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The non-canonical ORFs supertrack contains tracks that display open reading frames (ORFs)
found outside of annotated protein-coding sequences. While the human genome has approximately
20,000 annotated protein-coding genes, recent advances in ribosome profiling (Ribo-seq) and
proteomics have revealed widespread translation of ORFs that do not correspond to known
protein-coding genes. These non-canonical ORFs are found in regions previously considered
non-coding, including 5' and 3' UTRs, long non-coding RNAs, pseudogenes, and alternative
reading frames of known genes.
Several subtypes of non-canonical ORFs are commonly distinguished. Upstream ORFs (uORFs)
are located in 5' UTRs and can regulate translation of the downstream main coding sequence;
ribosomes that translate a uORF may fail to reinitiate at the main start codon, reducing
protein output. Small ORFs (sORFs), generally defined as encoding fewer than 100 amino
acids, have been systematically overlooked by gene annotation pipelines due to their short
length, but many produce functional micropeptides involved in signaling, metabolism, and
development. Other types include downstream ORFs (dORFs) in 3' UTRs,
out-of-frame ORFs that overlap known coding sequences in an alternative reading frame,
and ORFs in transcripts annotated as non-coding RNAs or pseudogenes.
This track collection imports various databases and annotates all ORFs with their Kozak strength,
and colors the features by Kozak strength.
Click any of the track names below to show their configuration/documentation page:
| Track |
Description |
Items |
Genome Coverage |
Exon Coverage |
Start codon |
Kozak strength (ATG only) |
| ATG |
non-ATG |
Strong |
Moderate |
Weak |
| UTRannotator uORFs |
Upstream ORFs in 5' UTRs from UTRannotator |
44,435 |
1.15% |
1.15% |
6,236 |
38,199 |
1,307 |
3,054 |
1,875 |
| GENCODE ncORFs |
GENCODE non-canonical ORFs supported by Ribo-seq |
7,264 |
1.02% |
0.03% |
7,263 |
1 |
1,571 |
3,705 |
1,987 |
| GENCODE ncORFs primary |
GENCODE non-canonical ORFs – primary set |
10,127 |
0.45% |
0.02% |
6,183 |
3,944 |
1,746 |
3,300 |
1,137 |
| GENCODE ncORFs comprehensive |
GENCODE non-canonical ORFs – comprehensive set |
28,359 |
2.24% |
0.06% |
13,776 |
14,583 |
3,133 |
7,168 |
3,475 |
| 5ULTRA uORFs |
uORFs in MANE Select transcripts from 5ULTRA (ATG only) |
22,567 |
2.44% |
0.09% |
22,567 |
0 |
3,768 |
10,862 |
7,472 |
| nuORFdb |
Non-canonical ORFs from nuORFdb v1.2 |
229,251 |
22.14% |
0.83% |
51,080 |
178,171 |
10,905 |
25,539 |
14,636 |
| MetamORF |
Meta-database of small ORFs (sORFs) |
664,558 |
33.53% |
1.19% |
147,490 |
517,068 |
33,481 |
74,267 |
39,742 |
| OpenProt |
Alternative and reference proteins from OpenProt v2.2 |
921,170 |
49.85% |
3.36% |
906,942 |
14,228 |
202,199 |
446,288 |
258,455 |
| OpenProt (MS>=2) |
OpenProt proteins with mass spectrometry evidence (≥2 peptides) |
377,916 |
40.29% |
1.85% |
367,257 |
10,659 |
106,148 |
181,817 |
79,292 |
GENCODE ncORFs (Phase I and Phase II)
The three GENCODE ncORF tracks display non-canonical translated open reading frames
identified from ribosome profiling (Ribo-seq) data and mapped to the GENCODE annotation by
the GENCODE / TransCODE
consortium.
- Phase I – a consolidated catalog of ATG-initiated ncORFs of at least 16
codons, called from Ribo-seq data across seven publications and mapped to GENCODE v35.
Sense-overlapping ORFs were merged, leaving a unique set; over 3,000 are found in
more than one publication and so are flagged as replicated. This was the basis of
the original ncORF reference release for Ensembl/GENCODE, HGNC, UniProtKB, and
PeptideAtlas.
