Downregulation of a CYP74 Rubber Particle Protein Increases Natural Rubber Production in Parthenium argentatum

Downregulation of a CYP74 Rubber Particle Protein Increases Natural Rubber Production in Parthenium argentatum

We report functional genomics studies of a CYP74 rubber particle protein from Parthenium argentatum, commonly called guayule. Previously identified as an allene oxide synthase (AOS), this CYP74 constitutes the most abundant protein found in guayule rubber particles. Transgenic guayule lines with AOS...

Full description

Bibliographic Details
Main Authors: Dante F. Placido, Niu Dong, Chen Dong, Von Mark V. Cruz, David A. Dierig, Rebecca E. Cahoon, Byung-guk Kang, Trinh Huynh, Maureen Whalen, Grisel Ponciano, Colleen McMahan
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-06-01
Series:Frontiers in Plant Science
Subjects:
allene oxide synthase
guayule
natural rubber
RNAi
jasmonic acid
salicylic acid
Online Access:https://www.frontiersin.org/article/10.3389/fpls.2019.00760/full
id doaj-e94a653d663c438ba4d8724dd0a57dfa
record_format Article
spelling doaj-e94a653d663c438ba4d8724dd0a57dfa2020-11-25T01:51:15ZengFrontiers Media S.A.Frontiers in Plant Science1664-462X2019-06-011010.3389/fpls.2019.00760463025Downregulation of a CYP74 Rubber Particle Protein Increases Natural Rubber Production in Parthenium argentatumDante F. Placido0Niu Dong1Chen Dong2Von Mark V. Cruz3David A. Dierig4Rebecca E. Cahoon5Byung-guk Kang6Trinh Huynh7Maureen Whalen8Grisel Ponciano9Colleen McMahan10Bioproducts Research Unit, Western Regional Research Center, Agricultural Research Service, United States Department of Agriculture, Albany, CA, United StatesBioproducts Research Unit, Western Regional Research Center, Agricultural Research Service, United States Department of Agriculture, Albany, CA, United StatesBioproducts Research Unit, Western Regional Research Center, Agricultural Research Service, United States Department of Agriculture, Albany, CA, United StatesGuayule Research Farm, Section Manager Agricultural Operations, Bridgestone Americas, Inc., Eloy, AZ, United StatesGuayule Research Farm, Section Manager Agricultural Operations, Bridgestone Americas, Inc., Eloy, AZ, United StatesDepartment of Biochemistry, University of Nebraska–Lincoln, Lincoln, NE, United StatesMonsanto Company, St. Louis, MO, United StatesBioproducts Research Unit, Western Regional Research Center, Agricultural Research Service, United States Department of Agriculture, Albany, CA, United StatesBioproducts Research Unit, Western Regional Research Center, Agricultural Research Service, United States Department of Agriculture, Albany, CA, United StatesBioproducts Research Unit, Western Regional Research Center, Agricultural Research Service, United States Department of Agriculture, Albany, CA, United StatesBioproducts Research Unit, Western Regional Research Center, Agricultural Research Service, United States Department of Agriculture, Albany, CA, United StatesWe report functional genomics studies of a CYP74 rubber particle protein from Parthenium argentatum, commonly called guayule. Previously identified as an allene oxide synthase (AOS), this CYP74 constitutes the most abundant protein found in guayule rubber particles. Transgenic guayule lines with AOS gene expression down-regulated by RNAi (AOSi) exhibited strong phenotypes that included agricultural traits conducive to enhancing rubber yield. AOSi lines had higher leaf and stem biomass, thicker stembark tissues, increased stem branching and improved net photosynthetic rate. Importantly, the rubber content was significantly increased in AOSi lines compared to the wild-type (WT), vector control and AOS overexpressing (AOSoe) lines, when grown in controlled environments both in tissue-culture media and in greenhouse/growth chambers. Rubber particles from AOSi plants consistently had less AOS particle-associated protein, and lower activity (for conversion of 13-HPOT to allene oxide). Yet plants with downregulated AOS showed higher rubber transferase enzyme activity. The increase in biomass in AOSi lines was associated with not only increases in the rate of photosynthesis and non-photochemical quenching (NPQ), in the cold, but also in the content of the phytohormone SA, along with a decrease in JA, GAs, and ABA. The increase in biosynthetic activity and rubber content could further result from the negative regulation of AOS expression by high levels of salicylic acid in AOSi lines and when introduced exogenously. It is apparent that AOS in guayule plays a pivotal role in rubber production and plant growth.https://www.frontiersin.org/article/10.3389/fpls.2019.00760/fullallene oxide synthaseguayulenatural rubberRNAijasmonic acidsalicylic acid
collection DOAJ
