Previous Article | Next Article 
J. Bacteriol., May 1997, 3181-3187, Vol 179, No. 10
Y Chen, S Miyata, S Makino and R Moriyama
The exudate of fully germinated spores of Clostridium perfringens S40 in
0.15 M KCI-50 mM potassium phosphate (pH 7.0) was found to contain another
spore-lytic enzyme in addition to the germination-specific amidase
previously characterized (S. Miyata, R. Moriyama, N. Miyahara, and S.
Makino, Microbiology 141:2643-2650, 1995). The lytic enzyme was purified to
homogeneity by anion-exchange chromatography and shown to be a muramidase
which requires divalent cations (Ca2+, Mg2+, or Mn2+) for its activity. The
enzyme was inactivated by sulfhydryl reagents, and sodium thioglycolate
reversed the inactivation by Hg2+. The muramidase hydrolyzed isolated spore
cortical fragments from a variety of wild-type organisms but had minimal
activity on decoated spores and isolated cell walls. However, the enzyme
was not capable of digesting isolated cortical fragments from spores of
Bacillus subtilis ADD1, which lacks muramic acid delta-lactam in its
cortical peptidoglycan. This indicates that the enzyme recognizes the
delta-lactam residue peculiar to spore peptidoglycan, suggesting an
involvement of the enzyme in spore germination. Immunochemical studies
indicated that the muramidase in its mature form is localized on the
exterior of the cortex layer in the dormant spore. A gene encoding the
muramidase, sleM, was cloned into Escherichia coli, and the nucleotide
sequence was determined. The gene encoded a protein of 321 amino acids with
a deduced molecular weight of 36,358. The deduced amino acid sequence of
the sleM gene indicated that the enzyme is produced in a mature form. It
was suggested that the muramidase belongs to a separate group within the
lysozyme family typified by the fungus Chalaropsis lysozyme. A possible
mechanism for cortex degradation in C. perfringens S40 spores is discussed.
Copyright © 1997, American Society for Microbiology
Molecular characterization of a germination-specific muramidase from Clostridium perfringens S40 spores and nucleotide sequence of the corresponding gene
Department of Applied Biological Sciences, School of Agricultural Sciences, Nagoya University, Aichi, Japan.
This article has been cited by other articles:
-
Paredes-Sabja, D., Setlow, P., Sarker, M. R.
(2009). SleC Is Essential for Cortex Peptidoglycan Hydrolysis during Germination of Spores of the Pathogenic Bacterium Clostridium perfringens. J. Bacteriol.
191: 2711-2720
[Abstract] [Full Text] -
Heffron, J. D., Orsburn, B., Popham, D. L.
(2009). Roles of Germination-Specific Lytic Enzymes CwlJ and SleB in Bacillus anthracis. J. Bacteriol.
191: 2237-2247
[Abstract] [Full Text] -
Dowd, M. M., Orsburn, B., Popham, D. L.
(2008). Cortex Peptidoglycan Lytic Activity in Germinating Bacillus anthracis Spores. J. Bacteriol.
190: 4541-4548
[Abstract] [Full Text] -
Paredes-Sabja, D., Setlow, B., Setlow, P., Sarker, M. R.
(2008). Characterization of Clostridium perfringens Spores That Lack SpoVA Proteins and Dipicolinic Acid. J. Bacteriol.
190: 4648-4659
[Abstract] [Full Text] -
Dhalluin, A., Bourgeois, I., Pestel-Caron, M., Camiade, E., Raux, G., Courtin, P., Chapot-Chartier, M.-P., Pons, J.-L.
(2005). Acd, a peptidoglycan hydrolase of Clostridium difficile with N-acetylglucosaminidase activity. Microbiology
151: 2343-2351
[Abstract] [Full Text] -
Gilmore, M. E., Bandyopadhyay, D., Dean, A. M., Linnstaedt, S. D., Popham, D. L.
(2004). Production of Muramic {delta}-Lactam in Bacillus subtilis Spore Peptidoglycan. J. Bacteriol.
186: 80-89
[Abstract] [Full Text] -
Atrih, A., Foster, S. J.
(2001). In vivo roles of the germination-specific lytic enzymes of Bacillus subtilis 168. Microbiology
147: 2925-2932
[Abstract] [Full Text] -
Shimamoto, S., Moriyama, R., Sugimoto, K., Miyata, S., Makino, S.
(2001). Partial Characterization of an Enzyme Fraction with Protease Activity Which Converts the Spore Peptidoglycan Hydrolase (SleC) Precursor to an Active Enzyme during Germination of Clostridium perfringens S40 Spores and Analysis of a Gene Cluster Involved in the Activity. J. Bacteriol.
183: 3742-3751
[Abstract] [Full Text] -
Meador-Parton, J., Popham, D. L.
(2000). Structural Analysis of Bacillus subtilis Spore Peptidoglycan during Sporulation. J. Bacteriol.
182: 4491-4499
[Abstract] [Full Text] -
Chen, Y., Fukuoka, S., Makino, S.
(2000). A Novel Spore Peptidoglycan Hydrolase of Bacillus cereus: Biochemical Characterization and Nucleotide Sequence of the Corresponding Gene, sleL. J. Bacteriol.
182: 1499-1506
[Abstract] [Full Text] -
Smith, T. J., Blackman, S. A., Foster, S. J.
(2000). Autolysins of Bacillus subtilis: multiple enzymes with multiple functions. Microbiology
146: 249-262
[Full Text] -
Boland, F. M., Atrih, A., Chirakkal, H., Foster, S. J., Moir, A.
(2000). Complete spore-cortex hydrolysis during germination of Bacillus subtilis 168 requires SleB and YpeB. Microbiology
146: 57-64
[Abstract] [Full Text] -
Moriyama, R., Fukuoka, H., Miyata, S., Kudoh, S., Hattori, A., Kozuka, S., Yasuda, Y., Tochikubo, K., Makino, S.
(1999). Expression of a Germination-Specific Amidase, SleB, of Bacilli in the Forespore Compartment of Sporulating Cells and Its Localization on the Exterior Side of the Cortex in Dormant Spores. J. Bacteriol.
181: 2373-2378
[Abstract] [Full Text] -
Atrih, A., Zöllner, P., Allmaier, G., Williamson, M. P., Foster, S. J.
(1998). Peptidoglycan Structural Dynamics during Germination of Bacillus subtilis 168 Endospores. J. Bacteriol.
180: 4603-4612
[Abstract] [Full Text] -
Ishikawa, S., Yamane, K., Sekiguchi, J.
(1998). Regulation and Characterization of a Newly Deduced Cell Wall Hydrolase Gene (cwlJ) Which Affects Germination of Bacillus subtilis Spores. J. Bacteriol.
180: 1375-1380
[Abstract] [Full Text]
Copyright © 2009 by the American Society for Microbiology. For an alternate route to Journals.ASM.org, visit: http://intl-journals.asm.org | More Info»