Prosiectau fesul blwyddyn
Crynodeb
One of the challenges to enable targeted modification of lignocellulosic biomass from grasses for improved biofuel and biochemical production lies within our limited understanding of the transcriptional control of secondary cell wall biosynthesis. Here, we investigated the role of the maize MYB transcription factor ZmMYB167 in secondary cell wall biosynthesis and how modified ZmMYB167
expression in two distinct grass model species affects plant biomass and growth phenotypes. Heterologous expression of ZmMYB167 in the C3 model system Brachypodium led to mild dwarf phenotypes, increased lignin (~7% to 13%) and S-lignin monomer (~11% to 16%) content, elevated concentrations of cell wall-bound p-coumaric acid (~15% to 24%) and reduced biomass sugar release
(~20%) compared to controls. Overexpression of ZmMYB167 in the C4 model system Zea mays increased lignin (~4% to 13%), p-coumaric acid (~8% to 52%) and ferulic acid (~13% to 38%) content but did not affect plant growth and development nor biomass recalcitrance. Taken together, modifying ZmMYB167
expression represents a target to alter lignin and phenolic content in grasses. The ZmMYB167 expression-induced discrepancies in plant phenotypic and biomass properties between the two grass model systems highlight the challenges and opportunities for MYB transcription factor-based genetic
engineering approaches of grass biomass.
expression in two distinct grass model species affects plant biomass and growth phenotypes. Heterologous expression of ZmMYB167 in the C3 model system Brachypodium led to mild dwarf phenotypes, increased lignin (~7% to 13%) and S-lignin monomer (~11% to 16%) content, elevated concentrations of cell wall-bound p-coumaric acid (~15% to 24%) and reduced biomass sugar release
(~20%) compared to controls. Overexpression of ZmMYB167 in the C4 model system Zea mays increased lignin (~4% to 13%), p-coumaric acid (~8% to 52%) and ferulic acid (~13% to 38%) content but did not affect plant growth and development nor biomass recalcitrance. Taken together, modifying ZmMYB167
expression represents a target to alter lignin and phenolic content in grasses. The ZmMYB167 expression-induced discrepancies in plant phenotypic and biomass properties between the two grass model systems highlight the challenges and opportunities for MYB transcription factor-based genetic
engineering approaches of grass biomass.
Iaith wreiddiol | Saesneg |
---|---|
Rhif yr erthygl | 8800 |
Cyfnodolyn | Scientific Reports |
Cyfrol | 9 |
Rhif cyhoeddi | 1 |
Dyddiad ar-lein cynnar | 19 Meh 2019 |
Dynodwyr Gwrthrych Digidol (DOIs) | |
Statws | Cyhoeddwyd - 01 Rhag 2019 |
Ôl bys
Gweld gwybodaeth am bynciau ymchwil 'Modified expression of ZmMYB167 in Brachypodium distachyon and Zea mays leads to increased cell wall lignin and phenolic content'. Gyda’i gilydd, maen nhw’n ffurfio ôl bys unigryw.Proffiliau
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Maurice Bosch
Unigolyn: Dysgu ac Ymchwil
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Joe Gallagher
Unigolyn: Dysgu ac Ymchwil
Prosiectau
- 2 Wedi Gorffen
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Integrated Biorefining Research and Technology Club - Aberystwyth University
Gallagher, J. (Prif Ymchwilydd)
Biotechnology and Biological Sciences Research Council
01 Hyd 2012 → 30 Medi 2016
Prosiect: Ymchwil a ariannwyd yn allanol
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Optimising energy output and biorefining
Donnison, I. (Prif Ymchwilydd), Gallagher, J. (Prif Ymchwilydd), Shah, I. P. (Prif Ymchwilydd) & Winters, A. (Prif Ymchwilydd)
Biotechnology and Biological Sciences Research Council
01 Ebr 2012 → 31 Maw 2017
Prosiect: Ymchwil a ariannwyd yn allanol