Previous Article | Next Article 
Appl. Environ. Microbiol., 07 1995, 2514-2520, Vol 61, No. 7
JP Coleman and LL Hudson
The gene encoding a conjugated bile acid hydrolase (CBAH) from Clostridium
perfringens 13 has been cloned and expressed in Escherichia coli, and its
nucleotide sequence has been determined. Nucleotide and predicted amino
acid sequence analyses indicated that the gene product is related to two
previously characterized amidases, a CBAH from Lactobacillus plantarum (40%
identity) and a penicillin V amidase from Bacillus sphaericus (34%
identity). The product is apparently unrelated to a CBAH from C.
perfringens for which N-terminal sequence information was determined. The
gene product was purified from recombinant E. coli and used to raise
antibody in rabbits. The presence of the protein in C. perfringens was then
confirmed by immunoblot analysis. The protein was shown to have a native
molecular weight of 147,000 and a subunit molecular weight of 36,100,
indicating its probable existence as a tetramer. Disruption of the
chromosomal C. perfringens CBAH gene with a chloramphenicol resistance
cartridge resulted in a mutant strain which retained partial CBAH activity.
Polyacrylamide gel electrophoresis followed by enzymatic activity staining
and immunoblotting indicated that the mutant strain no longer expressed the
cloned CBAH (CBAH-1) but did express at least one additional CBAH (CBAH-2).
CBAH-2 was immunologically distinct from CBAH-1, and its mobility on native
polyacrylamide gels was different from that of CBAH-1. Furthermore,
comparisons of pH optima and substrate specificities of CBAH activities
from recombinant E. coli and wild-type and mutant C. perfringens provided
further evidence for the presence of multiple CBAH activities in C.
perfringens.
Copyright © 1995, American Society for Microbiology
Cloning and characterization of a conjugated bile acid hydrolase gene from Clostridium perfringens
Department of Microbiology and Immunology, School of Medicine, East Carolina University, Greenville, North Carolina 27828-4354, USA.
This article has been cited by other articles:
-
Lambert, J. M., Siezen, R. J., de Vos, W. M., Kleerebezem, M.
(2008). Improved annotation of conjugated bile acid hydrolase superfamily members in Gram-positive bacteria. Microbiology
154: 2492-2500
[Abstract] [Full Text] -
De Lisle, R. C.
(2007). Altered transit and bacterial overgrowth in the cystic fibrosis mouse small intestine. Am. J. Physiol. Gastrointest. Liver Physiol.
293: G104-G111
[Abstract] [Full Text] -
Kumar, R. S., Brannigan, J. A., Prabhune, A. A., Pundle, A. V., Dodson, G. G., Dodson, E. J., Suresh, C. G.
(2006). Structural and Functional Analysis of a Conjugated Bile Salt Hydrolase from Bifidobacterium longum Reveals an Evolutionary Relationship with Penicillin V Acylase. J. Biol. Chem.
281: 32516-32525
[Abstract] [Full Text] -
Begley, M., Hill, C., Gahan, C. G. M.
(2006). Bile salt hydrolase activity in probiotics.. Appl. Environ. Microbiol.
72: 1729-1738
[Full Text] -
Ridlon, J. M., Kang, D.-J., Hylemon, P. B.
(2006). Bile salt biotransformations by human intestinal bacteria. J. Lipid Res.
47: 241-259
[Abstract] [Full Text] -
McAuliffe, O., Cano, R. J., Klaenhammer, T. R.
(2005). Genetic Analysis of Two Bile Salt Hydrolase Activities in Lactobacillus acidophilus NCFM. Appl. Environ. Microbiol.
71: 4925-4929
[Abstract] [Full Text] -
Kim, G.-B., Miyamoto, C. M., Meighen, E. A., Lee, B. H.
(2004). Cloning and Characterization of the Bile Salt Hydrolase Genes (bsh) from Bifidobacterium bifidum Strains. Appl. Environ. Microbiol.
70: 5603-5612
[Abstract] [Full Text] -
Kim, G.-B., Yi, S.-H., Lee, B. H.
(2004). Purification and Characterization of Three Different Types of Bile Salt Hydrolases from Bifidobacterium Strains. J DAIRY SCI
87: 258-266
[Abstract] [Full Text] -
Kovacikova, G., Lin, W., Skorupski, K.
(2003). The Virulence Activator AphA Links Quorum Sensing to Pathogenesis and Physiology in Vibrio cholerae by Repressing the Expression of a Penicillin Amidase Gene on the Small Chromosome. J. Bacteriol.
185: 4825-4836
[Abstract] [Full Text] -
Knarreborg, A., Engberg, R. M., Jensen, S. K., Jensen, B. B.
(2002). Quantitative Determination of Bile Salt Hydrolase Activity in Bacteria Isolated from the Small Intestine of Chickens. Appl. Environ. Microbiol.
68: 6425-6428
[Abstract] [Full Text] -
Dean, M., Cervellati, C., Casanova, E., Squerzanti, M., Lanzara, V., Medici, A., Polverino de Laureto, P., Bergamini, C. M.
(2002). Characterization of Cholylglycine Hydrolase from a Bile-Adapted Strain of Xanthomonas maltophilia and Its Application for Quantitative Hydrolysis of Conjugated Bile Salts. Appl. Environ. Microbiol.
68: 3126-3128
[Abstract] [Full Text] -
Elkins, C. A., Moser, S. A., Savage, D. C.
(2001). Genes encoding bile salt hydrolases and conjugated bile salt transporters in Lactobacillus johnsonii 100-100 and other Lactobacillus species. Microbiology
147: 3403-3412
[Abstract] [Full Text] -
Russell, W. M., Klaenhammer, T. R.
(2001). Identification and Cloning of gusA, Encoding a New {beta}-Glucuronidase from Lactobacillus gasseri ADH. Appl. Environ. Microbiol.
67: 1253-1261
[Abstract] [Full Text] -
Tanaka, H., Hashiba, H., Kok, J., Mierau, I.
(2000). Bile Salt Hydrolase of Bifidobacterium longum---Biochemical and Genetic Characterization. Appl. Environ. Microbiol.
66: 2502-2512
[Abstract] [Full Text] -
Elkins, C. A., Savage, D. C.
(1998). Identification of Genes Encoding Conjugated Bile Salt Hydrolase and Transport in Lactobacillus johnsonii 100-100. J. Bacteriol.
180: 4344-4349
[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»