Jinghui Bao scite author profile

This article addresses work-family conflict as reported among women and men academic scientists in data systematically collected across fields of study in nine US research universities. Arguing that academic science is a particularly revealing case for studying work-family conflict, the article addresses: (1) the bi-directional conflict of work with family, and family with work, reported among the scientists; (2) the ways that higher, compared with lower, conflict, is predicted by key features of family, academic rank, and departments/institutions; and (3) patterns and predictors of work-family conflict that vary, as well as converge, by gender. Results point to notable differences, and commonalties, by gender, in factors affecting interference in both directions of work-family conflict reported by scientists. These findings have implications for understandings of how marriage and children, senior compared with junior academic rank, and departmental climates shape work-family conflict among women and men in US academic science.

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Exosomes in Pathogen Infections: A Bridge to Deliver Molecules and Link Functions

Zhang

et al. 2018

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Exosomes are extracellular vesicles derived from cell endocytosis which act as transmitters between cells. They are composed of proteins, lipids, and RNAs through which they participate in cellular crosstalk. Consequently, they play an important role in health and disease. Our view is that exosomes exert a bidirectional regulatory effect on pathogen infections by delivering their content. First, exosomes containing proteins and RNAs derived from pathogens can promote infections in three ways: (1) mediating further infection by transmitting pathogen-related molecules; (2) participating in the immune escape of pathogens; and (3) inhibiting immune responses by favoring immune cell apoptosis. Second, exosomes play anti-infection roles through: (1) inhibiting pathogen proliferation and infection directly; (2) inducing immune responses such as those related to the function of monocyte-macrophages, NK cells, T cells, and B cells. We believe that exosomes act as “bridges” during pathogen infections through the mechanisms mentioned above. The purpose of this review is to describe present findings regarding exosomes and pathogen infections, and highlight their enormous potential in clinical diagnosis and treatment. We discuss two opposite aspects: infection and anti-infection, and we hypothesize a balance between them. At the same time, we elaborate on the role of exosomes in immune regulation.

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Circular RNA in cardiovascular disease: Expression, mechanisms and clinical prospects

Tang

Bao

Jiahui

et al. 2020

J Cellular Molecular Medi

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Circular RNAs (circRNAs) are a group of covalently closed, endogenous, non‐coding RNAs, which exist widely in human tissues including the heart. Increasing evidence has shown that cardiac circRNAs play crucial regulatory roles in cardiovascular diseases (CVDs). In this review, we aimed to provide a systemic understanding of circRNAs with a special emphasis on the cardiovascular system. We have summarized the current research on the classification, biogenesis and properties of circRNAs as well as their participation in the pathogenesis of CVDs. CircRNAs are conserved, stable and have specific spatiotemporal expression; thus, they have been accepted as a potential diagnostic marker or an incremental prognostic biomarker for CVDs.

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Statistical correction and downscaling of chemical transport model ozone forecasts over Atlanta

Guillas

Bao

Choi

et al. 2008

Atmospheric Environment

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Jinghui Bao

Work and family conflict in academic science: Patterns and predictors among women and men in research universities

Exosomes in Pathogen Infections: A Bridge to Deliver Molecules and Link Functions

Circular RNA in cardiovascular disease: Expression, mechanisms and clinical prospects

Statistical correction and downscaling of chemical transport model ozone forecasts over Atlanta

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