Xylan arabinosyl transferases: identification and characterisation of their role in determining properties of grass cell walls

Project (past)

Project dates15 Apr 2013 to end of 14 Apr 2017
Researchers
Principal InvestigatorRowan Mitchell
Co-InvestigatorPeter Shewry
Co-InvestigatorJane Ward
FunderBiotechnology and Biological Sciences Research Council
Project numberS5269
5269
DepartmentPlant Biology and Crop Science (PBCS)
Research fish codeBB/K007599/1
Grant IDBB/K007599/1

Outputs

Sort by: Date Title

universal_grass_peps

N - Datasets
Mitchell, R. A. C. 2024. universal_grass_peps. Rothamsted Research. https://doi.org/10.23637/rothamsted.98ywz

A high soluble-fibre allele in wheat encodes a defective cell wall peroxidase responsible for dimerization of ferulate moieties on arabinoxylan

A - Papers appearing in refereed journals
Mitchell, R. A. C., Oszvald, M., Pellny, T. K., Freeman, J., Halsey, K., Sparks, C. A., Huttly, A. K., Specel, S., Leverington-Waite, M., Griffiths, S., Shewry, P. R. and Lovegrove, A. 2023. A high soluble-fibre allele in wheat encodes a defective cell wall peroxidase responsible for dimerization of ferulate moieties on arabinoxylan. bioRxiv. https://doi.org/10.1101/2023.03.08.531735

Modification of plant cell walls with hydroxycinnamic acids by BAHD acyltransferases

A - Papers appearing in refereed journals
Chandrakanth, N. N., Zhang, C. C., Freeman, J., de Souza, W. R., Bartley, L. E. and Mitchell, R. A. C. 2023. Modification of plant cell walls with hydroxycinnamic acids by BAHD acyltransferases. Frontiers in Plant Science. 13, p. 1088879. https://doi.org/10.3389/fpls.2022.1088879

Loss of TaIRX9b gene function in wheat decreases chain length and amount of arabinoxylan in grain but increases cross-linking

A - Papers appearing in refereed journals
Pellny, T. K., Wood, A., Freeman, J., Halsey, K., Plummer, A., Kosik, O., Shewry, P. R., Lovegrove, A., Phillips, A. L. and Mitchell, R. A. C. 2020. Loss of TaIRX9b gene function in wheat decreases chain length and amount of arabinoxylan in grain but increases cross-linking. Plant Biotechnology Journal. pp. 1-12. https://doi.org/10.1111/pbi.13393

Response of cell wall composition and RNA-seq transcriptome to methyl-jasmonate in Brachypodium distachyon callus

A - Papers appearing in refereed journals
Hyde, L. S., Pellny, T. K., Freeman, J., Michaelson, L. V., Simister, R., McQueen-Mason, S. J. and Mitchell, R. A. C. 2018. Response of cell wall composition and RNA-seq transcriptome to methyl-jasmonate in Brachypodium distachyon callus . Planta. 248 (5), pp. 1213-1229. https://doi.org/10.1007/s00425-018-2968-9

Suppression of a single BAHD gene in Setaria viridis causes large, stable decreases in cell wall feruloylation and increases biomass digestibility

A - Papers appearing in refereed journals
De Souza, W. R., Martins, P. K., Freeman, J., Pellny, T. K., Michaelson, L. V., Sampaio, B. L., Vinecky, F., Ribeiro, A. P., Da Cunha, B. A. D. B., Kobayashi, A. K., De Oliveira, P. A., Campanha, R. B., Pacheco, T. F., Martarello, D. C. I., Marchiosi, R., Ferrarese-Filho, O., Dos Santos, W. D., Tramontina, R., Squina, F. M., Centeno, D. C., Gaspar, M., Braga, M. R., Tine, M. A. S., Ralph, J., Mitchell, R. A. C. and Molinari, H. B. C. 2018. Suppression of a single BAHD gene in Setaria viridis causes large, stable decreases in cell wall feruloylation and increases biomass digestibility. New Phytologist. 218 (1), pp. 81-93. https://doi.org/10.1111/nph.14970