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Author: Megan R. Carpenter Publisher: ISBN: 9781369351071 Category : Languages : en Pages : 149
Book Description
Pathogenicity islands (PAIs) are mobile integrated genetic elements (MIGEs) that contain a diverse range of virulence factors and are essential in the evolution of pathogenic bacteria. PAIs are widespread among bacteria and integrate into the host genome, commonly at a tRNA locus, via integrase mediated site-specific recombination. The excision of PAIs is the first step in the horizontal transfer of these elements and is not well understood. The work in this dissertation examined the role of recombination directionality factors (RDFs) and their relationship with integrases in the excision of two PAIs essential for Vibrio cholerae host colonization: Vibrio pathogenicity island-1 (VPI-1) and VPI-2. VPI-1 does not contain an RDF, which allowed us to answer the question of whether RDFs are an absolute requirement for excision. We found that an RDF was required for efficient excision of VPI-2 but not VPI-1, and that RDFs can induce excision of both islands. Expression data revealed that the RDFs act as transcriptional repressors to both VPI-1 and VPI-2 encoded integrases. We demonstrated that the RDFs Vibrio excision factor (Vef) A and VefB bind at the attachment sites (overlapping the int promoter region) of VPI-1 and VPI-2, thus supporting this mode of integrase repression. In addition, V. cholerae RDFs are promiscuous due to their dual functions of promoting excision of both VPI-1 and VPI-2 and acting as negative transcriptional regulators of the integrases. This is the first demonstration of cross-talk between PAIs mediated via RDFs which reveals the complex interactions that occur between separately acquired MIGEs. In chapter 3 we identify several islands with novel cargo genes and variant combinations of the VPI recombination modules described in chapter2. An island we named VPI-3 in V. cholerae NRT36S contains a type three secretion system (T3SS) and an island we named VPI-6 in V. cholerae RC385 contains genes encoding for a CRISPR-Cas system and type VI secretion system (T6SS) were examined in this study. We showed that both VPI-3 and VPI-6 can excise from the bacterial chromosome. Evolutionary analysis of these island regions reveals a modular structure indicating that parts of these islands were likely acquired separately. These data demonstrate that identical recombination modules that catalyze integration and excision from the chromosome can acquire diverse cargo genes. In chapter 4 we examine the role of host encoded factors on excision of a filamentous phage named f237, found in the human pathogen Vibrio parahaemolyticus. Here we demonstrate that the quorum sensing regulator luxO is involved in regulating f237 excision and transcription of f237 encoded genes. Specifically, we present evidence for the direct regulation of phage f237 by the high cell density quorum sensing regulator OpaR. In a luxO mutant, cells are locked in a high cell density state and OpaR is constitutively expressed; in this mutant we showed that several f237 genes are more highly expressed, ranging from 3-fold to over 60-fold, relative to wild-type. We found that this increase in expression also correlated with a greater than 20-fold increase in production of f237 phage circular intermediates. Additionally, we found an increase in the amount of the attB excision product in a luxO mutant relative to wild-type. The function of this excision remains unknown and its effects on the physiology of the cell, if any. Given that increased f237 expression and circular intermediate (CI) production were observed in a luxO mutant, we determined whether OpaR may be responsible for these phenotypes. We confirmed that OpaR could bind to these DNA regions using EMSA assays. All these data support the model that OpaR is directly and positively regulating the transcription of f237 genes as well as production of f237 circular intermediates.
