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Journal of Bacteriology, August 1999, p. 4526-4532, Vol. 181, No. 15
Department of Microbiology and Immunology,
University of Tennessee, Memphis, Memphis, Tennessee 38163
Received 15 March 1999/Accepted 14 May 1999
Clostridium perfringens can obtain sialic acid from
host tissues by the activity of sialidase enzymes on
sialoglycoconjugates. After sialic acid is transported into the cell,
sialic acid lyase (NanA) then catalyzes the hydrolysis of sialic acid
into pyruvate and N-acetylmannosamine. The latter is
converted for use as a biosynthetic intermediate or carbohydrate source
in a pathway including an epimerase (NanE) that converts
N-acetylmannosamine-6-phosphate to
N-acetylglucosamine-6-phosphate. A 4.0-kb DNA fragment from C. perfringens NCTC 8798 that contains the nanE
and nanA genes has been cloned. The identification of the
nanA gene product as sialic acid lyase was confirmed by
overexpressing the gene and measuring sialic acid lyase activity in a
nanA Escherichia coli strain, EV78. The nanA
gene product was also shown to restore growth to EV78 in minimal medium
with sialic acid as the sole carbon source. By using Northern blot
experiments, it was demonstrated that the nanE and
nanA genes comprise an operon and that transcription of the
operon in C. perfringens is inducible by the addition of sialic acid to the growth medium. The Northern blot experiments also
showed that there is no catabolite repression of nanE-nanA transcription by glucose. With a plasmid construct containing a
promoterless cpe-gusA gene fusion, in which
0021-9193/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.
Cloning, Sequence, and Transcriptional Regulation of the Operon
Encoding a Putative N-Acetylmannosamine-6-Phosphate
Epimerase (nanE) and Sialic Acid Lyase (nanA) in
Clostridium perfringens
-glucuronidase activity indicated that the gusA gene
acted as a reporter for transcription, a promoter was localized to the
region upstream of the nanE gene. Primer extension
experiments then allowed us to identify a sialic acid-inducible
promoter located 30 bp upstream of the nanE coding sequence.
*
Corresponding author. Mailing address: Department of
Microbiology and Immunology, University of Tennessee, Memphis, 858 Madison Ave., Memphis, TN 38163. Phone: (901) 448-6779. Fax: (901)
448-8462. E-mail: sbmelville{at}utmem.edu.
Present address: DuPont Experimental Station, Wilmington, DE
19880-0328.
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