language English
format Article
sources DOAJ
author Dante F. Placido
Niu Dong
Chen Dong
Von Mark V. Cruz
David A. Dierig
Rebecca E. Cahoon
Byung-guk Kang
Trinh Huynh
Maureen Whalen
Grisel Ponciano
Colleen McMahan
spellingShingle Dante F. Placido
Niu Dong
Chen Dong
Von Mark V. Cruz
David A. Dierig
Rebecca E. Cahoon
Byung-guk Kang
Trinh Huynh
Maureen Whalen
Grisel Ponciano
Colleen McMahan
Downregulation of a CYP74 Rubber Particle Protein Increases Natural Rubber Production in Parthenium argentatum
Frontiers in Plant Science
allene oxide synthase
guayule
natural rubber
RNAi
jasmonic acid
salicylic acid
author_facet Dante F. Placido
Niu Dong
Chen Dong
Von Mark V. Cruz
David A. Dierig
Rebecca E. Cahoon
Byung-guk Kang
Trinh Huynh
Maureen Whalen
Grisel Ponciano
Colleen McMahan
author_sort Dante F. Placido
title Downregulation of a CYP74 Rubber Particle Protein Increases Natural Rubber Production in Parthenium argentatum
title_short Downregulation of a CYP74 Rubber Particle Protein Increases Natural Rubber Production in Parthenium argentatum
title_full Downregulation of a CYP74 Rubber Particle Protein Increases Natural Rubber Production in Parthenium argentatum
title_fullStr Downregulation of a CYP74 Rubber Particle Protein Increases Natural Rubber Production in Parthenium argentatum
title_full_unstemmed Downregulation of a CYP74 Rubber Particle Protein Increases Natural Rubber Production in Parthenium argentatum
title_sort downregulation of a cyp74 rubber particle protein increases natural rubber production in parthenium argentatum
publisher Frontiers Media S.A.
series Frontiers in Plant Science
issn 1664-462X
publishDate 2019-06-01
description We report functional genomics studies of a CYP74 rubber particle protein from Parthenium argentatum, commonly called guayule. Previously identified as an allene oxide synthase (AOS), this CYP74 constitutes the most abundant protein found in guayule rubber particles. Transgenic guayule lines with AOS gene expression down-regulated by RNAi (AOSi) exhibited strong phenotypes that included agricultural traits conducive to enhancing rubber yield. AOSi lines had higher leaf and stem biomass, thicker stembark tissues, increased stem branching and improved net photosynthetic rate. Importantly, the rubber content was significantly increased in AOSi lines compared to the wild-type (WT), vector control and AOS overexpressing (AOSoe) lines, when grown in controlled environments both in tissue-culture media and in greenhouse/growth chambers. Rubber particles from AOSi plants consistently had less AOS particle-associated protein, and lower activity (for conversion of 13-HPOT to allene oxide). Yet plants with downregulated AOS showed higher rubber transferase enzyme activity. The increase in biomass in AOSi lines was associated with not only increases in the rate of photosynthesis and non-photochemical quenching (NPQ), in the cold, but also in the content of the phytohormone SA, along with a decrease in JA, GAs, and ABA. The increase in biosynthetic activity and rubber content could further result from the negative regulation of AOS expression by high levels of salicylic acid in AOSi lines and when introduced exogenously. It is apparent that AOS in guayule plays a pivotal role in rubber production and plant growth.
topic allene oxide synthase
guayule
natural rubber
RNAi
jasmonic acid
salicylic acid
url https://www.frontiersin.org/article/10.3389/fpls.2019.00760/full
work_keys_str_mv AT dantefplacido downregulationofacyp74rubberparticleproteinincreasesnaturalrubberproductioninpartheniumargentatum
AT niudong downregulationofacyp74rubberparticleproteinincreasesnaturalrubberproductioninpartheniumargentatum
AT chendong downregulationofacyp74rubberparticleproteinincreasesnaturalrubberproductioninpartheniumargentatum
AT vonmarkvcruz downregulationofacyp74rubberparticleproteinincreasesnaturalrubberproductioninpartheniumargentatum
AT davidadierig downregulationofacyp74rubberparticleproteinincreasesnaturalrubberproductioninpartheniumargentatum
AT rebeccaecahoon downregulationofacyp74rubberparticleproteinincreasesnaturalrubberproductioninpartheniumargentatum
AT byunggukkang downregulationofacyp74rubberparticleproteinincreasesnaturalrubberproductioninpartheniumargentatum
AT trinhhuynh downregulationofacyp74rubberparticleproteinincreasesnaturalrubberproductioninpartheniumargentatum
AT maureenwhalen downregulationofacyp74rubberparticleproteinincreasesnaturalrubberproductioninpartheniumargentatum
AT griselponciano downregulationofacyp74rubberparticleproteinincreasesnaturalrubberproductioninpartheniumargentatum
AT colleenmcmahan downregulationofacyp74rubberparticleproteinincreasesnaturalrubberproductioninpartheniumargentatum
_version_ 1724997530491551744

Similar Items