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Monolignol ferulate conjugates are naturally incorporated into plant lignins

Authors :
Bronwen G. Smith
John H. Grabber
Troy Runge
Matthew L. Peck
Heather C. A. Free
Laura E. Bartley
Kirankumar S. Mysore
Richard Sibout
John Ralph
Chengcheng Zhang
Steven D. Karlen
Fachuang Lu
Seonghee Lee
Kate E. Helmich
Dharshana Padmakshan
Philip J. Harris
John C. Sedbrook
Rebecca A. Smith
Department of Bio- chemistry
University of Wisconsin-Madison
Department of Energy Great Lakes Bioenergy Research Center
Michigan State University [East Lansing]
Michigan State University System-Michigan State University System
Department of Microbiology and Plant Biology
University of Oklahoma (OU)
School of Chemical Sciences
Dublin City University [Dublin] (DCU)
School of Biological Sciences [Auckland]
University of Auckland [Auckland]
Department of Horticultural Science, IFAS (Institute of Food and Agricultural Sciences) Gulf Coast Research and Education Center
University of Florida [Gainesville] (UF)
Department of Energy Great Lakes Bioenergy Research Center, School of Biological Sciences
Illinois State University
Institut Jean-Pierre Bourgin (IJPB)
Institut National de la Recherche Agronomique (INRA)-AgroParisTech
Agricultural Research Service , US Department of Agriculture
Dairy Forage Research Center
Department of Biological Systems Engineering
Plant Biology Division
The Samuel Roberts Noble Foundation
School of Biological Sciences [Clayton]
Monash University [Clayton]
University of Wisconsin
University of Florida [Gainesville]
Bartley, Laura E.
Ralph, John
Source :
Science Advances, Science Advances, American Association for the Advancement of Science (AAAS), 2016, 2 (10), ⟨10.1126/sciadv.1600393⟩, Science Advances 10 (2), . (2016)
Publication Year :
2016
Publisher :
HAL CCSD, 2016.

Abstract

Plants have convergently evolved to use monolignol ferulate conjugates to produce lignins containing chemically labile backbone esters.<br />Angiosperms represent most of the terrestrial plants and are the primary research focus for the conversion of biomass to liquid fuels and coproducts. Lignin limits our access to fibers and represents a large fraction of the chemical energy stored in plant cell walls. Recently, the incorporation of monolignol ferulates into lignin polymers was accomplished via the engineering of an exotic transferase into commercially relevant poplar. We report that various angiosperm species might have convergently evolved to natively produce lignins that incorporate monolignol ferulate conjugates. We show that this activity may be accomplished by a BAHD feruloyl–coenzyme A monolignol transferase, OsFMT1 (AT5), in rice and its orthologs in other monocots.

Subjects

Subjects :
0106 biological sciences
0301 basic medicine
cell-walls
BAHD transferase
[SDV]Life Sciences [q-bio]
lignin
perspective
macromolecular substances
Plant Science
01 natural sciences
complex mixtures
DFRC
structural-characterization
transferase pmt
dfrc method
rice
lignification
overexpression
identification
biosynthesis
Cell wall
03 medical and health sciences
chemistry.chemical_compound
Transferase
Lignin
monocot
Grasses
phylogenetic tree
Research Articles
transgenic
Multidisciplinary
Chemistry
fungi
technology, industry, and agriculture
food and beverages
SciAdv r-articles
monolignol
3. Good health
030104 developmental biology
Biochemistry
Monolignol
GC-MS
010606 plant biology & botany
Conjugate
Research Article

Details

Language :
English
ISSN :
23752548
Database :
OpenAIRE
Journal :
Science Advances, Science Advances, American Association for the Advancement of Science (AAAS), 2016, 2 (10), ⟨10.1126/sciadv.1600393⟩, Science Advances 10 (2), . (2016)
Accession number :
edsair.doi.dedup.....a55c2e16602235479fdf590399d12754

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