Site-Directed Mutagenesis in Francisella Tularensis by Allelic

<p> Francisella tularensis is a Gram-negative, facultative intracellular coccobacillus and the etiologic agent of tularemia for a wide variety of vertebrate and invertebrate animal species. Several species and subspecies of Francisella are currently recognized. However, the majority of infecti...

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Main Author: Wang, Xiaoshan
Other Authors: Veterinary Medical Sciences
Format: Others
Published: Virginia Tech 2014
Subjects:
Online Access:http://hdl.handle.net/10919/36440
http://scholar.lib.vt.edu/theses/available/etd-12242007-045601/
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spelling ndltd-VTETD-oai-vtechworks.lib.vt.edu-10919-364402020-09-29T05:48:17Z Site-Directed Mutagenesis in Francisella Tularensis by Allelic Wang, Xiaoshan Veterinary Medical Sciences Inzana, Thomas J. Stevens, Ann M. Boyle, Stephen M. suicide vector galactosyl transferase mannosyl transferase Capsule lipopolysaccharide site-directed mutagenesis virulence Francisella tularensis ABC transporter <p> Francisella tularensis is a Gram-negative, facultative intracellular coccobacillus and the etiologic agent of tularemia for a wide variety of vertebrate and invertebrate animal species. Several species and subspecies of Francisella are currently recognized. However, the majority of infections are caused by F. tularensis subspecies tularensis (type A) and subspecies holarctica (type B). Given the low infectious dose, multiple transmission routes, severity of illness, and lack of licensed vaccines, F. tularensis has long been considered a potential biological weapon and is now classified as a category A select agent by the National Institutes of Health and the Centers for Disease Control and Prevention. </p><p> The investigation of the mechanisms of pathogenesis by F. tularensis type A and B strains is hindered by the difficulty and lack of methods to mutate the putative genes that encode for virulence factors. New genetic tools have been developed that have enabled mutagenesis of F. tularensis type A and type B stains. However, site-specific mutations remain difficult to execute or these methods generate random mutations. In this study a novel method was developed to create site-directed mutations in a putative capsule biosynthesis locus to knock out encapsulation of the attenuated F. tularensis live vaccine strain. Two suicide vectors for mutagenesis of F. tularensis were constructed based on the commercial PCR cloning vector pSC-A. These vectors were created by inserting into the cloning site a kanamycin resistance gene boarded upstream by 1.3 kb of N-terminal DNA and downstream by 1.3 kb of C-terminal DNA that flanks the target gene. Cryotransformation was used to introduce the vectors into F. tularensis. Open reading frame (ORF) FTT0793, which may encode for an ABC transporter involved in capsule export, was initially selected for mutagenesis in order to generate a mutant that was nonencapsulated, but could still synthesize capsule and induce a host immune response. Mutagenesis of this gene was successful. However, phenotypic assays could not confirm that the mutant was nonencapsulated compared to the parent. Therefore, adjacent ORFs FTT0798 and FTT0799, which may encode for a galactosyl transferase and mannosyl transferase, respectively, were also deleted to completely knock out capsule synthesis. The resulting mutant appeared to be nonencapsulated as determined by negative staining transmission electron microscopy. </p><p> In this study, a plasmid and method for generating allelic exchange mutants is reported, which should be useful for generating additional mutants of F. tularensis for use in clarifing the roles of specific genes. This vector is currently being used to make a nonencapsulated mutant of a virulent type A strain to determine the role of capsule in virulence. </p> Master of Science 2014-03-14T20:50:46Z 2014-03-14T20:50:46Z 2007-12-12 2007-12-24 2008-01-03 2008-01-03 Thesis etd-12242007-045601 http://hdl.handle.net/10919/36440 http://scholar.lib.vt.edu/theses/available/etd-12242007-045601/ MS_thesis_final.pdf In Copyright http://rightsstatements.org/vocab/InC/1.0/ application/pdf Virginia Tech
