17b7d3c37be41135afaf8e91e365e3847af96ca5 lrnassar Mon Jun 22 10:56:56 2026 -0700 Add TAD (topologically associating domains) track set on hg19, hg38, mm10, mm39. refs #21599 New "tads" superTrack collecting published TAD calls, alpha-gated via include tad.ra alpha in each assembly's trackDb.ra. hg38 (all five sources): Dixon 2012 domains, Schmitt 2016 boundaries, McArthur & Capra 2021 boundary stability, ENCODE contact domains (faceted composite over 117 biosamples), and 3D Genome Browser 2.0 domains (faceted composite over 464 datasets). hg19: the three sources with hg19-compatible data (Dixon, Schmitt, McArthur). mm10/mm39 (domains only; the boundary sources have no mouse data): Dixon, ENCODE (faceted, 16 biosamples), and 3D Genome Browser (faceted, 30 datasets); mm39 lifted from mm10, lift noted in the long labels. Faceted composites are organ-colored from a TAD-owned organ_colors.json symlinked into /gbdb//bbi/tad/. Build scripts and autoSql are version-controlled under makeDb/scripts/tad/ and symlinked into the per-source build dirs. Provenance and fetch for every dataset are documented in the makedocs (doc/hg38/tad.txt, doc/mm10/tad.txt, doc/mm39/tad.txt, and the hg19 TAD section in doc/hg19.txt). diff --git src/hg/makeDb/trackDb/mouse/mm39/tads3dgb.html src/hg/makeDb/trackDb/mouse/mm39/tads3dgb.html new file mode 100644 index 00000000000..eae971bf42c --- /dev/null +++ src/hg/makeDb/trackDb/mouse/mm39/tads3dgb.html @@ -0,0 +1,66 @@ +

Description

+

+This composite shows TAD domains from the +3D Genome Browser +(3DGB) 2.0, across 30 mouse Hi-C and Micro-C datasets. Each subtrack is one 3DGB +dataset, displayed exactly as called and published by 3DGB. They are browsable with a +faceted selector (organ, cell type, assay, year, study); the displayed domain +intervals are 3DGB's own, with no UCSC re-calling, merging, or recurrence scoring. +

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+The calls are native to mm10. On mm39 they are shown lifted from mm10 (noted in each track's +long label). By default all subtracks are off; use the faceted selector to enable datasets. +

+ +

Display Conventions and Configuration

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+Each subtrack is drawn as boxes spanning the self-interacting domains and is +colored by organ. These datasets are not a cross-comparable consensus; each +represents one dataset's own TAD calls. Because calls are made on binned Hi-C data (3DGB calls +TADs at 25 kb), domain edges are uncertain to roughly the bin size, and domains do not tile +the genome end to end. +

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+The facets are Organ, Cell type, Assay, Year, and Study. +(The human 3DGB track additionally offers Condition, Treatment, and Provenance facets; those +were manually curated for the human datasets and are not provided here.) +

+ +

Methods

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+TAD domains were called by the 3D Genome Browser pipeline and are displayed verbatim. UCSC +performed only a format normalization (reshaping the published per-dataset BED-like file to a +plain four-column bigBed) and, for mm39, a liftOver from mm10; no domain coordinates +were changed and no re-calling was performed. The dataset metadata used for the faceted +selector was copied directly from the 3D Genome Browser. +

+ +

Data Access

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+The raw data can be explored interactively with the +Table Browser or the +Data Integrator. For programmatic access, the +track can be accessed using the Genome Browser's +REST API. +The underlying bigBed files can be downloaded from our +download server. +The complete original datasets are available from the +3D Genome Browser. +

+ +

Credits

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+Thanks to the 3D Genome Browser team (Yue lab, Northwestern University). The 3D Genome Browser +data are distributed under a +CC BY-NC 4.0 +license (free for non-commercial use). Please cite the 3D Genome Browser, and the original +studies, when using these data. +

+ +

References

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+Yu S, Fu Y, Wong JH, Wang J, Zhao H, Zhao J, Yue F. +The 3D Genome Browser 2.0: an enhanced online platform for visualizing and analyzing 3D +genome architecture. Nucleic Acids Res. 2026;54(D1):D48-D54. +doi:10.1093/nar/gkaf1109 +