MicroRNAs are key regulators in many biological processes including cell differentiation. Here we show that during human monocyte-macrophage differentiation, the expression of the microRNAs miR-223, miR-15a, and miR-16 is dramatically decreased, leading to increased expression of the serine-threonine kinase IKKα in macrophages. In macrophages, higher IKKα expression in conjunction with stabilization of the kinase NIK induces elevated p52. Due to low RelB transcription factor expression in untreated macrophages, high p52 expression represses the basal level of both canonical and noncanonical NF-κB target genes. However, proinflammatory stimuli in macrophages result in greater induction of noncanonical NF-κB target genes. Thus a decrease in certain microRNAs likely prevents macrophage hyperaction yet primes the macrophage for certain responses to proinflammatory stimuli.
Coaxial fiber-shaped supercapacitors with short charge carrier diffusion paths are highly desirable as high-performance energy storage devices for wearable electronics. However, the traditional approaches based on the multistep fabrication processes for constructing the fiber-shaped energy device still encounter persistent restrictions in fabrication procedure, scalability, and mechanical durability. To overcome this critical challenge, an all-in-one coaxial fiber-shaped asymmetric supercapacitor (FASC) device is realized by a direct coherent multi-ink writing three-dimensional printing technology via designing the internal structure of the coaxial needles and regulating the rheological property and the feed rates of the multi-ink. Benefitting from the compact coaxial structure, the FASC device delivers a superior areal energy/power density at a high mass loading, and outstanding mechanical stability. As a conceptual exhibition for system integration, the FASC device is integrated with mechanical units and pressure sensor to realize high-performance self-powered mechanical devices and monitoring systems, respectively.
The energy storage systems (ESSs) revolution flourishes next-generation personal electronics, electric vehicles/hybrid electric vehicles, and stationary storage. With the rapid application of advanced ESSs, the usage of ESSs are becoming...
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