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W4294252904 endingPage "9934" @default.
W4294252904 startingPage "9934" @default.
W4294252904 abstract "Short-chain perfluoroalkyl substances (PFAS) are generally considered to be of less environmental concern than long-chain analogues due to their comparatively shorter half-lives in biological systems. Perfluorobutanoic acid (PFBA) is a short-chain PFAS with the most root-shoot transfer factor of all PFAS. We investigated the impact of extended exposure of soybean plants to irrigation water containing environmentally relevant (100 pg-100 ng/L) to high (100 µg-1 mg/L) concentrations of PFBA using phenotypical observation, biochemical characterization, and transcriptomic analysis. The results showed a non-monotonous developmental response from the plants, with maximum stimulation and inhibition at 100 ng/L and 1 mg/L, respectively. Higher reactive oxygen species and low levels of superoxide dismutase (SOD) and catalase (CAT) activity were observed in all treatment groups. However transcriptomic analysis did not demonstrate differential expression of SOD and CAT coding genes, whereas non-enzymatic response genes and pathways were enriched in both groups (100 ng/L and 1 mg/L) with glycine betaine dehydrogenase showing the highest expression. About 18% of similarly downregulated genes in both groups are involved in the ethylene signaling pathway. The circadian rhythm pathway was the only differentially regulated pathway between both groups. We conclude that, similar to long chain PFAS, PFBA induced stress in soybean plants and that the observed hormetic stimulation at 100 ng/L represents an overcompensation response, via the circadian rhythm pathway, to the induced stress." @default.
W4294252904 created "2022-09-02" @default.
W4294252904 creator A5000853842 @default.
W4294252904 creator A5004871469 @default.
W4294252904 creator A5015271717 @default.
W4294252904 creator A5024360181 @default.
W4294252904 creator A5024941834 @default.
W4294252904 creator A5031197504 @default.
W4294252904 date "2022-09-01" @default.
W4294252904 modified "2023-10-17" @default.
W4294252904 title "Perfluorobutanoic Acid (PFBA) Induces a Non-Enzymatic Oxidative Stress Response in Soybean (Glycine max L. Merr.)" @default.
W4294252904 cites W1850524226 @default.
W4294252904 cites W191793640 @default.
W4294252904 cites W1943128125 @default.
W4294252904 cites W1970116957 @default.
W4294252904 cites W1980343515 @default.
W4294252904 cites W2012916979 @default.
W4294252904 cites W2015194945 @default.
W4294252904 cites W2015628876 @default.
W4294252904 cites W2017655179 @default.
W4294252904 cites W2026780483 @default.
W4294252904 cites W2032861920 @default.
W4294252904 cites W2037087572 @default.
W4294252904 cites W2043977404 @default.
W4294252904 cites W2051786026 @default.
W4294252904 cites W2051808059 @default.
W4294252904 cites W2061621834 @default.
W4294252904 cites W2062503926 @default.
W4294252904 cites W2065297090 @default.
W4294252904 cites W2074853650 @default.
W4294252904 cites W2078782423 @default.
W4294252904 cites W2082484205 @default.
W4294252904 cites W2083369414 @default.
W4294252904 cites W2085256329 @default.
W4294252904 cites W2091253927 @default.
W4294252904 cites W2095643322 @default.
W4294252904 cites W2097591011 @default.
W4294252904 cites W2101089197 @default.
W4294252904 cites W2104266531 @default.
W4294252904 cites W2104941815 @default.
W4294252904 cites W2112800334 @default.
W4294252904 cites W2117719962 @default.
W4294252904 cites W2120108543 @default.
W4294252904 cites W2129823087 @default.
W4294252904 cites W2131271579 @default.
W4294252904 cites W2131467952 @default.
W4294252904 cites W2131780511 @default.
W4294252904 cites W2133351712 @default.
W4294252904 cites W2139026722 @default.
W4294252904 cites W2149176501 @default.
W4294252904 cites W2155569764 @default.
W4294252904 cites W2162607489 @default.
W4294252904 cites W2166852306 @default.
W4294252904 cites W2171626892 @default.
W4294252904 cites W2171739386 @default.
W4294252904 cites W2171827152 @default.
W4294252904 cites W2179438025 @default.
W4294252904 cites W230687915 @default.
W4294252904 cites W2343858209 @default.
W4294252904 cites W2429056332 @default.
W4294252904 cites W2567244870 @default.
W4294252904 cites W2569283921 @default.
W4294252904 cites W2593671985 @default.
W4294252904 cites W2597002080 @default.
W4294252904 cites W2621041036 @default.
W4294252904 cites W2760839131 @default.
W4294252904 cites W2771999366 @default.
W4294252904 cites W2792855793 @default.
W4294252904 cites W2793578694 @default.
W4294252904 cites W2806884008 @default.
W4294252904 cites W2809335616 @default.
W4294252904 cites W2885440820 @default.
W4294252904 cites W2889429645 @default.
W4294252904 cites W2899170331 @default.
W4294252904 cites W2914132045 @default.
W4294252904 cites W2916578631 @default.
W4294252904 cites W2946727406 @default.
W4294252904 cites W2946915413 @default.
W4294252904 cites W2988493876 @default.
W4294252904 cites W2988493931 @default.
W4294252904 cites W2993145082 @default.
W4294252904 cites W2994303685 @default.
W4294252904 cites W2994345878 @default.
W4294252904 cites W2997022986 @default.
W4294252904 cites W3000184544 @default.
W4294252904 cites W3006989394 @default.
W4294252904 cites W3092259617 @default.
W4294252904 cites W3096828292 @default.
W4294252904 cites W3099210309 @default.
W4294252904 cites W3113082792 @default.
W4294252904 cites W3117322463 @default.
W4294252904 cites W3159580249 @default.
W4294252904 cites W3194777166 @default.
W4294252904 cites W3202463579 @default.
W4294252904 cites W3206426302 @default.
W4294252904 doi "https://doi.org/10.3390/ijms23179934" @default.
W4294252904 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36077331" @default.
W4294252904 hasPublicationYear "2022" @default.