Author: Megan R. Carpenter Publisher: ISBN: 9781369351071 Category : Languages : en Pages : 149
Book Description
Pathogenicity islands (PAIs) are mobile integrated genetic elements (MIGEs) that contain a diverse range of virulence factors and are essential in the evolution of pathogenic bacteria. PAIs are widespread among bacteria and integrate into the host genome, commonly at a tRNA locus, via integrase mediated site-specific recombination. The excision of PAIs is the first step in the horizontal transfer of these elements and is not well understood. The work in this dissertation examined the role of recombination directionality factors (RDFs) and their relationship with integrases in the excision of two PAIs essential for Vibrio cholerae host colonization: Vibrio pathogenicity island-1 (VPI-1) and VPI-2. VPI-1 does not contain an RDF, which allowed us to answer the question of whether RDFs are an absolute requirement for excision. We found that an RDF was required for efficient excision of VPI-2 but not VPI-1, and that RDFs can induce excision of both islands. Expression data revealed that the RDFs act as transcriptional repressors to both VPI-1 and VPI-2 encoded integrases. We demonstrated that the RDFs Vibrio excision factor (Vef) A and VefB bind at the attachment sites (overlapping the int promoter region) of VPI-1 and VPI-2, thus supporting this mode of integrase repression. In addition, V. cholerae RDFs are promiscuous due to their dual functions of promoting excision of both VPI-1 and VPI-2 and acting as negative transcriptional regulators of the integrases. This is the first demonstration of cross-talk between PAIs mediated via RDFs which reveals the complex interactions that occur between separately acquired MIGEs. In chapter 3 we identify several islands with novel cargo genes and variant combinations of the VPI recombination modules described in chapter2. An island we named VPI-3 in V. cholerae NRT36S contains a type three secretion system (T3SS) and an island we named VPI-6 in V. cholerae RC385 contains genes encoding for a CRISPR-Cas system and type VI secretion system (T6SS) were examined in this study. We showed that both VPI-3 and VPI-6 can excise from the bacterial chromosome. Evolutionary analysis of these island regions reveals a modular structure indicating that parts of these islands were likely acquired separately. These data demonstrate that identical recombination modules that catalyze integration and excision from the chromosome can acquire diverse cargo genes. In chapter 4 we examine the role of host encoded factors on excision of a filamentous phage named f237, found in the human pathogen Vibrio parahaemolyticus. Here we demonstrate that the quorum sensing regulator luxO is involved in regulating f237 excision and transcription of f237 encoded genes. Specifically, we present evidence for the direct regulation of phage f237 by the high cell density quorum sensing regulator OpaR. In a luxO mutant, cells are locked in a high cell density state and OpaR is constitutively expressed; in this mutant we showed that several f237 genes are more highly expressed, ranging from 3-fold to over 60-fold, relative to wild-type. We found that this increase in expression also correlated with a greater than 20-fold increase in production of f237 phage circular intermediates. Additionally, we found an increase in the amount of the attB excision product in a luxO mutant relative to wild-type. The function of this excision remains unknown and its effects on the physiology of the cell, if any. Given that increased f237 expression and circular intermediate (CI) production were observed in a luxO mutant, we determined whether OpaR may be responsible for these phenotypes. We confirmed that OpaR could bind to these DNA regions using EMSA assays. All these data support the model that OpaR is directly and positively regulating the transcription of f237 genes as well as production of f237 circular intermediates.
Author: Barbara H. Iglewski Publisher: Elsevier ISBN: 0323148670 Category : Science Languages : en Pages : 486
Book Description
Molecular Basis of Bacterial Pathogenesis focuses on the molecular mechanism of disease associated with bacterial pathogens. Topics covered include the population genetics of bacterial pathogenesis; environmental modulation of gene expression in gram-negative pathogens; and bacterial invasion and intracellular growth. Bacterial toxins are also discussed. This volume is comprised of 20 chapters and begins with an overview of pathogenesis, paying particular attention to common elements and genetic mechanisms of regulation. The discovery that many bacterial pathogens are clonal, with individual clones often having a greater virulence than others, is then considered. The next section deals with the regulation of synthesis of surface components and their role in colonization of the host and/or evasion of the host immune defense systems; antigenic variation and its role in evasion of the host immune response; and the role of iron acquisition systems in the colonization of the host. Subsequent chapters explore the invasion and intracellular growth of facultative and obligate intracellular parasites. The last section is devoted to studies on the role of bacterial toxic products in pathogenesis. Bacterial lipopolysaccharides (endotoxins) and exotoxins are described. This book should be of interest to molecular biologists, physiologists, clinical specialists, pathologists, and geneticists.
Author: Joseph E. Alouf Publisher: Elsevier ISBN: 0080456987 Category : Science Languages : en Pages : 1072
Book Description
This book describes the major achievements and discoveries relevant to bacterial protein toxins since the turn of the new century illustrated by the discovery of more than fifty novel toxins (many of them identified through genome screening). The establishment of the three-dimensional crystal structure of more than 20 toxins during the same period offers deeper knowledge of structure-activity relationships and provides a framework to understand how toxins recognize receptors, penetrate membranes and interact with and modify intracellular substrates. - Edited by two of the most highly regarded experts in the field from the Institut Pasteur, France - 14 brand new chapters dedicated to coverage of historical and general aspects of toxinology - Includes the major toxins of both basic and clinical interest are described in depth - Details applied aspects of toxins such as therapy, vaccinology, and toolkits in cell biology - Evolutionary and functional aspects of bacterial toxins evaluated and summarized - Toxin applications in cell biology presented - Therapy (cancer therapy, dystonias) discussed - Vaccines (native and genetically engineered vaccines) featured - Toxins discussed as biological weapons, comprising chapters on anthrax, diphtheria, ricin etc.
