Current and future advances in fluorescence-based visualization of plant cell wall components and cell wall biosynthetic machineries

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Current and future advances in fluorescence-based visualization of plant cell wall components and cell wall biosynthetic machineries. / DeVree, Brian T.; Steiner, Lisa M.; Głazowska, Sylwia; Ruhnow, Felix; Herburger, Klaus; Persson, Staffan; Mravec, Jozef.

In: Biotechnology for Biofuels, Vol. 14, No. 1, 78, 2021.

Research output: Contribution to journalReviewResearchpeer-review

Harvard

DeVree, BT, Steiner, LM, Głazowska, S, Ruhnow, F, Herburger, K, Persson, S & Mravec, J 2021, 'Current and future advances in fluorescence-based visualization of plant cell wall components and cell wall biosynthetic machineries', Biotechnology for Biofuels, vol. 14, no. 1, 78. https://doi.org/10.1186/s13068-021-01922-0

APA

DeVree, B. T., Steiner, L. M., Głazowska, S., Ruhnow, F., Herburger, K., Persson, S., & Mravec, J. (2021). Current and future advances in fluorescence-based visualization of plant cell wall components and cell wall biosynthetic machineries. Biotechnology for Biofuels, 14(1), [78]. https://doi.org/10.1186/s13068-021-01922-0

Vancouver

DeVree BT, Steiner LM, Głazowska S, Ruhnow F, Herburger K, Persson S et al. Current and future advances in fluorescence-based visualization of plant cell wall components and cell wall biosynthetic machineries. Biotechnology for Biofuels. 2021;14(1). 78. https://doi.org/10.1186/s13068-021-01922-0

Author

DeVree, Brian T. ; Steiner, Lisa M. ; Głazowska, Sylwia ; Ruhnow, Felix ; Herburger, Klaus ; Persson, Staffan ; Mravec, Jozef. / Current and future advances in fluorescence-based visualization of plant cell wall components and cell wall biosynthetic machineries. In: Biotechnology for Biofuels. 2021 ; Vol. 14, No. 1.

Bibtex

@article{37b404976b574ceaa7887b9871b8f640,
title = "Current and future advances in fluorescence-based visualization of plant cell wall components and cell wall biosynthetic machineries",
abstract = "Plant cell wall-derived biomass serves as a renewable source of energy and materials with increasing importance. The cell walls are biomacromolecular assemblies defined by a fine arrangement of different classes of polysaccharides, proteoglycans, and aromatic polymers and are one of the most complex structures in Nature. One of the most challenging tasks of cell biology and biomass biotechnology research is to image the structure and organization of this complex matrix, as well as to visualize the compartmentalized, multiplayer biosynthetic machineries that build the elaborate cell wall architecture. Better knowledge of the plant cells, cell walls, and whole tissue is essential for bioengineering efforts and for designing efficient strategies of industrial deconstruction of the cell wall-derived biomass and its saccharification. Cell wall-directed molecular probes and analysis by light microscopy, which is capable of imaging with a high level of specificity, little sample processing, and often in real time, are important tools to understand cell wall assemblies. This review provides a comprehensive overview about the possibilities for fluorescence label-based imaging techniques and a variety of probing methods, discussing both well-established and emerging tools. Examples of applications of these tools are provided. We also list and discuss the advantages and limitations of the methods. Specifically, we elaborate on what are the most important considerations when applying a particular technique for plants, the potential for future development, and how the plant cell wall field might be inspired by advances in the biomedical and general cell biology fields.",
keywords = "Anti-glycan antibodies, Aptamers, Carbohydrate-binding modules, Cell wall probes, Click chemistry, Fluorescence microscopy, Genetic probes, Lambodies, Live cell imaging, Nanobodies, Plant cell wall architecture, Superresolution microscopy",
author = "DeVree, {Brian T.} and Steiner, {Lisa M.} and Sylwia G{\l}azowska and Felix Ruhnow and Klaus Herburger and Staffan Persson and Jozef Mravec",
year = "2021",
doi = "10.1186/s13068-021-01922-0",
language = "English",
volume = "14",
journal = "Biotechnology for Biofuels",
issn = "1754-6834",
publisher = "BioMed Central Ltd.",
number = "1",

}

RIS

TY - JOUR

T1 - Current and future advances in fluorescence-based visualization of plant cell wall components and cell wall biosynthetic machineries

AU - DeVree, Brian T.

