Description
This track shows allele count distributions for 174,300 short tandem repeat (STR)
loci genotyped across 61,000 Japanese individuals by the
Tohoku Medical Megabank
Organization (ToMMo). STR genotyping was performed with
Expansion Hunter,
which estimates repeat copy numbers from short-read whole-genome sequencing data.
For each locus, the track provides the repeat motif, the reference copy number, the
mean and median copy number across the cohort, and a histogram of allele counts
by repeat size. Click on any locus to see the allele count distribution as a
bar chart.
Display Conventions
Items are colored by expected heterozygosity, computed as
het = 1 − ∑pi2 from allele counts
across the 61,000 Japanese individuals:
- Light gray – monomorphic (het = 0, single allele observed)
- Dark blue – nearly monomorphic (0 < het < 0.1)
- Medium blue – low diversity (het 0.1–0.3)
- Light purple – moderate diversity (het 0.3–0.5)
- Salmon – high diversity (het 0.5–0.7)
- Dark red – very high diversity (het ≥ 0.7)
- Medium gray – no allele frequency data available
The allele count histogram on the detail page shows the number of alleles observed
at each repeat copy number. The reference allele count is computed as AN minus the
sum of all alternate allele counts.
Methods
Genomic DNA was obtained from peripheral blood, saliva, or cord blood samples
from participants in the Tohoku Medical Megabank Project. Whole-genome sequencing
was performed on multiple Illumina and MGI platforms (HiSeq 2500, NovaSeq 6000,
DNBSeq-T7). STR genotyping was performed with
Expansion Hunter,
which uses paired-end reads and read pairs spanning, flanking, and fully contained
within repeat regions to estimate repeat copy numbers.
At UCSC, the Expansion Hunter VCF was converted to bigBed format using a
custom Python script.
For each STR locus, the <STRn> symbolic alleles in the VCF ALT field encode
the repeat copy number, and the INFO/AC field provides the allele count for each.
The reference allele count was computed as AN minus the sum of all alternate AC values.
These were assembled into a histogram of copies=count pairs for display.
Data Access
The raw data can be explored interactively with the
Table Browser or the
Data Integrator.
The data can be accessed from scripts through our
API, the track name is tommoStr.
For automated download and analysis, the genome annotation is stored in a bigBed
file that can be downloaded from
our download server.
The file for this track is called tommoStr.bb.
Individual regions or the whole genome annotation can be obtained using our tool
bigBedToBed, which can be compiled from the source code or downloaded as a
precompiled binary for your system. Instructions for downloading source code and
binaries can be found
here.
The tool can also be used to obtain features within a given range, e.g.
bigBedToBed http://hgdownload.soe.ucsc.edu/gbdb/hg38/strVar/tommoStr.bb
-chrom=chr21 -start=0 -end=100000000 stdout
The original data can be downloaded from the
jMorp 61KJPN-STR Downloads page.
Use of the data requires agreement to the
ToMMo conditions of use.
Credits
Thanks to the Tohoku Medical Megabank Organization and the participants of the
ToMMo cohort study for making this data publicly available.
References
Tadaka S, Hishinuma E, Komaki S, Motoike IN, Kawashima J,
Saigusa D, Inoue J, Takayama J, Okamura Y, Aoki Y
et al.
jMorp updates in 2020: large enhancement of multi-omics data
resources on the general Japanese population.
Nucleic Acids Res. 2021 Jan 8;49(D1):D536-D544.
PMID: 33179747; PMC: PMC7779038
Tadaka S, Kawashima J, Hishinuma E, Saito S, Okamura Y,
Otsuki A, Kojima K, Komaki S, Aoki Y, Kanno T et al.
jMorp: Japanese Multi-Omics Reference Panel update report
2023.
Nucleic Acids Res. 2024 Jan 5;52(D1):D622-D632.
PMID: 37930845; PMC: PMC10767895