Author: Surajit Das Publisher: Academic Press ISBN: 0128148500 Category : Science Languages : en Pages : 715
Book Description
Microbial Diversity in the Genomic Era presents insights on the techniques used for microbial taxonomy and phylogeny, along with their applications and respective pros and cons. Though many advanced techniques for the identification of any unknown bacterium are available in the genomics era, a far fewer number of the total microbial species have been discovered and identified to date. The assessment of microbial taxonomy and biosystematics techniques discovered and practiced in the current genomics era with suitable recommendations is the prime focus of this book. - Discusses the techniques used for microbial taxonomy and phylogeny with their applications and respective pros and cons - Reviews the evolving field of bacterial typing and the genomic technologies that enable comparative analysis of multiple genomes and the metagenomes of complex microbial environments - Provides a uniform, standard methodology for species designation
Author: Kaye Wachsmuth Publisher: ISBN: Category : Cholera Languages : en Pages : 488
Book Description
Presents the latest molecular studies of virulence, colonization, gene regulation, and the O1 antigen. Gives an in-depth and analytical approach to the epidemiology of cholera that includes outbreak investigations, case-control studies, and surveillance functions. Describes the molecular approach to epidemiologic problems and questions. Tracks the global spread of cholera by genetically defining individual strains. Addresses possible intervention and prevention strategies, including the latest vaccines, and their public health relevance.
Author: David R. Harper Publisher: Springer Nature ISBN: 3319419862 Category : Medical Languages : en Pages : 1376
Book Description
This first major reference work dedicated to the mannifold industrial and medical applications of bacteriophages provides both theoretical and practical insights into the emerging field of bacteriophage biotechnology. The book introduces to bacteriophage biology, ecology and history and reviews the latest technologies and tools in bacteriophage detection, strain optimization and nanotechnology. Usage of bacteriophages in food safety, agriculture, and different therapeutic areas is discussed in detail. This book serves as essential guide for researchers in applied microbiology, biotechnology and medicine coming from both academia and industry.
Author: Arun K. Bhunia Publisher: Springer ISBN: 1493973495 Category : Technology & Engineering Languages : en Pages : 377
Book Description
This book primarily covers the general description of foodborne pathogens and their mechanisms of pathogenesis, control and prevention, and detection strategies, with easy-to-comprehend illustrations. The book is an essential resource for food microbiology graduate or undergraduate students, microbiology professionals, and academicians involved in food microbiology, food safety, and food defense-related research or teaching. This new edition covers the significant progress that has been made since 2008 in understanding the pathogenic mechanism of some common foodborne pathogens, and the host-pathogen interaction. Foodborne and food-associated zoonotic pathogens, responsible for high rates of mortality and morbidity, are discussed in detail. Chapters on foodborne viruses, parasites, molds and mycotoxins, and fish and shellfish are expanded. Additionally, chapters on opportunistic and emerging foodborne pathogens including Nipah virus, Ebola virus, Aeromonas hydrophila, Brucella abortus, Clostridium difficile, Cronobacter sakazakii, and Plesiomonas shigelloides have been added. The second edition contains more line drawings, color photographs, and hand-drawn illustrations.
Author: Hervé Tettelin Publisher: Springer Nature ISBN: 3030382818 Category : Science Languages : en Pages : 311
Book Description
This open access book offers the first comprehensive account of the pan-genome concept and its manifold implications. The realization that the genetic repertoire of a biological species always encompasses more than the genome of each individual is one of the earliest examples of big data in biology that opened biology to the unbounded. The study of genetic variation observed within a species challenges existing views and has profound consequences for our understanding of the fundamental mechanisms underpinning bacterial biology and evolution. The underlying rationale extends well beyond the initial prokaryotic focus to all kingdoms of life and evolves into similar concepts for metagenomes, phenomes and epigenomes. The book’s respective chapters address a range of topics, from the serendipitous emergence of the pan-genome concept and its impacts on the fields of microbiology, vaccinology and antimicrobial resistance, to the study of microbial communities, bioinformatic applications and mathematical models that tie in with complex systems and economic theory. Given its scope, the book will appeal to a broad readership interested in population dynamics, evolutionary biology and genomics.
Author: Megan R. Carpenter
Author: Megan R. Carpenter
Author: Barbara H. Iglewski
Author: Joseph E. Alouf
Author: Surajit Das
Author: Kaye Wachsmuth
Author: David R. Harper
Author: Remus T. Dame
Author: Arun K. Bhunia
Author: Hervé Tettelin
Author: Rita R. Colwell