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TetA

tetA is a gene that encodes a tetracycline efflux transporter that confers resistance to tetracycline antibiotics in bacteria. It is commonly found on plasmids and transposons in Gram-negative bacteria and is one of several tetracycline-resistance determinants, including tetB and tetC. The encoded protein is a membrane-associated efflux pump belonging to the major facilitator superfamily, exporting tetracycline out of the cell using the proton motive force and thereby lowering intracellular drug concentration.

Expression of tetA is typically regulated by a TetR-type repressor that binds an operator region upstream of

Genetic context and mobility: tetA is frequently located on conjugative plasmids and linked to mobile elements

Clinical and research relevance: tetA contributes to tetracycline resistance observed in clinical isolates of Escherichia coli,

tetA.
In
the
absence
of
tetracycline,
TetR
represses
transcription.
When
tetracycline
or
related
compounds
are
present,
they
bind
TetR
and
derepress
transcription,
leading
to
the
production
of
the
TetA
efflux
pump
and
increased
resistance.
such
as
transposons,
facilitating
horizontal
transfer
among
bacteria.
Multiple
alleles
exist
(for
example
tetA(A),
tetA(B),
tetA(C))
and
may
differ
in
regulatory
sequences
or
substrate
range,
though
they
generally
confer
a
similar
mechanism
of
resistance.
Salmonella,
Klebsiella,
and
other
Gram-negative
pathogens.
Detection
is
commonly
performed
by
PCR
targeting
tetA
or
by
phenotypic
antimicrobial
susceptibility
testing.
The
gene
is
also
used
as
a
selectable
marker
in
molecular
cloning
in
laboratory
strains,
where
tetracycline
or
related
compounds
select
for
transformed
cells.