Home

multiORF

MultiORF is a term used to describe sequences that contain more than one open reading frame (ORF) that can be translated into distinct peptides or proteins. These ORFs may be arranged in different ways: overlapping ORFs occupying the same nucleotide region in different reading frames; alternative ORFs initiated at alternative start codons within the same transcript; and upstream ORFs located in the 5' leader region that can regulate translation of the main coding sequence.

In genomes, multiORF architecture contributes to proteome diversity and gene regulation. It is common in viral

Detection and annotation of multiORFs rely on a combination of evidence. Computational gene prediction methods, ribosome

Applications of multiORF knowledge include improving genome annotations, understanding translational regulation, and informing synthetic biology designs

genomes
where
compact
coding
capacity
benefits
from
overlapping
frames,
and
in
eukaryotes
where
uORFs
can
modulate
translation
efficiency.
In
bacteria
and
archaea,
operons
and
small
overlapping
genes
can
also
produce
multiORF
arrangements.
The
presence
of
multiple
translated
ORFs
within
a
locus
can
influence
expression
levels,
protein
function,
and
evolutionary
dynamics.
profiling
(Ribo-Seq),
transcriptomics,
and
proteomics
are
used
to
identify
and
validate
translated
ORFs.
Challenges
include
distinguishing
functional
ORFs
from
random
short
ORFs,
dealing
with
short
or
non-canonical
initiation
sites,
and
interpreting
overlapping
coding
sequences
without
misannotation.
that
encode
multiple
proteins
from
compact
loci.
See
also:
open
reading
frame,
uORF,
overlapping
gene,
ribosome
profiling.