Silver nanoparticles affect phenolic and phytoalexin composition of Arabidopsis thaliana

[Display omitted] •Arabidopsis thaliana Secondary metabolite profile changed after silver nanoparticle treatment.•Nanoparticle size, concentration and treatment duration played an important role.•Concentration of five phenolic compounds was elevated after nanoparticle treatment.•Accumulation of phyt...

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Published inThe Science of the total environment Vol. 716; p. 135361
Main Authors Kruszka, Dariusz, Sawikowska, Aneta, Kamalabai Selvakesavan, Rajendran, Krajewski, Paweł, Kachlicki, Piotr, Franklin, Gregory
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 10.05.2020
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Abstract [Display omitted] •Arabidopsis thaliana Secondary metabolite profile changed after silver nanoparticle treatment.•Nanoparticle size, concentration and treatment duration played an important role.•Concentration of five phenolic compounds was elevated after nanoparticle treatment.•Accumulation of phytoalexins was induced by both nanoparticle and ionic forms of silver. Silver nanoparticles are widely used in industry, medicine, biotechnology and agriculture. As a consequence, these nanoparticles are reaching the environment as waste products, which might have a negative impact on the environment, especially on plants. This includes the elicitation of various biochemical processes in plants. In this article, we report on the changes in secondary metabolic profile of Arabidopsis thaliana seedlings subjected to silver nanoparticle treatment in vitro. Briefly, various sizes (10 nm, 40 nm and 100 nm in diameter) and concentrations (0.5–5.0 ppm) of silver nanoparticles were tested. Ultraperformance liquid chromatography coupled with ultraviolet and fluorescence detectors as well as hyphenated to a high-resolution mass spectrometer (UPLC-PDA-FLR, UPLC-HESI-HRMS) and HPLC – ion trap mass spectrometer (HPLC-ESI-MS/MS), were applied to identify and quantify secondary metabolites. To understand whether silver ions could induce changes in the secondary metabolite profile, seedlings treated with silver nitrate in concentrations equivalent to these of nanoparticles were also analysed. The results showed significant differences in the accumulation of phenolic and indole compounds between treatments. Silver nanoparticles and silver ions induced the biosynthesis of camalexin, hydroxycamalexin O-hexoside and hydroxycamalexin malonyl-hexoside. These compounds are important phytoalexins for Brassicaceae family (especially for Camelinae clad) and are also synthetized in response to biotic and abiotic stresses. Statistically significant changes have been also observed for five phenolic compounds and 5′Glucosyl-dihydroneoascorbigen in different treatment conditions.
AbstractList [Display omitted] •Arabidopsis thaliana Secondary metabolite profile changed after silver nanoparticle treatment.•Nanoparticle size, concentration and treatment duration played an important role.•Concentration of five phenolic compounds was elevated after nanoparticle treatment.•Accumulation of phytoalexins was induced by both nanoparticle and ionic forms of silver. Silver nanoparticles are widely used in industry, medicine, biotechnology and agriculture. As a consequence, these nanoparticles are reaching the environment as waste products, which might have a negative impact on the environment, especially on plants. This includes the elicitation of various biochemical processes in plants. In this article, we report on the changes in secondary metabolic profile of Arabidopsis thaliana seedlings subjected to silver nanoparticle treatment in vitro. Briefly, various sizes (10 nm, 40 nm and 100 nm in diameter) and concentrations (0.5–5.0 ppm) of silver nanoparticles were tested. Ultraperformance liquid chromatography coupled with ultraviolet and fluorescence detectors as well as hyphenated to a high-resolution mass spectrometer (UPLC-PDA-FLR, UPLC-HESI-HRMS) and HPLC – ion trap mass spectrometer (HPLC-ESI-MS/MS), were applied to identify and quantify secondary metabolites. To understand whether silver ions could induce changes in the secondary metabolite profile, seedlings treated with silver nitrate in concentrations equivalent to these of nanoparticles were also analysed. The results showed significant differences in the accumulation of phenolic and indole compounds between treatments. Silver nanoparticles and silver ions induced the biosynthesis of camalexin, hydroxycamalexin O-hexoside and hydroxycamalexin malonyl-hexoside. These compounds are important phytoalexins for Brassicaceae family (especially for Camelinae clad) and are also synthetized in response to biotic and abiotic stresses. Statistically significant changes have been also observed for five phenolic compounds and 5′Glucosyl-dihydroneoascorbigen in different treatment conditions.
Silver nanoparticles are widely used in industry, medicine, biotechnology and agriculture. As a consequence, these nanoparticles are reaching the environment as waste products, which might have a negative impact on the environment, especially on plants. This includes the elicitation of various biochemical processes in plants. In this article, we report on the changes in secondary metabolic profile of Arabidopsis thaliana seedlings subjected to silver nanoparticle treatment in vitro. Briefly, various sizes (10 nm, 40 nm and 100 nm in diameter) and concentrations (0.5-5.0 ppm) of silver nanoparticles were tested. Ultraperformance liquid chromatography coupled with ultraviolet and fluorescence detectors as well as hyphenated to a high-resolution mass spectrometer (UPLC-PDA-FLR, UPLC-HESI-HRMS) and HPLC - ion trap mass spectrometer (HPLC-ESI-MS/MS), were applied to identify and quantify secondary metabolites. To understand whether silver ions could induce changes in the secondary metabolite profile, seedlings treated with silver nitrate in concentrations equivalent to these of nanoparticles were also analysed. The results showed significant differences in the accumulation of phenolic and indole compounds between treatments. Silver nanoparticles and silver ions induced the biosynthesis of camalexin, hydroxycamalexin O-hexoside and hydroxycamalexin malonyl-hexoside. These compounds are important phytoalexins for Brassicaceae family (especially for Camelinae clad) and are also synthetized in response to biotic and abiotic stresses. Statistically significant changes have been also observed for five phenolic compounds and 5'Glucosyl-dihydroneoascorbigen in different treatment conditions.
ArticleNumber 135361
Author Franklin, Gregory
Kamalabai Selvakesavan, Rajendran
Kruszka, Dariusz
Sawikowska, Aneta
Krajewski, Paweł
Kachlicki, Piotr
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  surname: Franklin
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  email: fgre@igr.poznan.pl
  organization: Institute of Plant Genetics of the Polish Academy of Sciences, Strzeszyńska 34, 60-479 Poznan, Poland
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Keywords RT
Phytoalexins
UPLC-MS
IT-MS
MS
AgNPs
HESI-II
PDA
FLR
Arabidopsis thaliana
HRMS
QE
UPLC
Camalexin
ESI
HPLC
Silver nanoparticles
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Snippet [Display omitted] •Arabidopsis thaliana Secondary metabolite profile changed after silver nanoparticle treatment.•Nanoparticle size, concentration and...
Silver nanoparticles are widely used in industry, medicine, biotechnology and agriculture. As a consequence, these nanoparticles are reaching the environment...
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StartPage 135361
SubjectTerms Arabidopsis
Arabidopsis thaliana
Camalexin
Metal Nanoparticles
Phytoalexins
Sesquiterpenes
Silver
Silver nanoparticles
Tandem Mass Spectrometry
UPLC-MS
Title Silver nanoparticles affect phenolic and phytoalexin composition of Arabidopsis thaliana
URI https://dx.doi.org/10.1016/j.scitotenv.2019.135361
https://www.ncbi.nlm.nih.gov/pubmed/31839324
https://search.proquest.com/docview/2327379032
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