Lite Yang
Wuhan University
13 Papers
Lite Yang is an academic researcher from Wuhan University. The author has contributed to research in topics: Electrochemical gas sensor & Molecularly imprinted polymer. The author has an hindex of 8, co-authored 8 publications.
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Papers
Human and mouse trigeminal ganglia cell atlas implicates multiple cell types in migraine
Lite Yang,Mengyi Xu,Shamsuddin A. Bhuiyan,Jia Li,Jun Zhao,Randall J. Cohrs,Justin T. Susterich,Sylvia A. Signorelli,Ursula Green,James R. Stone,Daniel Levy,Jochen K. Lennerz,William Renthal +12 more
TL;DR: This paper developed a cell atlas in which human and mouse trigeminal ganglia are transcriptionally and epigenomically profiled at single-cell resolution, which describes evolutionarily conserved and human-specific gene expression patterns within each trigemial ganglion cell type, as well as the transcription factors and gene regulatory elements that contribute to cell-type specific gene expression.
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Electrochemical determination of luteolin using molecularly imprinted poly-carbazole on MoS2/graphene-carbon nanotubes nanocomposite modified electrode
TL;DR: In this article, a molecularly imprinted polymer (MIP) film deposited by electropolymerization, based on carbazole monomer and luteolin template, was used to improve the selectivity.
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A vanillin electrochemical sensor based on molecularly imprinted poly(1-vinyl-3-octylimidazole hexafluoride phosphorus)−multi-walled carbon nanotubes@polydopamine–carboxyl single-walled carbon nanotubes composite
TL;DR: In this paper, a highly selective electrochemical sensor was constructed for the detection of vanillin (VA), which was fabricated by molecular imprinting on the surface of polydopamine-functionalized multi-walled carbon nanotubes (MWNTs-PDA).
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A novel quercetin electrochemical sensor based on molecularly imprinted poly(para-aminobenzoic acid) on 3D Pd nanoparticles-porous graphene-carbon nanotubes composite
TL;DR: In this paper, a molecularly imprinted electrochemical sensor for quercetin (QR) was fabricated via electropolymerization of para-aminobenzoic acid (p-ABA) on a three-dimensional (3D) Pd nanoparticles-porous graphene-carbon nanotubes composite (Pd/pGN-CNTs) modified glassy carbon electrode.
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Profiling the molecular signature of satellite glial cells at the single cell level reveals high similarities between rodents and humans.
Oshri Avraham,Alexander Chamessian,Rui Feng,Lite Yang,Alexandra E. Halevi,Amy M. Moore,Robert W. Gereau,Valeria Cavalli +7 more
TL;DR: The findings suggest that key features of SGC in rodent models are conserved in humans and provide the potential to leverage rodent SGC properties and identify potential targets in humans for the treatment of nerve injuries and alleviation of painful conditions.
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