- Phase II Comprehensive – the expanded catalog (GENCODE v45). Additional
published Ribo-seq datasets were incorporated and the size and start-codon
restrictions from Phase I were lifted, so this set includes shorter and non-AUG
ORFs.
- Phase II Primary – a high-confidence subset of Phase II filtered for
translations with especially robust Ribo-seq signatures, comparable to canonical
protein-coding genes.
See the
GENCODE ncORFs Phase I subtrack page
or the Phase II
primary /
comprehensive
pages for download URLs, methods, and references.
5ULTRA uORFs
5ULTRA is a pipeline for
prioritizing 5' UTR variants by their impact on protein translation. As part of the project,
Chaldebas et al. compiled a reference set of 22,567 ATG-initiated uORFs from two databases
(Ribo-uORF and uORFdb), mapped to MANE Select transcripts and classified into three functional
types. See the 5ULTRA uORFs subtrack page
for more details.
UTRannotator uORFs
Created by the Whiffin lab,
UTRannotator
is a VEP plugin for annotating 5' UTR variants with respect to upstream open reading frames
(uORFs). As part of the project, the authors compiled a curated reference set of uORFs in
human 5' UTRs from
sorfs.org, which contains ORFs supported
by Ribo-Seq.
See the UTRannotator uORFs subtrack page
for more details. Data from sorfs.org is also part of the Metamorf track (see below).
This track is useful if you have a prediction from the VEP plugin and want to see the context.
The UTRannotator source data is distributed as single-span features with no exon/intron
structure, so the uORFs would appear as continuous blocks even across introns of their host
transcripts. To recover the splicing structure we look up, for each uORF, a same-strand
MANE Select / MANE Plus Clinical
transcript whose coordinates overlap the uORF range. The host transcript's exons are
clipped to the uORF range so that any MANE intron inside the overlap is preserved as an
intron of the displayed bed12 record. A uORF that extends past either end of MANE keeps
the MANE introns inside the overlap and gets a single bridging block for the orphan
portion. If a uORF endpoint falls inside a MANE intron (i.e. UTRannotator originally used
a transcript whose UTR exon boundaries differ from MANE's), we fall back to the full
GENCODE comprehensive set and apply
the same projection. If no donor in either pool can host the uORF, it stays single-block.
The chosen donor transcript ID is recorded in the intronsSource field
(or none if no host was found).
nuORFdb
nuORFdb (novel
unannotated ORF database) is a Broad Institute database of non-canonical open reading frames
with evidence of translation from ribosome profiling (Ribo-seq). ORF types include uORFs,
dORFs, out-of-frame ORFs, pseudogene ORFs, lincRNA ORFs, and others.
See the nuORFdb subtrack page for more details.
The nuORFdb database is a very consistent dataset, from a well-known paper.
MetamORF
MetamORF is a repository of
small ORFs (sORFs) in the human genome, consolidated from several primary data sources and
many individual ribosome profiling datasets. It integrates bioinformatic predictions,
ribosome profiling experiments, and mass spectrometry studies into a unified format.
See the MetamORF subtrack page for more details.
Metamorf has many predictions, and not all may be relevant, but gives an example of
a database with as many models as possible, and is the only complete archive of sorfs.org
that we are aware of.
OpenProt
OpenProt is a comprehensive annotation
of all possible protein-coding ORFs in eukaryotic genomes. It distinguishes RefProts (the
known canonical proteins), Isoforms (alternative products of canonical genes), and AltProts
(predicted from alternative reading frames in UTRs, frameshifted CDS overlaps, and
non-coding RNAs). Each ORF is annotated with mass spectrometry and ribosome profiling
evidence; a pre-filtered Mass-Spec-supported subset (≥2 unique peptides) is also available.
See the OpenProt subtrack page for more details.
OpenProt is widely known and has by far the most predictions, even more than Metamorf, which is
why a subset exists with only the more reliable ORFs with Mass-Spec data.
To view the full description, click here.
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