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Fourier transform mid infrared spectroscopy applications for monitoring the structural plasticity of plant cell walls

Journal article

Asier Largo-Gosens, Mabel Hernández-Altamirano, L. García-Calvo, A. Alonso-Simón, J. Álvarez, J. Acebes
Frontiers in Plant Science, 2014
Semantic Scholar DOI PubMedCentral PubMed
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APA   Click to copy
Largo-Gosens, A., Hernández-Altamirano, M., García-Calvo, L., Alonso-Simón, A., Álvarez, J., & Acebes, J. (2014). Fourier transform mid infrared spectroscopy applications for monitoring the structural plasticity of plant cell walls. Frontiers in Plant Science.

Chicago/Turabian   Click to copy
Largo-Gosens, Asier, Mabel Hernández-Altamirano, L. García-Calvo, A. Alonso-Simón, J. Álvarez, and J. Acebes. “Fourier Transform Mid Infrared Spectroscopy Applications for Monitoring the Structural Plasticity of Plant Cell Walls.” Frontiers in Plant Science (2014).

MLA   Click to copy
Largo-Gosens, Asier, et al. “Fourier Transform Mid Infrared Spectroscopy Applications for Monitoring the Structural Plasticity of Plant Cell Walls.” Frontiers in Plant Science, 2014.

BibTeX   Click to copy 

@article{asier2014a,
  title = {Fourier transform mid infrared spectroscopy applications for monitoring the structural plasticity of plant cell walls},
  year = {2014},
  journal = {Frontiers in Plant Science},
  author = {Largo-Gosens, Asier and Hernández-Altamirano, Mabel and García-Calvo, L. and Alonso-Simón, A. and Álvarez, J. and Acebes, J.}
}

Abstract

Fourier transform mid-infrared (FT-MIR) spectroscopy has been extensively used as a potent, fast and non-destructive procedure for analyzing cell wall architectures, with the capacity to provide abundant information about their polymers, functional groups, and in muro entanglement. In conjunction with multivariate analyses, this method has proved to be a valuable tool for tracking alterations in cell walls. The present review examines recent progress in the use of FT-MIR spectroscopy to monitor cell wall changes occurring in muro as a result of various factors, such as growth and development processes, genetic modifications, exposition or habituation to cellulose biosynthesis inhibitors and responses to other abiotic or biotic stresses, as well as its biotechnological applications.