2018
DOI: 10.1093/bioinformatics/bty058
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scEpath: energy landscape-based inference of transition probabilities and cellular trajectories from single-cell transcriptomic data

Abstract: Supplementary data are available at Bioinformatics online.

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Cited by 100 publications
(132 citation statements)
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“…Single cell Energies (scEnergy) were calculated, projected onto UMAP space, and used to infer cell state transition probabilities and lineage relationships. We found that lower energies, while typically associated with committed/differentiated cell states (Jin et al, 2018;Teschendorff and Enver, 2017), are also associated with a quiescent cell state because the known quiescent Bu-HFSC (CD34 + ) population showed the lowest scEnergy of all the skin epithelial cell types ( Figure 3D, 4E, and S4H; see Methods section). Using increasingly robust parameters, which incorporate increasing numbers of UW epidermal cells from each cell state to infer lineage progression, scEpath predicted a near-linear path that originates from the Col17a1 Hi basal cell state that displayed the lowest energy of all interfollicular epidermal cells ( Figure 6E, S12C, and S12G).…”
Section: Pseudotemporal Trajectory and Rna Velocity Analyses Reveal Bmentioning
confidence: 89%
See 3 more Smart Citations
“…Single cell Energies (scEnergy) were calculated, projected onto UMAP space, and used to infer cell state transition probabilities and lineage relationships. We found that lower energies, while typically associated with committed/differentiated cell states (Jin et al, 2018;Teschendorff and Enver, 2017), are also associated with a quiescent cell state because the known quiescent Bu-HFSC (CD34 + ) population showed the lowest scEnergy of all the skin epithelial cell types ( Figure 3D, 4E, and S4H; see Methods section). Using increasingly robust parameters, which incorporate increasing numbers of UW epidermal cells from each cell state to infer lineage progression, scEpath predicted a near-linear path that originates from the Col17a1 Hi basal cell state that displayed the lowest energy of all interfollicular epidermal cells ( Figure 6E, S12C, and S12G).…”
Section: Pseudotemporal Trajectory and Rna Velocity Analyses Reveal Bmentioning
confidence: 89%
“…Next, we used single cell Energy path (scEpath) to infer cell lineage relationships (see Methods section) (Jin et al, 2018). Single cell Energies (scEnergy) were calculated, projected onto UMAP space, and used to infer cell state transition probabilities and lineage relationships.…”
Section: Pseudotemporal Trajectory and Rna Velocity Analyses Reveal Bmentioning
confidence: 99%
See 2 more Smart Citations
“…We performed scEpath (Jin, MacLean et al, 2018) In G, data represent the mean value ± SD. NS, not significant; *P<0.05…”
Section: Identification Of Pseudotime-dependent Gene Dynamicsmentioning
confidence: 99%