RESUMEN
In order to study the pollution characteristics of volatile organic compounds ï¼VOCsï¼ï¼ continuous monitoring of VOCs in two pollution processes was conducted in June and December 2021 in Zhengzhou. Combined with meteorological conditionsï¼ the pollution characteristicsï¼ source contributionsï¼ and reactivity of VOCs in winter and summer were compared and analyzed. The results showed that the volume fraction of atmospheric VOCs in two episodes were ï¼27.92±12.68ï¼×10-9 and ï¼24.30±5.93ï¼×10-9ï¼ respectively. The volume fraction of atmospheric VOCs in the haze pollution process in winter was larger than that in the ozone pollution process in summer. The analysis results of winter sources were as followsï¼ industrial source ï¼27.0%ï¼ï¼ motor vehicle source ï¼22.5%ï¼ï¼ combustion source ï¼20.1%ï¼ï¼ solvent use source ï¼16.3%ï¼ï¼ and oil and gas volatilization source ï¼14.1%ï¼. The analysis results of summer sources were as followsï¼ motor vehicle source ï¼24.8%ï¼ï¼ industrial source ï¼24.1%ï¼ï¼ solvent source ï¼17.4%ï¼ï¼ oil and gas volatilization source ï¼14.2%ï¼ï¼ combustion source ï¼11.2%ï¼ï¼ and plant source ï¼8.4%ï¼. The results of the smog production model showed that the proportion of days in the synergistic control zone of VOCs during the two pollution processes in summer ï¼66.7%ï¼ was smaller than that in winter ï¼100.0%ï¼. The secondary reaction activity results showed that the average ·OH loss rate ï¼L·OHï¼ values in winter and summer were 4.12 s-1 and 4.75 s-1ï¼ respectively. The average ozone formation potential ï¼OFPï¼ values in summer were 108.36 µg·m-3. The olefins were dominant in the top ten species due to L·OH and OFP contributions in summer. The total SOAFP values in winter in Zhengzhou were 54.38 µg·m-3. Among the top ten species contributing to SOAFP in winterï¼ nine were aromatic hydrocarbons.
RESUMEN
To determine the transfection efficiency about PBase to piggyBac transposon in transfecting to Toxoplasma gondii, T. gondii RH strain tachyzoites were transfected with plasmid PB-Toxo-RFP which was expressed piggyBac transposon with a red fluorescent protein and Toxo-PBase plasmid which is a transposable enzyme. T. gondii tachyzoites were transfected with PB-Toxo-RFP plasmid alone as control group. The expression of red fluorescent protein was detected by flow cytometry at 24 h after transfection. The transposition efficiency in PB-Toxo-RFP+Toxo-PBase group and PB-Toxo-RFP group was 73% and 43%, respectively (P < 0.01). It suggests that the PBase transposase can improve the transfection efficiency of piggyBac transposon in T. gondii tachyzoites.