Xuan Feng scite author profile

As is well known, controlling the local magnetic field distribution on the micrometer scale in a microfluidic chip is significant and has many applications in bioanalysis based on magnetic beads. However, it is a challenge to tailor the magnetic field introduced by external permanent magnets or electromagnets on the micrometer scale. Here, we demonstrated a simple approach to controlling the local magnetic field distribution on the micrometer scale in a microfluidic chip by nickel patterns encapsulated in a thin poly(dimethylsiloxane) (PDMS) film under the fluid channel. With the precisely controlled magnetic field, magnetic bead patterns were convenient to generate. Moreover, two kinds of fluorescent magnetic beads were patterned in the microfluidic channel, which demonstrated that it was possible to generate different functional magnetic bead patterns in situ, and could be used for the detection of multiple targets. In addition, this method was applied to generate cancer cell patterns.

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Natural and engineered biosynthesis of nucleoside antibiotics in Actinomycetes

Chen

Jing

et al. 2016

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Nucleoside antibiotics constitute an important family of microbial natural products bearing diverse bioactivities and unusual structural features. Their biosynthetic logics are unique with involvement of complex multi-enzymatic reactions leading to the intricate molecules from simple building blocks. Understanding how nature builds this family of antibiotics in post-genomic era sets the stage for rational enhancement of their production, and also paves the way for targeted persuasion of the cell factories to make artificial designer nucleoside drugs and leads via synthetic biology approaches. In this review, we discuss the recent progress and perspectives on the natural and engineered biosynthesis of nucleoside antibiotics.

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Mutation spectrum of PAH gene in phenylketonuria patients in Northwest China: identification of twenty novel variants

et al. 2019

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Preparation and characterization of core–shell structure of SiO2@Cu antibacterial agent

Zhang

Gao

Zhang

et al. 2010

Colloids and Surfaces B: Biointerfaces

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Xuan Feng

Two 3′-O-β-glucosylated nucleoside fluorometabolites related to nucleocidin in Streptomyces calvus

Controlling the Magnetic Field Distribution on the Micrometer Scale and Generation of Magnetic Bead Patterns for Microfluidic Applications

Natural and engineered biosynthesis of nucleoside antibiotics in Actinomycetes

Mutation spectrum of PAH gene in phenylketonuria patients in Northwest China: identification of twenty novel variants

Preparation and characterization of core–shell structure of SiO2@Cu antibacterial agent

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