Increasing leaf longevity and disease resistance by altering salicylic acid catabolism

Gan, Susheng; Zhang, Kewei

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Title: Increasing leaf longevity and disease resistance by altering salicylic acid catabolism

Abstract

The present invention relates to a transgenic plant having an altered level of salicylic acid 3-hydroxylase ("S3H") protein, compared to that of a non-transgenic plant, where the transgenic plant displays an altered leaf senescence phenotype, relative to a non-transgenic plant. The present invention relates to a mutant plant comprising an inactivated gene encoding S3H protein, where the mutant plant displays a premature or precocious leaf senescence phenotype, relative to a non-mutant plant. The present invention also relates to methods for promoting premature or precocious leaf senescence in a plant, delaying leaf senescence in a plant, and making a mutant plant having a decreased level of S3H protein compared to that of a non-mutant plant, where the mutant plant displays a premature or precocious leaf senescence phenotype relative to a non-mutant plant. The present invention also relates to inducing or promoting pathogen resistance in plants.

Inventors:: Gan, Susheng; Zhang, Kewei

Issue Date:: Tue Jan 23 00:00:00 EST 2018

Research Org.:: Cornell Univ., Ithaca, NY (United States)

Sponsoring Org.:: USDOE

OSTI Identifier:: 1417889

Patent Number(s):: 9873889

Application Number:: 14/909,641

Assignee:: Cornell University (Ithaca, NY)

Patent Classifications (CPCs):: C - CHEMISTRY C12 - BIOCHEMISTRY C12N - MICROORGANISMS OR ENZYMES

C - CHEMISTRY C12 - BIOCHEMISTRY C12Y - ENZYMES

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C - CHEMISTRY C12 - BIOCHEMISTRY C12N - MICROORGANISMS OR ENZYMES
C12N15/8266 - {Abscission
C12N15/8279 - {for biotic stress resistance, pathogen resistance, disease resistance}
C12N15/8281 - {for bacterial resistance}
C12N9/0073 - {with NADH or NADPH as one donor, and incorporation of one atom of oxygen 1.14.13}

C - CHEMISTRY C12 - BIOCHEMISTRY C12Y - ENZYMES
C12Y114/13 - with NADH or NADPH as one donor, and incorporation of one atom of oxygen

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DOE Contract Number:: FG02-02ER15341

Resource Type:: Patent

Resource Relation:: Patent File Date: 2014 Aug 01

Country of Publication:: United States

Language:: English

Subject:: 59 BASIC BIOLOGICAL SCIENCES

Citation Formats


                    Gan, Susheng, and Zhang, Kewei. Increasing leaf longevity and disease resistance by altering salicylic acid catabolism.  United States: N. p., 2018. 
        Web.

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                    Gan, Susheng, & Zhang, Kewei. Increasing leaf longevity and disease resistance by altering salicylic acid catabolism.  United States.

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                    Gan, Susheng, and Zhang, Kewei. Tue .  
        "Increasing leaf longevity and disease resistance by altering salicylic acid catabolism".  United States.  https://www.osti.gov/servlets/purl/1417889.

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@article{osti_1417889,

  title        = {Increasing leaf longevity and disease resistance by altering salicylic acid catabolism},

  author       = {Gan, Susheng and Zhang, Kewei},

  abstractNote = {The present invention relates to a transgenic plant having an altered level of salicylic acid 3-hydroxylase ("S3H") protein, compared to that of a non-transgenic plant, where the transgenic plant displays an altered leaf senescence phenotype, relative to a non-transgenic plant. The present invention relates to a mutant plant comprising an inactivated gene encoding S3H protein, where the mutant plant displays a premature or precocious leaf senescence phenotype, relative to a non-mutant plant. The present invention also relates to methods for promoting premature or precocious leaf senescence in a plant, delaying leaf senescence in a plant, and making a mutant plant having a decreased level of S3H protein compared to that of a non-mutant plant, where the mutant plant displays a premature or precocious leaf senescence phenotype relative to a non-mutant plant. The present invention also relates to inducing or promoting pathogen resistance in plants.},

  doi          = {},

  journal      = {},
number       = ,

  volume       = ,

  place        = {United States},

  year         = {Tue Jan 23 00:00:00 EST 2018},

  month        = {Tue Jan 23 00:00:00 EST 2018}

}

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Works referenced in this record:

Sequence-determined DNA fragments and corresponding polypeptides encoded thereby
patent-application,

Alexandrov, Nickolai; Brover, Vyacheslav
US Patent Application 11/056355; 20060150283
URL: https://image-ppubs.uspto.gov/dirsearch-public/print/downloadPdf/20060150283

Cloning and expression of flavonol synthase from Petunia hybrida
journal, December 1993

Holton, Timothy A.; Brugliera, Filippa; Tanaka, Yoshikazu
The Plant Journal, Vol. 4, Issue 6, p. 1003-1010
https://doi.org/10.1046/j.1365-313X.1993.04061003.x

An Abscisic Acid-AtNAP Transcription Factor-SAG113 Protein Phosphatase 2C Regulatory Chain for Controlling Dehydration in Senescing Arabidopsis Leaves
journal, December 2011

Zhang, K.; Gan, S.-S.
Plant Physiology, Vol. 158, Issue 2, p. 961-969
https://doi.org/10.1104/pp.111.190876

Salicylic acid 3-hydroxylase regulates Arabidopsis leaf longevity by mediating salicylic acid catabolism
journal, August 2013

Zhang, Kewei; Halitschke, Rayko; Yin, Changxi
Proceedings of the National Academy of Sciences, Vol. 110, Issue 36, p. 14807-14812
https://doi.org/10.1073/pnas.1302702110

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Similar Records

Title: Increasing leaf longevity and disease resistance by altering salicylic acid catabolism

Abstract

Citation Formats

Sequence-determined DNA fragments and corresponding polypeptides encoded thereby patent-application,

Cloning and expression of flavonol synthase from Petunia hybrida journal, December 1993

An Abscisic Acid-AtNAP Transcription Factor-SAG113 Protein Phosphatase 2C Regulatory Chain for Controlling Dehydration in Senescing Arabidopsis Leaves journal, December 2011

Salicylic acid 3-hydroxylase regulates Arabidopsis leaf longevity by mediating salicylic acid catabolism journal, August 2013

Sequence-determined DNA fragments and corresponding polypeptides encoded thereby
patent-application,

Cloning and expression of flavonol synthase from Petunia hybrida
journal, December 1993

An Abscisic Acid-AtNAP Transcription Factor-SAG113 Protein Phosphatase 2C Regulatory Chain for Controlling Dehydration in Senescing Arabidopsis Leaves
journal, December 2011

Salicylic acid 3-hydroxylase regulates Arabidopsis leaf longevity by mediating salicylic acid catabolism
journal, August 2013