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Mutations affecting activity and transport of haemolysin in Escherichia coli (1987)

Ludwig, Albrecht ; Vogel, Monika ; Goebel, Werner

Springer

Molecular genetics and genomics 206 (1987), S. 238-245

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ISSN: 1617-4623

Keywords: E. coli ; Haemolysin ; Mutants ; Functional domains of HlyA

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Temperature-sensitive mutants that exhibit an altered haemolytic phenotype were isolated from Escherichia coli harbouring the plasmid pHly152. Complementation with recombinant plasmids carrying one of the four hly genes (C, A, B or D) allowed localization of the hly ts mutations. A ts mutation in hlyC leads to a pro→leu exchange in amino acid position 53 of HlyC. Two ts mutations in HlyA were found in positions 312 (ser→pro) and 315 (thr→ile). Both amino acid exchanges are located in the same hydrophobic domain of HlyA which extends from amino acids 299 to 327. Two different mutations were introduced by site-specific mutagenesis in this hlyA domain: one by an exchange of ala, val to asp, glu (positions 313, 314) altering the hydrophobicity of this region and another which removes most of this hydrophobic portion. Both mutants have entirely lost the haemolytic activity but the mutant haemolysins are still efficiently transported across both membranes when hlyB and hlyD are provided. Functional HlyC is not required for the transport of the mutant haemolysins. Two site-specific mutations at the N-terminal end of hlyA (one at amino acid position 2 leading to a thr→pro exchange and another deleting ile and thr at positions 4 and 5) also do not affect the transport of the altered haemolysins. The thr→pro exchange enhances the haemolytic activity of the corresponding mutant, whereas the ile, thr deletion exhibits little or no effect on the haemolytic activity. Removal of the last 37 amino acids from the C-terminal end of HlyA leads to a truncated haemolysin which retains its haemolytic activity but is not secreted by the HlyB and HlyD transport system.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00333579

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Identification and characterization of two functional domains of the hemolysin translocator protein HlyD (1994)

Schülein, Ralf ; Gentschev, Ivaylo ; Schlör, Stefan ; [et al.]

Springer

Molecular genetics and genomics 245 (1994), S. 203-211

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ISSN: 1617-4623

Keywords: Escherichia coli hemolysin secretion system ; HlyD protein ; HlyD-related proteins ; HlyD functional domains

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Secretion of Escherichia coli hemolysin is mediated by a sec-independent pathway which requires the products of at least three genes, hlyB, hlyD and tolC. Two regions of HlyD were studied. The first region (region A), consisting of the 33-amino acid, C-terminal part of the HlyD protein, is predicted to form a potential helix-loop-helix structure. This sequence is conserved among HlyD analogues of similar transport systems of other bacterial species. Using site-directed mutagenesis, we showed that the amino acids Leu475, Glu477 and Arg478 of this region are essential for HlyD function. The last amino acid of HlyD, Arg478, is possibly involved in the release of the HlyA protein, since cells bearing a hlyD gene mutant at this position produce similar amounts of HlyA to the wild-type strain, but most of the protein remains cell-associated. Competition experiments between wild-type and mutant HlyD proteins indicate that region A interacts directly with a component of the secretion apparatus. The second region of HIyD (region B), located between amino acids Leul27 and Leu170, is highly homologous to the otherwise unrelated outer membrane protein TolC. Deletion of this region abolishes secretion of hemolysin. This sequence of HlyD also seems to interact with a component of the hemolysin secretion machinery since a hybrid HIyD protein carrying the corresponding TolC sequence, although inactive in the transport of HlyA, is able to displace wild-type HlyD from the secretion apparatus.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00283268

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