Simultaneous Downregulation of MTHFR and COMT in Switchgrass Affects Plant Performance and Induces Lesion-Mimic Cell Death

Sijia Liu; Sijia Liu; Chunxiang Fu; Jiqing Gou; Jiqing Gou; Liang Sun; David Huhman; Yunwei Zhang; Zeng-Yu Wang; Zeng-Yu Wang

doi:10.3389/fpls.2017.00982

Frontiers in Plant Science (Jun 2017)

Simultaneous Downregulation of MTHFR and COMT in Switchgrass Affects Plant Performance and Induces Lesion-Mimic Cell Death

Sijia Liu,
Sijia Liu,
Chunxiang Fu,
Jiqing Gou,
Jiqing Gou,
Liang Sun,
David Huhman,
Yunwei Zhang,
Zeng-Yu Wang,
Zeng-Yu Wang

Affiliations

Sijia Liu: Department of Grassland Science, China Agricultural University, National Energy R&D Center for BiomassBeijing, China
Sijia Liu: Forage Improvement Division, The Samuel Roberts Noble Foundation, ArdmoreOK, United States
Chunxiang Fu: Qingdao Institute of Bioenergy and Bioprocess Technology, Chinese Academy of SciencesQingdao, China
Jiqing Gou: Forage Improvement Division, The Samuel Roberts Noble Foundation, ArdmoreOK, United States
Jiqing Gou: BioEnergy Science Center, Oak Ridge National Laboratory (DOE), Oak RidgeTN, United States
Liang Sun: Computing Services, The Samuel Roberts Noble Foundation, ArdmoreOK, United States
David Huhman: Plant Biology Division, The Samuel Roberts Noble Foundation, ArdmoreOK, United States
Yunwei Zhang: Department of Grassland Science, China Agricultural University, National Energy R&D Center for BiomassBeijing, China
Zeng-Yu Wang: Forage Improvement Division, The Samuel Roberts Noble Foundation, ArdmoreOK, United States
Zeng-Yu Wang: BioEnergy Science Center, Oak Ridge National Laboratory (DOE), Oak RidgeTN, United States

DOI: https://doi.org/10.3389/fpls.2017.00982
Journal volume & issue: Vol. 8

Abstract

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Switchgrass (Panicum virgatum) has been developed into a model lignocellulosic bioenergy crop. Downregulation of caffeic acid O-methyltransferase (COMT), a key enzyme in lignin biosynthesis, has been shown to alter lignification and increase biofuel yield in switchgrass. Methylenetetrahydrofolate reductase (MTHFR) mediates C1 metabolism and provides methyl units consumed by COMT. It was predicted that co-silencing of MTHFR and COMT would impact lignification even more than either of the single genes. However, our results showed that strong downregulation of MTHFR in a COMT-deficient background led to altered plant growth and development, but no significant change in lignin content or composition was found when compared with COMT plants. Another unexpected finding was that the double MTHFR/COMT downregulated plants showed a novel lesion-mimic leaf phenotype. Molecular analyses revealed that the lesion-mimic phenotype was caused by the synergistic effect of MTHFR and COMT genes, with MTHFR playing a predominant role. Microarray analysis showed significant induction of genes related to oxidative and defense responses. The results demonstrated the lack of additive effects of MTHFR and COMT on lignification. Furthermore, this research revealed an unexpected role of the two genes in the modulation of lesion-mimic cell death as well as their synergistic effects on agronomic performance.

Published in Frontiers in Plant Science

ISSN: 1664-462X (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Agriculture: Plant culture
Website: https://www.frontiersin.org/journals/plant-science

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