Arabinose-rich polymers as an evolutionary strategy to plasticize resurrection plant cell walls against desiccation

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Arabinose-rich polymers as an evolutionary strategy to plasticize resurrection plant cell walls against desiccation. / Moore, John P.; Nguema-Ona, Eric E.; Vicré-Gibouin, Mäite; Sørensen, Iben; Willats, William George Tycho; Driouich, Azeddine; Farrent, Jill M.

In: Planta, Vol. 237, No. 3, 2013, p. 739-754.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Moore, JP, Nguema-Ona, EE, Vicré-Gibouin, M, Sørensen, I, Willats, WGT, Driouich, A & Farrent, JM 2013, 'Arabinose-rich polymers as an evolutionary strategy to plasticize resurrection plant cell walls against desiccation', Planta, vol. 237, no. 3, pp. 739-754. https://doi.org/10.1007/s00425-012-1785-9

APA

Moore, J. P., Nguema-Ona, E. E., Vicré-Gibouin, M., Sørensen, I., Willats, W. G. T., Driouich, A., & Farrent, J. M. (2013). Arabinose-rich polymers as an evolutionary strategy to plasticize resurrection plant cell walls against desiccation. Planta, 237(3), 739-754. https://doi.org/10.1007/s00425-012-1785-9

Vancouver

Moore JP, Nguema-Ona EE, Vicré-Gibouin M, Sørensen I, Willats WGT, Driouich A et al. Arabinose-rich polymers as an evolutionary strategy to plasticize resurrection plant cell walls against desiccation. Planta. 2013;237(3):739-754. https://doi.org/10.1007/s00425-012-1785-9

Author

Moore, John P. ; Nguema-Ona, Eric E. ; Vicré-Gibouin, Mäite ; Sørensen, Iben ; Willats, William George Tycho ; Driouich, Azeddine ; Farrent, Jill M. / Arabinose-rich polymers as an evolutionary strategy to plasticize resurrection plant cell walls against desiccation. In: Planta. 2013 ; Vol. 237, No. 3. pp. 739-754.

Bibtex

@article{47ffaeb95fca4b8b8b9bcdf1f18d84e4,
title = "Arabinose-rich polymers as an evolutionary strategy to plasticize resurrection plant cell walls against desiccation",
abstract = "A variety of Southern African resurrection plants were surveyed using high-throughput cell wall profiling tools. Species evaluated were the dicotyledons, Myrothamnus flabellifolia and Craterostigma plantagineum; the monocotyledons, Xerophyta viscosa, Xerophyta schlecterii, Xerophyta humilis and the resurrection grass Eragrostis nindensis, as well as a pteridophyte, the resurrection fern, Mohria caffrorum. Comparisons were made between hydrated and desiccated leaf and frond material, with respect to cell wall composition and polymer abundance, using monosaccharide composition analysis, FT-IR spectroscopy and comprehensive microarray polymer profiling in combination with multivariate data analysis. The data obtained suggest that three main functional strategies appear to have evolved to prepare plant cell walls for desiccation. Arabinan-rich pectin and arabinogalactan proteins are found in the resurrection fern M. caffrorum and the basal angiosperm M. flabellifolia where they appear to act as {\textquoteleft}pectic plasticizers{\textquoteright}. Dicotyledons with pectin-rich walls, such as C. plantagineum, seem to use inducible mechanisms which consist of up-regulating wall proteins and osmoprotectants. The hemicellulose-rich walls of the grass-like Xerophyta spp. and the resurrection grass E. nindensis were found to contain highly arabinosylated xylans and arabinogalactan proteins. These data support a general mechanism of {\textquoteleft}plasticising{\textquoteright} the cell walls of resurrection plants to desiccation and implicate arabinose-rich polymers (pectin-arabinans, arabinogalactan proteins and arabinoxylans) as the major contributors in ensuring flexibility is maintained and rehydration is facilitated in these plants.",
author = "Moore, {John P.} and Nguema-Ona, {Eric E.} and M{\"a}ite Vicr{\'e}-Gibouin and Iben S{\o}rensen and Willats, {William George Tycho} and Azeddine Driouich and Farrent, {Jill M.}",
year = "2013",
doi = "10.1007/s00425-012-1785-9",
language = "English",
volume = "237",
pages = "739--754",
journal = "Planta",
issn = "0032-0935",
publisher = "Springer",
number = "3",

}

RIS

TY - JOUR

T1 - Arabinose-rich polymers as an evolutionary strategy to plasticize resurrection plant cell walls against desiccation

AU - Moore, John P.

