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Journal of Bacteriology, December 2000, p. 7029-7034, Vol. 182, No. 24
Department of Chemical Engineering,
University of California, Berkeley, California 94720-1462
Received 19 June 2000/Accepted 27 September 2000
The arabinose-inducible promoter PBAD is
subject to all-or-none induction, in which intermediate concentrations
of arabinose give rise to subpopulations of cells that are fully
induced and uninduced. To construct a host-vector expression system
with regulatable control in a homogeneous population of cells, the
araE gene of Escherichia coli was cloned into
an RSF1010-derived plasmid under control of the
isopropyl-
0021-9193/00/$04.00+0
Copyright © 2000, American Society for Microbiology. All rights reserved.
Regulatable Arabinose-Inducible Gene Expression System with
Consistent Control in All Cells of a Culture
-D-thiogalactopyranoside-inducible
Ptac and Ptaclac
promoters. This gene encodes the low-affinity, high-capacity arabinose
transport protein and is controlled natively by an arabinose-inducible promoter. To detect the effect of arabinose-independent
araE expression on population homogeneity and cell-specific
expression, the gfpuv gene was placed under control of the
arabinose-inducible araBAD promoter
(PBAD) on the pMB1-derived plasmid pBAD24. The
transporter and reporter plasmids were transformed into E. coli strains with native arabinose transport systems and strains
deficient in one or both of the arabinose transport systems
(araE and/or araFGH). The effects of the
arabinose concentration and arabinose-independent transport control on
population homogeneity were investigated in these strains using flow
cytometry. The araE, and araE araFGH mutant strains harboring the transporter and reporter plasmids were
uniformly induced across the population at all inducer concentrations, and the level of gene expression in individual cells varied with arabinose concentration. In contrast, the parent strain, which expressed the native araE and araFGH genes and
harbored the transporter and reporter plasmids, exhibited all-or-none
behavior. This work demonstrates the importance of including a
transport gene that is controlled independently of the inducer to
achieve regulatable and consistent induction in all cells of the culture.
*
Corresponding author. Mailing address: Department of
Chemical Engineering, University of California, Berkeley, CA
94720-1462. Phone: (510) 642-4862. Fax: (510) 643-1228. E-mail:
keasling{at}socrates.berkeley.edu.
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