Are cell wall traits a component of the succulent syndrome?

Publikation: Working paperPreprintForskning

Standard

Are cell wall traits a component of the succulent syndrome? / Fradera-Soler, Marc; Leverett, Alistair; Mravec, Jozef; Jørgensen, Bodil; Borland, Anne M.; Grace, Olwen M.

bioRxiv, 2022.

Publikation: Working paperPreprintForskning

Harvard

Fradera-Soler, M, Leverett, A, Mravec, J, Jørgensen, B, Borland, AM & Grace, OM 2022 'Are cell wall traits a component of the succulent syndrome?' bioRxiv. https://doi.org/10.1101/2022.06.25.497541

APA

Fradera-Soler, M., Leverett, A., Mravec, J., Jørgensen, B., Borland, A. M., & Grace, O. M. (2022). Are cell wall traits a component of the succulent syndrome? bioRxiv. https://doi.org/10.1101/2022.06.25.497541

Vancouver

Fradera-Soler M, Leverett A, Mravec J, Jørgensen B, Borland AM, Grace OM. Are cell wall traits a component of the succulent syndrome? bioRxiv. 2022. https://doi.org/10.1101/2022.06.25.497541

Author

Fradera-Soler, Marc ; Leverett, Alistair ; Mravec, Jozef ; Jørgensen, Bodil ; Borland, Anne M. ; Grace, Olwen M. / Are cell wall traits a component of the succulent syndrome?. bioRxiv, 2022.

Bibtex

@techreport{f6736310677642459f6a81b080669b27,
title = "Are cell wall traits a component of the succulent syndrome?",
abstract = "Succulence is an adaptation to low water availability characterised by the presence of water-storage tissues that alleviate water stress under low water availability. The succulent syndrome has evolved convergently in over 80 plant families and is associated with anatomical, physiological and biochemical traits. Despite the alleged importance of cell wall traits in drought responses, their significance in the succulent syndrome has long been overlooked. Here, by analysing published pressure–volume curves, we show that elastic adjustment, whereby plants change cell wall elasticity, is uniquely beneficial to succulents for avoiding turgor loss. In addition, we used comprehensive microarray polymer profiling (CoMPP) to assess the biochemical composition of cell walls in leaves. Across phylogenetically diverse species, we uncover several differences in cell wall biochemistry between succulent and non-succulent leaves, pointing to the existence of a {\textquoteleft}succulent glycome{\textquoteright}. We also highlight the glycomic diversity among succulent plants, with some glycomic features being restricted to certain succulent lineages. In conclusion, we suggest that cell wall biomechanics and biochemistry should be considered among the characteristic traits that make up the succulent syndrome.",
author = "Marc Fradera-Soler and Alistair Leverett and Jozef Mravec and Bodil J{\o}rgensen and Borland, {Anne M.} and Grace, {Olwen M.}",
year = "2022",
doi = "10.1101/2022.06.25.497541",
language = "English",
publisher = "bioRxiv",
type = "WorkingPaper",
institution = "bioRxiv",

}

RIS

TY - UNPB

T1 - Are cell wall traits a component of the succulent syndrome?

AU - Fradera-Soler, Marc

AU - Leverett, Alistair

AU - Mravec, Jozef

AU - Jørgensen, Bodil

AU - Borland, Anne M.

AU - Grace, Olwen M.

PY - 2022

Y1 - 2022

N2 - Succulence is an adaptation to low water availability characterised by the presence of water-storage tissues that alleviate water stress under low water availability. The succulent syndrome has evolved convergently in over 80 plant families and is associated with anatomical, physiological and biochemical traits. Despite the alleged importance of cell wall traits in drought responses, their significance in the succulent syndrome has long been overlooked. Here, by analysing published pressure–volume curves, we show that elastic adjustment, whereby plants change cell wall elasticity, is uniquely beneficial to succulents for avoiding turgor loss. In addition, we used comprehensive microarray polymer profiling (CoMPP) to assess the biochemical composition of cell walls in leaves. Across phylogenetically diverse species, we uncover several differences in cell wall biochemistry between succulent and non-succulent leaves, pointing to the existence of a ‘succulent glycome’. We also highlight the glycomic diversity among succulent plants, with some glycomic features being restricted to certain succulent lineages. In conclusion, we suggest that cell wall biomechanics and biochemistry should be considered among the characteristic traits that make up the succulent syndrome.

AB - Succulence is an adaptation to low water availability characterised by the presence of water-storage tissues that alleviate water stress under low water availability. The succulent syndrome has evolved convergently in over 80 plant families and is associated with anatomical, physiological and biochemical traits. Despite the alleged importance of cell wall traits in drought responses, their significance in the succulent syndrome has long been overlooked. Here, by analysing published pressure–volume curves, we show that elastic adjustment, whereby plants change cell wall elasticity, is uniquely beneficial to succulents for avoiding turgor loss. In addition, we used comprehensive microarray polymer profiling (CoMPP) to assess the biochemical composition of cell walls in leaves. Across phylogenetically diverse species, we uncover several differences in cell wall biochemistry between succulent and non-succulent leaves, pointing to the existence of a ‘succulent glycome’. We also highlight the glycomic diversity among succulent plants, with some glycomic features being restricted to certain succulent lineages. In conclusion, we suggest that cell wall biomechanics and biochemistry should be considered among the characteristic traits that make up the succulent syndrome.

U2 - 10.1101/2022.06.25.497541

DO - 10.1101/2022.06.25.497541

M3 - Preprint

BT - Are cell wall traits a component of the succulent syndrome?

PB - bioRxiv

ER -

ID: 320012072