collection NDLTD
format Others
sources NDLTD
topic suicide vector
galactosyl transferase
mannosyl transferase
Capsule
lipopolysaccharide
site-directed mutagenesis
virulence
Francisella tularensis
ABC transporter
spellingShingle suicide vector
galactosyl transferase
mannosyl transferase
Capsule
lipopolysaccharide
site-directed mutagenesis
virulence
Francisella tularensis
ABC transporter
Wang, Xiaoshan
Site-Directed Mutagenesis in Francisella Tularensis by Allelic
description <p> Francisella tularensis is a Gram-negative, facultative intracellular coccobacillus and the etiologic agent of tularemia for a wide variety of vertebrate and invertebrate animal species. Several species and subspecies of Francisella are currently recognized. However, the majority of infections are caused by F. tularensis subspecies tularensis (type A) and subspecies holarctica (type B). Given the low infectious dose, multiple transmission routes, severity of illness, and lack of licensed vaccines, F. tularensis has long been considered a potential biological weapon and is now classified as a category A select agent by the National Institutes of Health and the Centers for Disease Control and Prevention. </p><p> The investigation of the mechanisms of pathogenesis by F. tularensis type A and B strains is hindered by the difficulty and lack of methods to mutate the putative genes that encode for virulence factors. New genetic tools have been developed that have enabled mutagenesis of F. tularensis type A and type B stains. However, site-specific mutations remain difficult to execute or these methods generate random mutations. In this study a novel method was developed to create site-directed mutations in a putative capsule biosynthesis locus to knock out encapsulation of the attenuated F. tularensis live vaccine strain. Two suicide vectors for mutagenesis of F. tularensis were constructed based on the commercial PCR cloning vector pSC-A. These vectors were created by inserting into the cloning site a kanamycin resistance gene boarded upstream by 1.3 kb of N-terminal DNA and downstream by 1.3 kb of C-terminal DNA that flanks the target gene. Cryotransformation was used to introduce the vectors into F. tularensis. Open reading frame (ORF) FTT0793, which may encode for an ABC transporter involved in capsule export, was initially selected for mutagenesis in order to generate a mutant that was nonencapsulated, but could still synthesize capsule and induce a host immune response. Mutagenesis of this gene was successful. However, phenotypic assays could not confirm that the mutant was nonencapsulated compared to the parent. Therefore, adjacent ORFs FTT0798 and FTT0799, which may encode for a galactosyl transferase and mannosyl transferase, respectively, were also deleted to completely knock out capsule synthesis. The resulting mutant appeared to be nonencapsulated as determined by negative staining transmission electron microscopy. </p><p> In this study, a plasmid and method for generating allelic exchange mutants is reported, which should be useful for generating additional mutants of F. tularensis for use in clarifing the roles of specific genes. This vector is currently being used to make a nonencapsulated mutant of a virulent type A strain to determine the role of capsule in virulence. </p> === Master of Science
author2 Veterinary Medical Sciences
author_facet Veterinary Medical Sciences
Wang, Xiaoshan
author Wang, Xiaoshan
author_sort Wang, Xiaoshan
title Site-Directed Mutagenesis in Francisella Tularensis by Allelic
title_short Site-Directed Mutagenesis in Francisella Tularensis by Allelic
title_full Site-Directed Mutagenesis in Francisella Tularensis by Allelic
title_fullStr Site-Directed Mutagenesis in Francisella Tularensis by Allelic
title_full_unstemmed Site-Directed Mutagenesis in Francisella Tularensis by Allelic
title_sort site-directed mutagenesis in francisella tularensis by allelic
publisher Virginia Tech
publishDate 2014
url http://hdl.handle.net/10919/36440
http://scholar.lib.vt.edu/theses/available/etd-12242007-045601/
work_keys_str_mv AT wangxiaoshan sitedirectedmutagenesisinfrancisellatularensisbyallelic
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