Author: Crampton Michael Berger Eldie Reid Sharon Louw Maureen
Publisher: Springer Publishing Company
ISSN: 0175-7598
Source: Applied Microbiology and Biotechnology, Vol.75, Iss.3, 2007-06, pp. : 599-607
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Abstract
This study relates to the development of an alkaliphilic, thermotolerant, Gram-positive isolate, Bacillus halodurans</i> Alk36, for the over-production and surface display of chimeric gene products. This bacterium continuously over-produces flagellin. To harness this ability, key genetic tools, such as gene targeted inactivation, were developed for this strain. The hag</i> gene, which codes for flagellin, was inactivated on the chromosome giving rise to the B. halodurans</i> BhFC01 mutant. Polylinkers were inserted as in-frame, chimeric, flagellin sandwich fusions to identify the permissive insertion sites corresponding to the variable regions of the flagellin protein. Flagellin expression and motility were evaluated for these constructs. Two sites were identified for possible peptide insertion in the flagellin gene, one of which produced functional flagella and was able to restore the motility phenotype to a non-motile mutant. Peptides encoding a poly-histidine peptide and the HIV-1 subtype C gp120 epitope were, respectively, incorporated into this site as in-frame fusions. The peptides were found to be successfully displayed on the cell surface and functional through metal binding and immunological studies, respectively.
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