Z
Zhiqiang Dong
Researcher at Huazhong Agricultural University
Publications - 55
Citations - 1438
Zhiqiang Dong is an academic researcher from Huazhong Agricultural University. The author has contributed to research in topics: Medicine & Zebrafish. The author has an hindex of 20, co-authored 38 publications receiving 1126 citations. Previous affiliations of Zhiqiang Dong include Hubei University of Medicine & Fudan University Shanghai Medical College.
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The dorsal pallium in zebrafish, Danio rerio (Cyprinidae, Teleostei)
TL;DR: A new developmental and organizational model of the zebrafish pallium-one is proposed which is the result of a complex outward-inward folding.
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A rat model of bone cancer pain induced by intra-tibia inoculation of Walker 256 mammary gland carcinoma cells.
Qi-Liang Mao-Ying,Jun Zhao,Zhiqiang Dong,Jun Wang,Jin Yu,Min-Fen Yan,Yu-Qiu Zhang,Gen-Cheng Wu,Yan-Qing Wang +8 more
TL;DR: Interestingly, mechanical allodynia was also observed in the contralateral limb, indicating the involvement of 'mirror image' pain in bone cancer pain.
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Intralineage Directional Notch Signaling Regulates Self-Renewal and Differentiation of Asymmetrically Dividing Radial Glia
TL;DR: It is found that asymmetric division invariably generates a basal self-renewing daughter and an apical differentiating sibling, andGene expression and genetic mosaic analysis further show that the apical daughter is the source of Notch ligand that is essential to maintain higher Notch activity in the basal daughter.
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Open-top selective plane illumination microscope for conventionally mounted specimens
TL;DR: A new open-top selective plane illumination microscope compatible with microfluidic devices, multi-well plates, and other sample formats used in conventional inverted microscopy, and demonstrated its unique high-content imaging capability by recording Drosophila embryo development in environmentally-controlled micro fluidic channels and imaging zebrafish embryos in 96- well plates.
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A systematic approach to identify functional motifs within vertebrate developmental enhancers.
TL;DR: This work computationally identified conserved non-coding elements likely to have a desired tissue-specificity based on the expression of nearby genes and identified five top-ranked motifs, all of which were experimentally validated as critical for forebrain enhancer activity.