Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A

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Zeitschriftentitel:	International Journal of Environmental Research and Public Health
Personen und Körperschaften:	Duan, Chen
In:	International Journal of Environmental Research and Public Health, 16, 2019, 8, S. 1374
Format:	E-Article
Sprache:	Englisch
veröffentlicht:	MDPI AG
Schlagwörter:	Health, Toxicology and Mutagenesis Public Health, Environmental and Occupational Health

author_facet	Duan Chen Duan Duan Chen Duan
author	Duan Chen Duan
spellingShingle	Duan Chen Duan International Journal of Environmental Research and Public Health Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A Health, Toxicology and Mutagenesis Public Health, Environmental and Occupational Health
author_sort	duan
spelling	Duan Chen Duan 1660-4601 MDPI AG Health, Toxicology and Mutagenesis Public Health, Environmental and Occupational Health http://dx.doi.org/10.3390/ijerph16081374 <jats:p>Bisphenol A (BPA) is the raw material of 71% of polycarbonate-based resins and 27% of epoxy-based resins which are used for coating metal-based food and beverage cans. Meanwhile, it is taken into account as a typical environmental pollutant. Hormesis may occur in algae exposed to BPA. In this study, the effects of BPA on Chlorella pyrenoidosa were assessed based on growth inhibition and transcriptome analysis. We have focused on two exposure scenarios as follows: (1) exposure to a low stimulation concentration (0.1 mg.L−1, 19.35% promotion in cell density on the 3rd day); (2) exposure to a high inhibition concentration (10 mg.L−1, 64.71% inhibition in cell density on the 3rd day). Transcriptome analysis showed enrichment in nucleotide transport, single-organism transport, cellular respiration. Among them, adenosine triphosphate (ATP) synthase and Nicotinamide adenine dinucleotide (NADH) dehydrogenase were upregulated under 0.1 mg.L−1 BPA treatment. These changes enhanced the physiological and energy metabolic pathways of C. pyrenoidosa, thereby stimulating cell proliferation. At exposure to the high BPA, severe inhibited changes in the expression levels of several pathways were observed, which were related to tricarboxylic acid (TCA) cycle, glycolysis, fatty acid metabolism, oxidative phosphorylation, and photosynthesis. Therefore, BPA could negatively affect growth inhibition through the multiple energy metabolism processes. These results may result in a deeper insight into BPA-induced biphasic responses in algae, and provide vital information to assess the potential ecological risks of exposure to BPA in an aquatic ecosystem.</jats:p> Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A International Journal of Environmental Research and Public Health
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title	Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A
title_unstemmed	Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A
title_full	Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A
title_fullStr	Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A
title_full_unstemmed	Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A
title_short	Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A
title_sort	transcriptional analysis of chlorella pyrenoidosa exposed to bisphenol a
topic	Health, Toxicology and Mutagenesis Public Health, Environmental and Occupational Health
url	http://dx.doi.org/10.3390/ijerph16081374
publishDate	2019
physical	1374
description	<jats:p>Bisphenol A (BPA) is the raw material of 71% of polycarbonate-based resins and 27% of epoxy-based resins which are used for coating metal-based food and beverage cans. Meanwhile, it is taken into account as a typical environmental pollutant. Hormesis may occur in algae exposed to BPA. In this study, the effects of BPA on Chlorella pyrenoidosa were assessed based on growth inhibition and transcriptome analysis. We have focused on two exposure scenarios as follows: (1) exposure to a low stimulation concentration (0.1 mg.L−1, 19.35% promotion in cell density on the 3rd day); (2) exposure to a high inhibition concentration (10 mg.L−1, 64.71% inhibition in cell density on the 3rd day). Transcriptome analysis showed enrichment in nucleotide transport, single-organism transport, cellular respiration. Among them, adenosine triphosphate (ATP) synthase and Nicotinamide adenine dinucleotide (NADH) dehydrogenase were upregulated under 0.1 mg.L−1 BPA treatment. These changes enhanced the physiological and energy metabolic pathways of C. pyrenoidosa, thereby stimulating cell proliferation. At exposure to the high BPA, severe inhibited changes in the expression levels of several pathways were observed, which were related to tricarboxylic acid (TCA) cycle, glycolysis, fatty acid metabolism, oxidative phosphorylation, and photosynthesis. Therefore, BPA could negatively affect growth inhibition through the multiple energy metabolism processes. These results may result in a deeper insight into BPA-induced biphasic responses in algae, and provide vital information to assess the potential ecological risks of exposure to BPA in an aquatic ecosystem.</jats:p>
