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You searched for: Author "Molinari, Hugo B. C." Remove constraint Author: "Molinari, Hugo B. C." Journal Thenew phytologist Remove constraint Journal: Thenew phytologist
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1. Suppression of a single BAHD gene in Setaria viridis causes large, stable decreases in cell wall feruloylation and increases biomass digestibility

Author:
Molinari, Hugo B. C.,   et al.   ; de Souza, Wagner R.; Martins, Polyana K.; Freeman, Jackie; Pellny, Till K.; Michaelson, Louise V.; Sampaio, Bruno L.; Vinecky, Felipe; Ribeiro, Ana P.; da Cunha, Barbara A. D. B.; Kobayashi, Adilson K.; de Oliveira, Patricia A.; Campanha, Raquel B.; Pacheco, Thályta F.; Martarello, Danielly C. I.; Marchiosi, Rogério; Ferrarese‐Filho, Osvaldo; dos Santos, Wanderley D.; Tramontina, Robson; Squina, Fabio M.; Centeno, Danilo C.; Gaspar, Marília; Braga, Marcia R.; Tiné, Marco A. S.; Ralph, John; Mitchell, Rowan A. C.;     Show all 26 Authors
Source:
Thenew phytologist 2018 v.218 no.1 pp. 81-93
ISSN:
0028-646X
Subject:
Brachypodium distachyon; RNA interference; Setaria viridis; acyl coenzyme A; animal nutrition; arabinose; arabinoxylan; biofuels; biomass production; biorefining; cell walls; crops; digestibility; evolution; genes; grasses; lignin; models; nuclear magnetic resonance spectroscopy; saccharification; stems; transferases
Abstract:
... Feruloylation of arabinoxylan (AX) in grass cell walls is a key determinant of recalcitrance to enzyme attack, making it a target for improvement of grass crops, and of interest in grass evolution. Definitive evidence on the genes responsible is lacking so we studied a candidate gene that we identified within the BAHD acyl‐CoA transferase family. We used RNA interference (RNAi) silencing of orthol ...
DOI:
10.1111/nph.14970
PubMed:
29315591
PubMed Central:
PMC5873385