Ren, ZhiJeckel, HannahSimon-Soro, AureaXiang, ZhentingLiu, YuanCavalcanti, Indira M.Xiao, JinTin, Nyi-NyiHara, AndersonDrescher, KnutKoo, Hyun2023-09-072023-09-072022Ren Z, Jeckel H, Simon-Soro A, et al. Interkingdom assemblages in human saliva display group-level surface mobility and disease-promoting emergent functions. Proc Natl Acad Sci U S A. 2022;119(41):e2209699119. doi:10.1073/pnas.2209699119https://hdl.handle.net/1805/35477Fungi and bacteria form multicellular biofilms causing many human infections. How such distinctive microbes act in concert spatiotemporally to coordinate disease-promoting functionality remains understudied. Using multiscale real-time microscopy and computational analysis, we investigate the dynamics of fungal and bacterial interactions in human saliva and their biofilm development on tooth surfaces. We discovered structured interkingdom assemblages displaying emergent functionalities to enhance collective surface colonization, survival, and growth. Further analyses revealed an unexpected group-level surface mobility with coordinated “leaping-like” and “walking-like” motions while continuously growing. These mobile groups of growing cells promote rapid spatial spreading of both species across surfaces, causing more extensive tooth decay. Our findings show multicellular interkingdom assemblages acting like supraorganisms with functionalities that cannot be achieved without coassembly.en-USAttribution 4.0 InternationalInterkingdom interactionMicrobial mobilitySpatial structureSupraorganismOral biofilmArticle