AU - Nguema-Ona, Eric E.

AU - Vicré-Gibouin, Mäite

AU - Sørensen, Iben

AU - Willats, William George Tycho

AU - Driouich, Azeddine

AU - Farrent, Jill M.

PY - 2013

Y1 - 2013

N2 - A variety of Southern African resurrection plants were surveyed using high-throughput cell wall profiling tools. Species evaluated were the dicotyledons, Myrothamnus flabellifolia and Craterostigma plantagineum; the monocotyledons, Xerophyta viscosa, Xerophyta schlecterii, Xerophyta humilis and the resurrection grass Eragrostis nindensis, as well as a pteridophyte, the resurrection fern, Mohria caffrorum. Comparisons were made between hydrated and desiccated leaf and frond material, with respect to cell wall composition and polymer abundance, using monosaccharide composition analysis, FT-IR spectroscopy and comprehensive microarray polymer profiling in combination with multivariate data analysis. The data obtained suggest that three main functional strategies appear to have evolved to prepare plant cell walls for desiccation. Arabinan-rich pectin and arabinogalactan proteins are found in the resurrection fern M. caffrorum and the basal angiosperm M. flabellifolia where they appear to act as ‘pectic plasticizers’. Dicotyledons with pectin-rich walls, such as C. plantagineum, seem to use inducible mechanisms which consist of up-regulating wall proteins and osmoprotectants. The hemicellulose-rich walls of the grass-like Xerophyta spp. and the resurrection grass E. nindensis were found to contain highly arabinosylated xylans and arabinogalactan proteins. These data support a general mechanism of ‘plasticising’ the cell walls of resurrection plants to desiccation and implicate arabinose-rich polymers (pectin-arabinans, arabinogalactan proteins and arabinoxylans) as the major contributors in ensuring flexibility is maintained and rehydration is facilitated in these plants.

AB - A variety of Southern African resurrection plants were surveyed using high-throughput cell wall profiling tools. Species evaluated were the dicotyledons, Myrothamnus flabellifolia and Craterostigma plantagineum; the monocotyledons, Xerophyta viscosa, Xerophyta schlecterii, Xerophyta humilis and the resurrection grass Eragrostis nindensis, as well as a pteridophyte, the resurrection fern, Mohria caffrorum. Comparisons were made between hydrated and desiccated leaf and frond material, with respect to cell wall composition and polymer abundance, using monosaccharide composition analysis, FT-IR spectroscopy and comprehensive microarray polymer profiling in combination with multivariate data analysis. The data obtained suggest that three main functional strategies appear to have evolved to prepare plant cell walls for desiccation. Arabinan-rich pectin and arabinogalactan proteins are found in the resurrection fern M. caffrorum and the basal angiosperm M. flabellifolia where they appear to act as ‘pectic plasticizers’. Dicotyledons with pectin-rich walls, such as C. plantagineum, seem to use inducible mechanisms which consist of up-regulating wall proteins and osmoprotectants. The hemicellulose-rich walls of the grass-like Xerophyta spp. and the resurrection grass E. nindensis were found to contain highly arabinosylated xylans and arabinogalactan proteins. These data support a general mechanism of ‘plasticising’ the cell walls of resurrection plants to desiccation and implicate arabinose-rich polymers (pectin-arabinans, arabinogalactan proteins and arabinoxylans) as the major contributors in ensuring flexibility is maintained and rehydration is facilitated in these plants.

U2 - 10.1007/s00425-012-1785-9

DO - 10.1007/s00425-012-1785-9

M3 - Journal article

C2 - 23117392

VL - 237

SP - 739

EP - 754

JO - Planta

JF - Planta

SN - 0032-0935

IS - 3

ER -

ID: 45846532