Home

FLPo

FLPo is a codon-optimized variant of the Flp recombinase derived from Saccharomyces cerevisiae, engineered for efficient recombination at Flp recognition target (FRT) sites in mammalian cells and other higher organisms. It incorporates mammalian-optimized codons and often stabilizing changes to enhance catalytic activity at 37°C, enabling robust DNA manipulation in vivo where native Flp activity is limited.

The enzyme catalyzes site-specific recombination between two FRT sites. Depending on the orientation of the FRT

In practical use, FLPo is typically expressed under tissue-specific, inducible, or ubiquitous promoters in transgenic models.

Advantages of FLPo include higher recombination efficiency in mammalian contexts compared with non-optimized Flp variants and

See also: FRT, Flp recombinase, Cre-loxP, Dre-rox.

sites,
FLPo
can
excise
a
intervening
DNA
cassette,
invert
the
sequence,
or
translocate
genetic
material.
This
makes
FLPo
useful
for
conditional
gene
disruption
or
activation,
lineage
tracing,
and
other
genome
engineering
tasks
that
rely
on
precise
rearrangements.
It
is
frequently
employed
in
combination
with
Cre-loxP
systems
or
within
dual-recombinase
strategies
to
enable
intersectional
genetics
or
sequential
genetic
modifications.
Applications
span
mammalian
model
organisms,
including
mice,
as
well
as
other
systems
where
robust
Flp
activity
at
mammalian
body
temperature
is
advantageous.
compatibility
with
existing
FRT-flanked
constructs.
Limitations
can
include
dependency
on
adequate
expression
and
access
to
chromatin
regions
containing
FRT
sites,
potential
off-target
concerns
being
relatively
low
but
not
zero,
and
the
need
for
careful
experimental
design
when
integrating
Flp-
and
Cre-,
or
other
recombinase-based,
workflows.