Jack G. Zhou scite author profile

&DIGITAL-MICROFLUIDIC LAB-ON-A-CHIP (LoC) technology offers a platform for developing diagnostic applications with the advantages of portability, sample and reagent volume reduction, faster analysis, increased automation, low power consumption, compatibility with mass manufacturing, and high throughput. In addition to diagnostics, digital microfluidics is finding use in airborne chemical detection, DNA sequencing by synthesis, and tissue engineering. In this article, we review efforts to develop various LoC applications using electrowetting-based digital microfluidics. We describe these applications, their implementation, and associated design issues. The ''Related work'' sidebar gives a brief overview of microfluidics technology.

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Mechanical properties and biomineralization of multifunctional nanodiamond-PLLA composites for bone tissue engineering

Zhang

et al. 2012

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Porogen-based solid freeform fabrication of polycaprolactone–calcium phosphate scaffolds for tissue engineering

et al. 2006

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ArabidopsisN-MYC DOWNREGULATED-LIKE1, a Positive Regulator of Auxin Transport in a G Protein–Mediated Pathway

et al. 2009

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Root architecture results from coordinated cell division and expansion in spatially distinct cells of the root and is established and maintained by gradients of auxin and nutrients such as sugars. Auxin is transported acropetally through the root within the central stele and then, upon reaching the root apex, auxin is transported basipetally through the outer cortical and epidermal cells. The two Gbg dimers of the Arabidopsis thaliana heterotrimeric G protein complex are differentially localized to the central and cortical tissues of the Arabidopsis roots. A null mutation in either the single b (AGB1) or the two g (AGG1 and AGG2) subunits confers phenotypes that disrupt the proper architecture of Arabidopsis roots and are consistent with altered auxin transport. Here, we describe an evolutionarily conserved interaction between AGB1/ AGG dimers and a protein designated N-MYC DOWNREGULATED-LIKE1 (NDL1). The Arabidopsis genome encodes two homologs of NDL1 (NDL2 and NDL3), which also interact with AGB1/AGG1 and AGB1/AGG2 dimers. We show that NDL proteins act in a signaling pathway that modulates root auxin transport and auxin gradients in part by affecting the levels of at least two auxin transport facilitators. Reduction of NDL family gene expression and overexpression of NDL1 alter root architecture, auxin transport, and auxin maxima. AGB1, auxin, and sugars are required for NDL1 protein stability in regions of the root where auxin gradients are established; thus, the signaling mechanism contains feedback loops.

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Jack G. Zhou

Fluorescent PLLA-nanodiamond composites for bone tissue engineering

Chemical and Biological Applications of Digital-Microfluidic Devices

Mechanical properties and biomineralization of multifunctional nanodiamond-PLLA composites for bone tissue engineering

Porogen-based solid freeform fabrication of polycaprolactone–calcium phosphate scaffolds for tissue engineering

ArabidopsisN-MYC DOWNREGULATED-LIKE1, a Positive Regulator of Auxin Transport in a G Protein–Mediated Pathway

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