γ-Aminobutyrate (GABA) is an important chemical
by itself
and can be further used for the production of monomer used for the
synthesis of biodegradable polyamides. Until now, GABA production
using
Corynebacterium glutamicum
harboring
glutamate decarboxylases (GADs) has been limited due to the discrepancy
between optimal pH for GAD activity (pH 4.0) and cell growth (pH 7.0).
In this study, we developed recombinant
C. glutamicum
strains expressing mutated GAD from
Escherichia coli
(EcGADmut) and GADs from
Lactococcus lactis
CICC20209 (LlGAD) and
Lactobacillus senmaizukei
(LsGAD), all of which showed enhanced pH stability and adaptability
at a pH of approximately 7.0. In shake flask cultivations, the GABA
productions of
C. glutamicum
H36EcGADmut,
C. glutamicum
H36LsGAD, and
C. glutamicum
H36LlGAD were examined at pH 5.0, 6.0, and 7.0, respectively. Finally,
C. glutamicum
H36EcGADmut (40.3 and 39.3 g L
–1
), H36LlGAD (42.5 and 41.1 g L
–1
), and H36LsGAD (41.6 and 40.2 g L
–1
) produced
improved GABA titers and yields in batch fermentation at pH 6.0 and
pH 7.0, respectively, from 100 g L
–1
glucose. The
recombinant strains developed in this study could be used for the
establishment of sustainable direct fermentative GABA production from
renewable resources under mild culture conditions, thus increasing
the availability of various GADs.
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