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author	Duan, Chen, Duan
author_facet	Duan, Chen, Duan, Duan, Chen, Duan
author_sort	duan
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description	<jats:p>Bisphenol A (BPA) is the raw material of 71% of polycarbonate-based resins and 27% of epoxy-based resins which are used for coating metal-based food and beverage cans. Meanwhile, it is taken into account as a typical environmental pollutant. Hormesis may occur in algae exposed to BPA. In this study, the effects of BPA on Chlorella pyrenoidosa were assessed based on growth inhibition and transcriptome analysis. We have focused on two exposure scenarios as follows: (1) exposure to a low stimulation concentration (0.1 mg.L−1, 19.35% promotion in cell density on the 3rd day); (2) exposure to a high inhibition concentration (10 mg.L−1, 64.71% inhibition in cell density on the 3rd day). Transcriptome analysis showed enrichment in nucleotide transport, single-organism transport, cellular respiration. Among them, adenosine triphosphate (ATP) synthase and Nicotinamide adenine dinucleotide (NADH) dehydrogenase were upregulated under 0.1 mg.L−1 BPA treatment. These changes enhanced the physiological and energy metabolic pathways of C. pyrenoidosa, thereby stimulating cell proliferation. At exposure to the high BPA, severe inhibited changes in the expression levels of several pathways were observed, which were related to tricarboxylic acid (TCA) cycle, glycolysis, fatty acid metabolism, oxidative phosphorylation, and photosynthesis. Therefore, BPA could negatively affect growth inhibition through the multiple energy metabolism processes. These results may result in a deeper insight into BPA-induced biphasic responses in algae, and provide vital information to assess the potential ecological risks of exposure to BPA in an aquatic ecosystem.</jats:p>
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spelling	Duan Chen Duan 1660-4601 MDPI AG Health, Toxicology and Mutagenesis Public Health, Environmental and Occupational Health http://dx.doi.org/10.3390/ijerph16081374 <jats:p>Bisphenol A (BPA) is the raw material of 71% of polycarbonate-based resins and 27% of epoxy-based resins which are used for coating metal-based food and beverage cans. Meanwhile, it is taken into account as a typical environmental pollutant. Hormesis may occur in algae exposed to BPA. In this study, the effects of BPA on Chlorella pyrenoidosa were assessed based on growth inhibition and transcriptome analysis. We have focused on two exposure scenarios as follows: (1) exposure to a low stimulation concentration (0.1 mg.L−1, 19.35% promotion in cell density on the 3rd day); (2) exposure to a high inhibition concentration (10 mg.L−1, 64.71% inhibition in cell density on the 3rd day). Transcriptome analysis showed enrichment in nucleotide transport, single-organism transport, cellular respiration. Among them, adenosine triphosphate (ATP) synthase and Nicotinamide adenine dinucleotide (NADH) dehydrogenase were upregulated under 0.1 mg.L−1 BPA treatment. These changes enhanced the physiological and energy metabolic pathways of C. pyrenoidosa, thereby stimulating cell proliferation. At exposure to the high BPA, severe inhibited changes in the expression levels of several pathways were observed, which were related to tricarboxylic acid (TCA) cycle, glycolysis, fatty acid metabolism, oxidative phosphorylation, and photosynthesis. Therefore, BPA could negatively affect growth inhibition through the multiple energy metabolism processes. These results may result in a deeper insight into BPA-induced biphasic responses in algae, and provide vital information to assess the potential ecological risks of exposure to BPA in an aquatic ecosystem.</jats:p> Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A International Journal of Environmental Research and Public Health
spellingShingle	Duan, Chen, Duan, International Journal of Environmental Research and Public Health, Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health
title	Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A
title_full	Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A
title_fullStr	Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A
title_full_unstemmed	Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A
title_short	Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A
title_sort	transcriptional analysis of chlorella pyrenoidosa exposed to bisphenol a
title_unstemmed	Transcriptional Analysis of Chlorella Pyrenoidosa Exposed to Bisphenol A
topic	Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health
url	http://dx.doi.org/10.3390/ijerph16081374