislav Dolgikh; Alexander Goldshmidt; José T. Ascencio-Ibáñez; Elena Zemlyanskaya; Jose M. Alonso; Anna N. Stepanova

doi:10.1111/pbi.70302

EBSn, a Robust Synthetic Reporter for Monitoring Ethylene Responses in Plants

Josefina Patricia Fernandez-Moreno, Mario Fenech, Anna E. Yaschenko, Chengsong Zhao, Matthew Neubauer, Hannah N. Davis, Alex J. Marchi, Raine Concannon, Alexandra Keren-Keiserman, Moshe Reuveni, Victor Levitsky, Dmitry Oshchepkov, Vladislav Dolgikh, Alexander Goldshmidt, José T. Ascencio-Ibáñez, Elena Zemlyanskaya, Jose M. Alonso, Anna N. Stepanova

Research output: Contribution to journal › Article › peer-review

Abstract

Ethylene is a gaseous plant hormone that controls a wide array of physiologically relevant processes, including plant responses to biotic and abiotic stress, and induces ripening in climacteric fruits. To monitor ethylene in plants, analytical methods, phenotypic assays, gene expression analysis and transcriptional or translational reporters are typically employed. In the model plant Arabidopsis, two ethylene-sensitive synthetic transcriptional reporters have been described, 5xEBS:GUS and 10x2EBS-S10:GUS. These reporters harbour a different type, arrangement and number of homotypic cis-elements in their promoters and thus may recruit the ethylene master regulator EIN3 in the context of alternative transcriptional complexes. Accordingly, the patterns of GUS activity in these transgenic lines differ and neither of them encompasses all plant tissues even in the presence of saturating levels of exogenous ethylene. Herein, we set out to develop and test a more sensitive version of the ethylene-inducible promoter that we refer to as EBSnew (abbreviated as EBSn). EBSn leverages a tandem of 10 non-identical, natural copies of a novel, dual, everted, 11 bp-long EIN3-binding site, 2EBS(−1). We show that in Arabidopsis, EBSn outperforms its predecessors in terms of its ethylene sensitivity, having the capacity to monitor endogenous levels of ethylene and displaying more ubiquitous expression in response to the exogenous hormone. We demonstrate that the EBSn promoter is also functional in tomato, opening new avenues to manipulating ethylene-regulated processes, such as ripening and senescence, in crops.

Original language	English
Journal	Plant Biotechnology Journal
Early online date	21 Sep 2025
DOIs	https://doi.org/10.1111/pbi.70302
State	E-pub ahead of print - 21 Sep 2025
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2025 The Author(s). Plant Biotechnology Journal published by Society for Experimental Biology and The Association of Applied Biologists and John Wiley & Sons Ltd.

Keywords

Arabidopsis
EBSn
EIN3-binding site
ethylene reporter
hormone detection
plants
synthetic promoter
tomato

ASJC Scopus subject areas

Biotechnology
Agronomy and Crop Science
Plant Science

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10.1111/pbi.70302

Cite this

Fernandez-Moreno, J. P., Fenech, M., Yaschenko, A. E., Zhao, C., Neubauer, M., Davis, H. N., Marchi, A. J., Concannon, R., Keren-Keiserman, A., Reuveni, M., Levitsky, V., Oshchepkov, D., Dolgikh, V., Goldshmidt, A., Ascencio-Ibáñez, J. T., Zemlyanskaya, E., Alonso, J. M., & Stepanova, A. N. (2025). EBSn, a Robust Synthetic Reporter for Monitoring Ethylene Responses in Plants. Plant Biotechnology Journal. Advance online publication. https://doi.org/10.1111/pbi.70302

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title = "EBSn, a Robust Synthetic Reporter for Monitoring Ethylene Responses in Plants",

abstract = "Ethylene is a gaseous plant hormone that controls a wide array of physiologically relevant processes, including plant responses to biotic and abiotic stress, and induces ripening in climacteric fruits. To monitor ethylene in plants, analytical methods, phenotypic assays, gene expression analysis and transcriptional or translational reporters are typically employed. In the model plant Arabidopsis, two ethylene-sensitive synthetic transcriptional reporters have been described, 5xEBS:GUS and 10x2EBS-S10:GUS. These reporters harbour a different type, arrangement and number of homotypic cis-elements in their promoters and thus may recruit the ethylene master regulator EIN3 in the context of alternative transcriptional complexes. Accordingly, the patterns of GUS activity in these transgenic lines differ and neither of them encompasses all plant tissues even in the presence of saturating levels of exogenous ethylene. Herein, we set out to develop and test a more sensitive version of the ethylene-inducible promoter that we refer to as EBSnew (abbreviated as EBSn). EBSn leverages a tandem of 10 non-identical, natural copies of a novel, dual, everted, 11 bp-long EIN3-binding site, 2EBS(−1). We show that in Arabidopsis, EBSn outperforms its predecessors in terms of its ethylene sensitivity, having the capacity to monitor endogenous levels of ethylene and displaying more ubiquitous expression in response to the exogenous hormone. We demonstrate that the EBSn promoter is also functional in tomato, opening new avenues to manipulating ethylene-regulated processes, such as ripening and senescence, in crops.",

keywords = "Arabidopsis, EBSn, EIN3-binding site, ethylene reporter, hormone detection, plants, synthetic promoter, tomato",

