Multivariate Raman mapping for phenotypic characterization in plant tissue sections

Liedtke, Ingrid; Diehn, Sabrina; Heiner, Zsuzsanna; Seifert, Stephan; Obenaus, Sabine; Büttner, Carmen; Kneipp, Janina

doi:10.1016/j.saa.2020.119418

Cited by 9 publications

(8 citation statements)

References 232 publications

(454 reference statements)

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“…Raman maps were pre-processed and analyzed using Matlab R2020b (The MathWorks, Inc, Natick, MA, USA). Data pre-processing steps included the data managing with sorting the spectra and eventually extracting selective spectra corresponding to specific spots or tissues using approaches for multivariate classification ( Liedtke et al., 2021 ). Spectra were interpolated with a distance of 1.8 cm -1 in the range of 350 to 1800 cm- 1 in order to assure equal distances between data points.…”

Section: Methodsmentioning

confidence: 99%

Deposition of silica in sorghum root endodermis modifies the chemistry of associated lignin

Zexer,

Diehn,

Elbaum

2024

Front. Plant Sci.

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Silica aggregates at the endodermis of sorghum roots. Aggregation follows a spotted pattern of locally deposited lignin at the inner tangential cell walls. Autofluorescence microscopy suggests that non-silicified (-Si) lignin spots are composed of two distinct concentric regions of varied composition. To highlight variations in lignin chemistry, we used Raman microspectroscopy to map the endodermal cell wall and silica aggregation sites in sorghum roots grown hydroponically with or without Si amendment. In +Si samples, the aggregate center was characterized by typical lignin monomer bands surrounded by lignin with a low level of polymerization. Farther from the spot, polysaccharide concentration increased and soluble silicic acid was detected in addition to silica bands. In -Si samples, the main band at the spot center was assigned to lignin radicals and highly polymerized lignin. Both +Si and -Si loci were enriched by aromatic carbonyls. We propose that at silica aggregation sites, carbonyl rich lignin monomers are locally exported to the apoplast. These monomers are radicalized and polymerized into short lignin polymers. In the presence of silicic acid, bonds typically involved in lignin extension, bind to silanols and nucleate silica aggregates near the monomer extrusion loci. This process inhibits further polymerization of lignin. In -Si samples, the monomers diffuse farther in the wall and crosslink with cell wall polymers, forming a ring of dense lignified cell wall around their export sites.

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Section: Methodsmentioning

confidence: 99%

Deposition of silica in sorghum root endodermis modifies the chemistry of associated lignin

Zexer,

Diehn,

Elbaum

2024

Front. Plant Sci.

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“…The final spectra for each sample were obtained by the average of 48 scans with a resolution of 4 cm −1 in a spectral range of 200–2400 cm −1 . The spectra were frequency‐calibrated using the spectrum of a mixture of toluene and acetonitrile (Almeida et al, 2010; Liedtke et al, 2021).…”

Section: Methodsmentioning

confidence: 99%

A new approach to Fourier transform Raman: Identification of haploids in maize (Zea mays)

et al. 2023

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The objective of this work was to adapt the FT Raman spectroscopy analysis in the differentiation of haploid and diploid kernels in maize, developing a new efficient, agile, precise, and nondestructive methodology. The main difference observed in FT Raman readings was a peak in the region between 1600 and 1700 cm−1 in possibly haploid kernels. It was possible to correlate the characteristics of the kernels with the presence of the R1‐nj gene and the readings obtained in the Raman spectrometry technique. Most of the kernels previously classified as haploid showed positive values for principal component analysis (PCAs), indicating a correlation in the identification of haploids by the techniques adopted. The identification of haploids by R‐Navajo was superior to FT Raman. However, FT Raman spectroscopy is an agile analysis technique that enables the development of non‐invasive and non‐destructive analytical methods in maize kernels, in addition to providing relevant information about the chemical structures present in the composition of the samples.

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“…The acquired tissue needs to be measured for Raman spectroscopy promptly to prevent tissue denaturation, which can lead to inaccurate results. [106,107] If the timely measurement is not possible, the tissue can be fixed and decalcified by organic matter and placed in cryopreservation or directly in liquid nitrogen for preservation. [108][109][110][111][112] It is noteworthy that during the decalcification process, the hydrochloric acid/ethylenediamine tetraacetic acid (HCl/EDTA) mixture removed most of the minerals.…”

Section: The Advance Of Raman Spectroscopic Study On Biomineralizationmentioning

confidence: 99%

Physicochemical Understanding of Biomineralization by Molecular Vibrational Spectroscopy: From Mechanism to Nature

Liu¹,

Jiang²,

Liu³

et al. 2023

Preprint

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The process and mechanism of biomineralization and relevant physicochemical properties of mineral crystals are remarkably sophisticated multidisciplinary fields that include biology, chemistry, physics, and materials science. The components of the organic matter, structural construction of minerals, and related mechanical interaction, etc., could help to reveal the unique nature of the special mineralization process. Herein, the paper provides an overview of the biomineralization process from the perspective of molecular vibrational spectroscopy, including the physicochemical properties of biomineralized tissues, from physiological to applied mineralization. These physicochemical characteristics closely to the hierarchical mineralization process include biological crystal defects, chemical bonding, atomic doping, structural changes, and content changes in organic matter, along with the interface between biocrystals and organic matter as well as the specific mechanical effects for hardness and toughness. Based on those observations, the special physiological properties of mineralization for enamel and bone, as well as the possible mechanism of pathological mineralization and calcification such as atherosclerosis, tumor micro mineralization, and urolithiasis are also reviewed and discussed. Indeed, the clearly defined physicochemical properties of mineral crystals could pave the way for studies on the mechanisms and applications.

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Multivariate Raman mapping for phenotypic characterization in plant tissue sections

Cited by 9 publications

References 232 publications

Deposition of silica in sorghum root endodermis modifies the chemistry of associated lignin

Deposition of silica in sorghum root endodermis modifies the chemistry of associated lignin

A new approach to Fourier transform Raman: Identification of haploids in maize (Zea mays)

Physicochemical Understanding of Biomineralization by Molecular Vibrational Spectroscopy: From Mechanism to Nature

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