Evaluation of laboratory and environmental exposure systems for protein modification upon gas pollutants and environmental factors

Evaluation of laboratory and environmental exposure systems for protein modification upon gas pollutants and environmental factors

Chemical modifications of proteins induced by ambient ozone (O3) and nitrogen oxides (NOx) are of public health concerns due to their potential to trigger respiratory diseases. The laboratory and environmental exposure systems have been widely used to investigate their relevant mechanism in the atmo...

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Veröffentlicht in:Journal of environmental sciences (China) 2024-09, Vol.143, p.213-223
Hauptverfasser: Pan, Zhiwei, Wu, Shiyi, Zhu, Qiaoze, Liu, Fobang, Liang, Yongjian, Pei, Chenglei, Jiang, Haoyu, Zhang, Yingyi, Lai, Senchao
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Sprache:eng
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Air Pollutants - analysis
bovine serum albumin
cellulose acetate
Environmental Exposure
Laboratory simulation
Nitration
nitrogen
Nitrogen Oxides - analysis
Oligomerization
oxygen
ozone
Ozone - chemistry
protein degradation
Protein modification
Proteins - chemistry
public health
quartz
relative humidity
Serum Albumin, Bovine - chemistry
temperature
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container_end_page 223
container_issue
container_start_page 213
container_title Journal of environmental sciences (China)
container_volume 143
creator Pan, Zhiwei
Wu, Shiyi
Zhu, Qiaoze
Liu, Fobang
Liang, Yongjian
Pei, Chenglei
Jiang, Haoyu
Zhang, Yingyi
Lai, Senchao
description Chemical modifications of proteins induced by ambient ozone (O3) and nitrogen oxides (NOx) are of public health concerns due to their potential to trigger respiratory diseases. The laboratory and environmental exposure systems have been widely used to investigate their relevant mechanism in the atmosphere. Using bovine serum albumin (BSA) as a model protein, we evaluated the two systems and aimed to reduce the uncertainties of both the reactants and products in the corresponding kinetic study. In the laboratory simulation system, the generated gaseous pollutants showed negligible losses. Ten layers of BSA were coated on the flow tube with protein extraction recovery of 87.4%. For environmental exposure experiment, quartz fiber filter was selected as the upper filter with low gaseous O3 (8.0%) and NO2 (1.7%) losses, and cellulose acetate filter was appropriate for the lower filter with protein extraction efficiency of 95.2%. The protein degradation process was observed without the exposure to atmospheric oxidants and contributed to the loss of protein monomer mass fractions, while environmental factors (e.g., molecular oxygen and ultraviolet) may cause greater protein monomer losses. Based on the evaluation, the study exemplarily applied the two systems to protein modification and both showed that O3 promotes the protein oligomerization and nitration, while increased temperature can accelerate the oligomerization and increased relative humidity can inhibit the nitration in the environmental exposure samples. The developed laboratory and environmental systems are suitable for studying protein modifications formed under different atmospheric conditions. A combination of the two will further reveal the actual mechanism of protein modifications. [Display omitted]
doi_str_mv 10.1016/j.jes.2023.08.026
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The protein degradation process was observed without the exposure to atmospheric oxidants and contributed to the loss of protein monomer mass fractions, while environmental factors (e.g., molecular oxygen and ultraviolet) may cause greater protein monomer losses. Based on the evaluation, the study exemplarily applied the two systems to protein modification and both showed that O3 promotes the protein oligomerization and nitration, while increased temperature can accelerate the oligomerization and increased relative humidity can inhibit the nitration in the environmental exposure samples. The developed laboratory and environmental systems are suitable for studying protein modifications formed under different atmospheric conditions. A combination of the two will further reveal the actual mechanism of protein modifications. 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source MEDLINE; Elsevier ScienceDirect Journals; Alma/SFX Local Collection
subjects Air Pollutants - analysis
bovine serum albumin
cellulose acetate
Environmental Exposure
Laboratory simulation
Nitration
nitrogen
Nitrogen Oxides - analysis
Oligomerization
oxygen
ozone
Ozone - chemistry
protein degradation
Protein modification
Proteins - chemistry
public health
quartz
relative humidity
Serum Albumin, Bovine - chemistry
temperature
title Evaluation of laboratory and environmental exposure systems for protein modification upon gas pollutants and environmental factors
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