author = "Fernandez-Moreno, \{Josefina Patricia\} and Mario Fenech and Yaschenko, \{Anna E.\} and Chengsong Zhao and Matthew Neubauer and Davis, \{Hannah N.\} and Marchi, \{Alex J.\} and Raine Concannon and Alexandra Keren-Keiserman and Moshe Reuveni and Victor Levitsky and Dmitry Oshchepkov and Vladislav Dolgikh and Alexander Goldshmidt and Ascencio-Ib{\'a}{\~n}ez, \{Jos{\'e} T.\} and Elena Zemlyanskaya and Alonso, \{Jose M.\} and Stepanova, \{Anna N.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Plant Biotechnology Journal published by Society for Experimental Biology and The Association of Applied Biologists and John Wiley \& Sons Ltd.",

year = "2025",

month = sep,

day = "21",

doi = "10.1111/pbi.70302",

language = "English",

journal = "Plant Biotechnology Journal",

issn = "1467-7644",

publisher = "Wiley-Blackwell Publishing Ltd",

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Fernandez-Moreno, JP, Fenech, M, Yaschenko, AE, Zhao, C, Neubauer, M, Davis, HN, Marchi, AJ, Concannon, R, Keren-Keiserman, A, Reuveni, M, Levitsky, V, Oshchepkov, D, Dolgikh, V, Goldshmidt, A, Ascencio-Ibáñez, JT, Zemlyanskaya, E, Alonso, JM & Stepanova, AN 2025, 'EBSn, a Robust Synthetic Reporter for Monitoring Ethylene Responses in Plants', Plant Biotechnology Journal. https://doi.org/10.1111/pbi.70302

TY - JOUR

T1 - EBSn, a Robust Synthetic Reporter for Monitoring Ethylene Responses in Plants

AU - Fernandez-Moreno, Josefina Patricia

AU - Fenech, Mario

AU - Yaschenko, Anna E.

AU - Zhao, Chengsong

AU - Neubauer, Matthew

AU - Davis, Hannah N.

AU - Marchi, Alex J.

AU - Concannon, Raine

AU - Keren-Keiserman, Alexandra

AU - Reuveni, Moshe

AU - Levitsky, Victor

AU - Oshchepkov, Dmitry

AU - Dolgikh, Vladislav

AU - Goldshmidt, Alexander

AU - Ascencio-Ibáñez, José T.

AU - Zemlyanskaya, Elena

AU - Alonso, Jose M.

AU - Stepanova, Anna N.

PY - 2025/9/21

Y1 - 2025/9/21

N2 - Ethylene is a gaseous plant hormone that controls a wide array of physiologically relevant processes, including plant responses to biotic and abiotic stress, and induces ripening in climacteric fruits. To monitor ethylene in plants, analytical methods, phenotypic assays, gene expression analysis and transcriptional or translational reporters are typically employed. In the model plant Arabidopsis, two ethylene-sensitive synthetic transcriptional reporters have been described, 5xEBS:GUS and 10x2EBS-S10:GUS. These reporters harbour a different type, arrangement and number of homotypic cis-elements in their promoters and thus may recruit the ethylene master regulator EIN3 in the context of alternative transcriptional complexes. Accordingly, the patterns of GUS activity in these transgenic lines differ and neither of them encompasses all plant tissues even in the presence of saturating levels of exogenous ethylene. Herein, we set out to develop and test a more sensitive version of the ethylene-inducible promoter that we refer to as EBSnew (abbreviated as EBSn). EBSn leverages a tandem of 10 non-identical, natural copies of a novel, dual, everted, 11 bp-long EIN3-binding site, 2EBS(−1). We show that in Arabidopsis, EBSn outperforms its predecessors in terms of its ethylene sensitivity, having the capacity to monitor endogenous levels of ethylene and displaying more ubiquitous expression in response to the exogenous hormone. We demonstrate that the EBSn promoter is also functional in tomato, opening new avenues to manipulating ethylene-regulated processes, such as ripening and senescence, in crops.

AB - Ethylene is a gaseous plant hormone that controls a wide array of physiologically relevant processes, including plant responses to biotic and abiotic stress, and induces ripening in climacteric fruits. To monitor ethylene in plants, analytical methods, phenotypic assays, gene expression analysis and transcriptional or translational reporters are typically employed. In the model plant Arabidopsis, two ethylene-sensitive synthetic transcriptional reporters have been described, 5xEBS:GUS and 10x2EBS-S10:GUS. These reporters harbour a different type, arrangement and number of homotypic cis-elements in their promoters and thus may recruit the ethylene master regulator EIN3 in the context of alternative transcriptional complexes. Accordingly, the patterns of GUS activity in these transgenic lines differ and neither of them encompasses all plant tissues even in the presence of saturating levels of exogenous ethylene. Herein, we set out to develop and test a more sensitive version of the ethylene-inducible promoter that we refer to as EBSnew (abbreviated as EBSn). EBSn leverages a tandem of 10 non-identical, natural copies of a novel, dual, everted, 11 bp-long EIN3-binding site, 2EBS(−1). We show that in Arabidopsis, EBSn outperforms its predecessors in terms of its ethylene sensitivity, having the capacity to monitor endogenous levels of ethylene and displaying more ubiquitous expression in response to the exogenous hormone. We demonstrate that the EBSn promoter is also functional in tomato, opening new avenues to manipulating ethylene-regulated processes, such as ripening and senescence, in crops.

KW - Arabidopsis

KW - EBSn

KW - EIN3-binding site

KW - ethylene reporter

KW - hormone detection

KW - plants

KW - synthetic promoter

KW - tomato

UR - https://www.scopus.com/pages/publications/105016714166

U2 - 10.1111/pbi.70302

DO - 10.1111/pbi.70302

M3 - Article

C2 - 40976865

AN - SCOPUS:105016714166

SN - 1467-7644

JO - Plant Biotechnology Journal

JF - Plant Biotechnology Journal

ER -

EBSn, a Robust Synthetic Reporter for Monitoring Ethylene Responses in Plants

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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