Xiangyi Yuan scite author profile

This paper investigates the development of new media in China and the current situation of China's aging population. Based on the definition of the social adaptability of the aging population, it analyzes the influence mechanism of new media on it in China. The results show that, compared with traditional media, new media significantly improves the cognitive ability, social participation level, social relations, and social psychological adaptation ability of the aged. This paper also analyzes the "digital divide" faced by the aged in integrating into new media from the aspects of desire, access, and skill. Meanwhile, different policy suggestions are put forward from the national to the individual level to promote the integration of the elderly into the digital new media so as to help them better adapt to society.

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WITHDRAWN: Synergism in sequential inactivation of Cryptosporidiumparvum with trypsin and UV irradiation

Xiao

Wang

Chen

et al. 2022

Preprint

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Cryptosporidium in wastewater presents a major public health concern for water safety. However, bactericidal efficiencies of Cryptosporidium oocysts using conventional disinfection methods are still hampered due to the resistance produced by their thick outer wall. In this study, we present a novel UV inactivation with significantly enhanced efficiency by trypsin pretreatment. Notably, the inactivation performance (log-reduction) of oocysts was 73.75-294.72% higher than that obtained in individual UV irradiation under identical conditions. Experimental observations and supporting mechanistic analyses suggest that the trypsin can cleave proteins layer on oocyst wall, which facilitates UV irradiation to penetrate into the oocysts and attack their genomic DNA (gDNA). The trypsin displayed considerable operational stability in the reaction mixture, and its dissociation effect of oocyst wall was indicated by the fact that 64.50% of oocysts displayed early apoptosis after trypsinization. The combined treatment almost totally destroyed the oocysts coat and deformed their shape according to scanning electron microscopy. This resulted in the release of cellular proteins and gDNA, and their concentrations in bulk solution increased by 1.22–8.60 times. As UV irradiation time was prolonged, gDNA was degraded into small fragments with lower molecular weight. Both the laddering and diffuse smear patterns in the gel indicated significant detrimental effect on gDNA and viability of oocysts. Overall, this study demonstrates the enhanced UV inactivation of Cryptosporidium oocysts by trypsin and provides the underlying mechanisms for the process.

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Synergism in sequential inactivation of Cryptosporidium parvum with trypsin and UV irradiation

Xiao

Wang²,

Chen

et al. 2022

Environ Sci Pollut Res

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Xiangyi Yuan

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Application of machine learning to predict the inhibitory activity of organic chemicals on thyroid stimulating hormone receptor

A Study on the Influence of New Media on the Social Adaptability of the Aged in China

WITHDRAWN: Synergism in sequential inactivation of Cryptosporidiumparvum with trypsin and UV irradiation

Synergism in sequential inactivation of Cryptosporidium parvum with trypsin and UV irradiation

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