Works by Tan, Xu (exact spelling)

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  1.  19
    Representing and Linking Dunhuang Cultural Heritage Information Resources Using Knowledge Graph.Xu Tan, Wanli Chang & Xiaoguang Wang - 2021 - Knowledge Organization 47 (7):604-615.
    This study employs a knowledge graph approach to realize the representation and association of information resources, promote the research, teaching, and dissemination of Dunhuang cultural heritage (CH). The Dunhuang Mogao Grottoes is a UNESCO world CH site, and digitization of Dunhuang CH has produced a large amount of information resources. However, these digitized resources continue to lack the systematic granular semantic representation required to correlate Dunhuang cultural heritage information (CHI) in order to facilitate efficient research and appreciation. To respond to (...)
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  2.  10
    Representation and Display of Digital Images of Cultural Heritage: A Semantic Enrichment Approach.Xilong Hou, Hongyu Wang, Xiaoguang Wang, Xiaoxi Luo & Xu Tan - 2021 - Knowledge Organization 48 (3):231-247.
    Digital images of cultural heritage (CH) contain rich semantic information. However, today’s semantic representations of CH images fail to fully reveal the content entities and context within these vital surrogates. This paper draws on the fields of image research and digital humanities to propose a systematic methodology and a technical route for semantic enrichment of CH digital images. This new methodology systematically applies a series of procedures including: semantic annotation, entity-based enrichment, establishing internal relations, event-centric enrichment, defining hierarchy relations between (...)
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  3.  10
    The curious case of TMEM120A: Mechanosensor, fat regulator, or antiviral defender?Nianchao Qian, Shuo Li & Xu Tan - 2022 - Bioessays 44 (6):2200045.
    Mechanical pain sensing, adipogenesis, and STING‐dependent innate immunity seem three distinct biological processes without substantial relationships. Intriguingly, TMEM120A, a transmembrane protein, has been shown to detect mechanical pain stimuli as a mechanosensitive channel, contribute to adipocyte differentiation/function by regulating genome organization and promote STING trafficking to active cellular innate immune response. However, the role of TMEM120A as a mechanosensitive channel was challenged by recent studies which cannot reproduce data supporting its role in mechanosensing. Furthermore, the molecular mechanism by which TMEM120A (...)
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