In vivo diagnostics of early abiotic plant stress response via Raman spectroscopy

Altangerel, Narangerel; Ariunbold, Gombojav O.; Gorman, Connor; Alkahtani, Masfer; Borrego, Eli J.; Bohlmeyer, Dwight; Hemmer, Philip; Kolomiets, Michael V.; Yuan, Joshua S.; Scully, Marlan O.

doi:10.1073/pnas.1701328114

Cited by 113 publications

(95 citation statements)

References 38 publications

(64 reference statements)

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“…Dong and Zhao (1) attempt to provide perspective on our use of Raman spectroscopy in plant stress studies (2). Unfortunately, their experimental criticism is incorrect and their technical suggestions won't work.…”

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confidence: 99%

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Reply to Dong and Zhao: Plant stress via Raman spectroscopy

Altangerel

Ariunbold

Gorman

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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confidence: 99%

“…Dong and Zhao (1) do not understand our experiment. The Raman peak at 1,525 cm −1 is strong, but cannot be used for our purposes involving simultaneous detection of two molecules (2). We cannot use these peaks because anthocyanin's 1,516-1,545 cm −1 peaks overlap with carotenoids' 1,525 cm −1 .…”

mentioning

confidence: 99%

Reply to Dong and Zhao: Plant stress via Raman spectroscopy

Altangerel

Ariunbold

Gorman

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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“…Brillouin spectra are collected using a tandem Fabry–Perot interferometer coupled with a photomultiplier. Abbreviations: BS, beam splitter; FP1, Fabry–Perot etalon 1; FP2, Fabry–Perot etalon 2; L, lens; M, mirror; PMT, photomultiplier tube; PR, prism [Colour figure can be viewed at wileyonlinelibrary.com]…”

Section: Methodsmentioning

confidence: 99%

“…However, to the best of our knowledge, dynamic changes of Raman spectra (and, subsequently, chemical and/or structural composition) of plants or leaves upon drying have never been reported. The only one exception was a publication of Altangerer et al about changes in Raman spectra in limited ranges (500–800 and 950–1,250 cm −1 ) for the observed in vivo Coleus plant under four types of abiotic stress conditions, including drought stress, when “normal watering was withheld.” However, the changes in plant mass due to desiccation or water mass loss (%) as well as changes in Raman peak area ratios were not quantified and reported in this study.…”

Section: Introductionmentioning

confidence: 99%

Time‐resolved assessment of drying plants by Brillouin and Raman spectroscopies

Rakymzhan

Yakupov

Yelemessova

et al. 2019

J Raman Spectroscopy

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Raman and Brillouin spectroscopies enable noninvasive assessment of chemical and elastic properties of biomaterials, respectively. In this report, Brillouin microspectroscopy was used for the time‐resolved analysis of elastic properties of Populus and Geranium leaves, whereas Raman microspectroscopy was employed for the assessment of their chemical variation during drying. Spectroscopic assessment of elastic and chemical properties can improve our understanding of mechanochemical changes of plants in response to environmental stress and pathogens at the microscopic cellular level. This report demonstrates the potential of multimodal optical sensing and imaging of plants as an emerging technique for the quantitative assessment of agricultural crops.

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“…The changes in leaf color may be due to the plant producing more anthocyanin [25]. Notable increase and decrease regarding anthocyanin and carotenoid after environmental stress in which concentration levels of anthocyanins and carotenoids change in an opposite pattern, which points toward the response of this plant under environmental stress is improved to defend the plants against changes that induce damages [26].…”

Section: Introductionmentioning

confidence: 99%

Physiological and Morphological Responses to Ozone Exposure of Coleus (Solenostemon scutellarioides (L.) Codd)

Padri¹,

Umponstira²

2017

International Journal on Advanced Science, Engineering and Information Technology

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Abstract-The tropospheric ozone has been projected to increase, and it could harm humans, animals, and vegetation. This study investigates morphological changes in coleus leaves, to assess the change of pigment composition (chlorophyll, carotenoid, and anthocyanin), and to understand color dynamics due to ozone fumigation. Coleus Kong Green (fully green/FG), Coleus Kong Scarlet (green and purple/GP), Coleus Wizard Pastel (yellow and purple/YP), and Coleus Wizard Scarlet (reddish/RD) selected. The materials in this study tested for three different ozone concentrations which were CF (≤ 10 ppb ozone), CF+40 ppb ozone, and CF+150 ppb ozone for 8 hours/day for 30 days. Chlorosis in FG and curling leaf in RD were observed as the symptoms while other cultivars showed different appearances such as expanded purple area (GP and YP) and curled margin (RD). Chlorophyll and carotenoid content significantly decreased in all cultivars while anthocyanin was found increasing except in RD. The color change tended to redder and brighter in all cultivars except RD which was a stable and purple area in GP which was darker. Therefore, different coleus cultivars show different responses and it can be used as an ozone-plant model to investigate pigment composition under ozone exposure.

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In vivo diagnostics of early abiotic plant stress response via Raman spectroscopy

Cited by 113 publications

References 38 publications

Reply to Dong and Zhao: Plant stress via Raman spectroscopy

Reply to Dong and Zhao: Plant stress via Raman spectroscopy

Time‐resolved assessment of drying plants by Brillouin and Raman spectroscopies

Physiological and Morphological Responses to Ozone Exposure of Coleus (Solenostemon scutellarioides (L.) Codd)

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