Sammanfattning
Motivation: Single-cell RNA-sequencing enables cell-level investigation of cell differentiation, which can be modelled using trajectory inference methods. While tremendous effort has been put into designing these methods, inferring accurate trajectories automatically remains difficult. Therefore, the standard approach involves testing different trajectory inference methods and picking the trajectory giving the most biologically sensible model. As the default parameters are often suboptimal, their tuning requires methodological expertise.
Results: We introduce Totem, an open-source, easy-to-use R package designed to facilitate inference of tree-shaped trajectories from single-cell data. Totem generates a large number of clustering results, estimates their topologies as minimum spanning trees, and uses them to measure the connectivity of the cells. Besides automatic selection of an appropriate trajectory, cell connectivity enables to visually pinpoint branching points and milestones relevant to the trajectory. Furthermore, testing different trajectories with Totem is fast, easy, and does not require in-depth methodological knowledge.
Availability and implementation: Totem is available as an R package at https://github.com/elolab/Totem.
Results: We introduce Totem, an open-source, easy-to-use R package designed to facilitate inference of tree-shaped trajectories from single-cell data. Totem generates a large number of clustering results, estimates their topologies as minimum spanning trees, and uses them to measure the connectivity of the cells. Besides automatic selection of an appropriate trajectory, cell connectivity enables to visually pinpoint branching points and milestones relevant to the trajectory. Furthermore, testing different trajectories with Totem is fast, easy, and does not require in-depth methodological knowledge.
Availability and implementation: Totem is available as an R package at https://github.com/elolab/Totem.
| Originalspråk | Engelska |
|---|---|
| Artikelnummer | btad515 |
| Antal sidor | 9 |
| Tidskrift | Bioinformatics |
| Volym | 39 |
| Nummer | 9 |
| DOI | |
| Status | Publicerad - sep. 2023 |
| MoE-publikationstyp | A1 Tidskriftsartikel-refererad |
Finansiering
L.L.E. reports grants from the European Research Council ERC [677943]; European Union's Horizon 2020 research and innovation programme [955321]; Academy of Finland [310561, 314443, 329278, 335434, 335611, 341342]; Sigrid Juselius Foundation, during the conduct of the study. This work was also supported by Turku Graduate School (UTUGS); Biocenter Finland; ELIXIR Finland.
| Finansiärer | Finansiärsnummer |
|---|---|
| Graduate School of Åbo Akademi University (Informational and Structural Biology Doctoral Network), Turku, Finland. | |
| European Research Council | 677943 |
| Academy of Finland | 329278, 341342, 310561, 335434, 314443, 335611 |
| Sigrid Jusélius Stiftelse | |
| Horizon 2020 | 955321 |
| Biocenter Finland | |
| Turun yliopiston tutkijakoulu |
