FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4382011817> ?p ?o ?g. }

• W4382011817 endingPage "4718" @default.
• W4382011817 startingPage "4709" @default.
• W4382011817 abstract "In the gastrointestinal (GI) system, like in other organ systems, the histological structure is a key determinant of physiological function. Tissues form multiple layers in the GI tract to perform their specialized functions in secretion, absorption, and motility. Even at the single layer, the heterogeneous cell population performs a diverse range of digestive or regulatory functions. Although many details of such functions at the histological and cell biological levels were revealed by traditional methods such as cell sorting, isolation, and culture, as well as histological methods such as immunostaining and RNA in situ hybridization, recent advances in spatial single-cell technologies could further contribute to our understanding of the molecular makeup of GI histological structures by providing a genome-wide overview of how different genes are expressed across individual cells and tissue layers. The current minireview summarizes recent advances in the spatial transcriptomics field and discusses how such technologies can promote our understanding of GI physiology. © 2023 American Physiological Society. Compr Physiol 13:4709-4718, 2023." @default.
• W4382011817 created "2023-06-27" @default.
• W4382011817 creator A5009996821 @default.
• W4382011817 creator A5048925751 @default.
• W4382011817 date "2023-06-26" @default.
• W4382011817 modified "2023-09-27" @default.
• W4382011817 title "Spatial Single‐Cell Technologies for Exploring Gastrointestinal Tissue Transcriptome" @default.
• W4382011817 cites W1972618510 @default.
• W4382011817 cites W1976714996 @default.
• W4382011817 cites W1977544680 @default.
• W4382011817 cites W1981509058 @default.
• W4382011817 cites W2037621915 @default.
• W4382011817 cites W2039614549 @default.
• W4382011817 cites W2042789810 @default.
• W4382011817 cites W2069089843 @default.
• W4382011817 cites W2098454110 @default.
• W4382011817 cites W2102212449 @default.
• W4382011817 cites W2109847775 @default.
• W4382011817 cites W2135937351 @default.
• W4382011817 cites W2149573463 @default.
• W4382011817 cites W2151013106 @default.
• W4382011817 cites W2336440223 @default.
• W4382011817 cites W2467355029 @default.
• W4382011817 cites W2471536144 @default.
• W4382011817 cites W2585175142 @default.
• W4382011817 cites W2587996389 @default.
• W4382011817 cites W2588569583 @default.
• W4382011817 cites W2747545374 @default.
• W4382011817 cites W2773583751 @default.
• W4382011817 cites W2785264903 @default.
• W4382011817 cites W2794083495 @default.
• W4382011817 cites W2800013084 @default.
• W4382011817 cites W2809368942 @default.
• W4382011817 cites W2887091285 @default.
• W4382011817 cites W2891349406 @default.
• W4382011817 cites W2896334009 @default.
• W4382011817 cites W2896518632 @default.
• W4382011817 cites W2915848182 @default.
• W4382011817 cites W2922020904 @default.
• W4382011817 cites W2923300855 @default.
• W4382011817 cites W2932965638 @default.
• W4382011817 cites W2937687190 @default.
• W4382011817 cites W2949238013 @default.
• W4382011817 cites W2949535577 @default.
• W4382011817 cites W2950975031 @default.
• W4382011817 cites W2951506174 @default.
• W4382011817 cites W2972983657 @default.
• W4382011817 cites W2974173934 @default.
• W4382011817 cites W2979595830 @default.
• W4382011817 cites W2989057263 @default.
• W4382011817 cites W3023126733 @default.
• W4382011817 cites W3023701177 @default.
• W4382011817 cites W3034629913 @default.
• W4382011817 cites W3043793790 @default.
• W4382011817 cites W3090542854 @default.
• W4382011817 cites W3094359197 @default.
• W4382011817 cites W3100967665 @default.
• W4382011817 cites W3107780094 @default.
• W4382011817 cites W3111336272 @default.
• W4382011817 cites W3112563877 @default.
• W4382011817 cites W3119671877 @default.
• W4382011817 cites W3119677722 @default.
• W4382011817 cites W3125011419 @default.
• W4382011817 cites W3129476455 @default.
• W4382011817 cites W3149417142 @default.
• W4382011817 cites W3152852090 @default.
• W4382011817 cites W3161916905 @default.
• W4382011817 cites W3164044074 @default.
• W4382011817 cites W3165246254 @default.
• W4382011817 cites W3165378303 @default.
• W4382011817 cites W3167327839 @default.
• W4382011817 cites W3174048442 @default.
• W4382011817 cites W3176766013 @default.
• W4382011817 cites W3186604072 @default.
• W4382011817 cites W3190202966 @default.
• W4382011817 cites W3196495189 @default.
• W4382011817 cites W3209238322 @default.
• W4382011817 cites W3216124552 @default.
• W4382011817 cites W4211012557 @default.
• W4382011817 cites W4211225597 @default.
• W4382011817 cites W4225272983 @default.
• W4382011817 cites W4229033508 @default.
• W4382011817 cites W4283833722 @default.
• W4382011817 cites W4288447807 @default.
• W4382011817 cites W4295752339 @default.
• W4382011817 cites W4313454424 @default.
• W4382011817 cites W4313561175 @default.
• W4382011817 cites W4321611267 @default.
• W4382011817 cites W4375858779 @default.
• W4382011817 doi "https://doi.org/10.1002/cphy.c210053" @default.
• W4382011817 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37358516" @default.
• W4382011817 hasPublicationYear "2023" @default.
• W4382011817 type Work @default.
• W4382011817 citedByCount "0" @default.
• W4382011817 crossrefType "other" @default.
• W4382011817 hasAuthorship W4382011817A5009996821 @default.
• W4382011817 hasAuthorship W4382011817A5048925751 @default.
• W4382011817 hasConcept C104317684 @default.

• next