AU - Steiner, Lisa M.

AU - Głazowska, Sylwia

AU - Ruhnow, Felix

AU - Herburger, Klaus

AU - Persson, Staffan

AU - Mravec, Jozef

PY - 2021

Y1 - 2021

N2 - Plant cell wall-derived biomass serves as a renewable source of energy and materials with increasing importance. The cell walls are biomacromolecular assemblies defined by a fine arrangement of different classes of polysaccharides, proteoglycans, and aromatic polymers and are one of the most complex structures in Nature. One of the most challenging tasks of cell biology and biomass biotechnology research is to image the structure and organization of this complex matrix, as well as to visualize the compartmentalized, multiplayer biosynthetic machineries that build the elaborate cell wall architecture. Better knowledge of the plant cells, cell walls, and whole tissue is essential for bioengineering efforts and for designing efficient strategies of industrial deconstruction of the cell wall-derived biomass and its saccharification. Cell wall-directed molecular probes and analysis by light microscopy, which is capable of imaging with a high level of specificity, little sample processing, and often in real time, are important tools to understand cell wall assemblies. This review provides a comprehensive overview about the possibilities for fluorescence label-based imaging techniques and a variety of probing methods, discussing both well-established and emerging tools. Examples of applications of these tools are provided. We also list and discuss the advantages and limitations of the methods. Specifically, we elaborate on what are the most important considerations when applying a particular technique for plants, the potential for future development, and how the plant cell wall field might be inspired by advances in the biomedical and general cell biology fields.

AB - Plant cell wall-derived biomass serves as a renewable source of energy and materials with increasing importance. The cell walls are biomacromolecular assemblies defined by a fine arrangement of different classes of polysaccharides, proteoglycans, and aromatic polymers and are one of the most complex structures in Nature. One of the most challenging tasks of cell biology and biomass biotechnology research is to image the structure and organization of this complex matrix, as well as to visualize the compartmentalized, multiplayer biosynthetic machineries that build the elaborate cell wall architecture. Better knowledge of the plant cells, cell walls, and whole tissue is essential for bioengineering efforts and for designing efficient strategies of industrial deconstruction of the cell wall-derived biomass and its saccharification. Cell wall-directed molecular probes and analysis by light microscopy, which is capable of imaging with a high level of specificity, little sample processing, and often in real time, are important tools to understand cell wall assemblies. This review provides a comprehensive overview about the possibilities for fluorescence label-based imaging techniques and a variety of probing methods, discussing both well-established and emerging tools. Examples of applications of these tools are provided. We also list and discuss the advantages and limitations of the methods. Specifically, we elaborate on what are the most important considerations when applying a particular technique for plants, the potential for future development, and how the plant cell wall field might be inspired by advances in the biomedical and general cell biology fields.

KW - Anti-glycan antibodies

KW - Aptamers

KW - Carbohydrate-binding modules

KW - Cell wall probes

KW - Click chemistry

KW - Fluorescence microscopy

KW - Genetic probes

KW - Lambodies

KW - Live cell imaging

KW - Nanobodies

KW - Plant cell wall architecture

KW - Superresolution microscopy

U2 - 10.1186/s13068-021-01922-0

DO - 10.1186/s13068-021-01922-0

M3 - Review

C2 - 33781321

AN - SCOPUS:85103603681

VL - 14

JO - Biotechnology for Biofuels

JF - Biotechnology for Biofuels

SN - 1754-6834

IS - 1

M1 - 78

ER -

ID: 260199970