Structural and Biochemical Insights Into Bacterial Cell Wall Glycopolymer Display PDF Download
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Author: Orlando Edward Martinez
Publisher:
ISBN:
Category :
Languages : en
Pages : 223
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Book Description
Pathogenic Gram-positive bacteria have acquired resistance to many commonly used antibiotics. One potential strategy to combat this problem is to develop small molecule therapeutics that target bacterial virulence mechanisms which enable pathogens to cause disease. The bacterial cell surface contains many virulence factors that have key roles in host-pathogen interactions, but the mechanisms by which they are synthesized and displayed remains incompletely understood. The work described in this dissertation is concentrated on understanding how bacteria synthesize wall teichoic acid (WTA) glycopolymers. WTAs are peptidoglycan-anchored alditol-phosphate polymers that have important functions in host immune system evasion, biofilm formation, and antibiotic resistance, among other roles. This research is specifically focused on the TagA glycosyltransferase, which catalyzes the first committed enzymatic step in WTA biosynthesis. Small molecule TagA inhibitors might function as novel antivirulence therapeutics because cells that lack the enzyme in methicillin-resistant Staphylococcus aureus (MRSA) maintain viability but become re-sensitized to [beta]-lactam antibiotics. The research described in this dissertation advances our understanding of the enzymatic mechanism of TagA and its role in controlling the architecture of the bacterial cell wall. Chapter 1 surveys the biosynthetic pathways that are used to produce peptidoglycan and WTA polymers in Bacillus subtilis and S. aureus. Chapter 2 details the determination of the first crystal structure of the soluble portion of TagA from Thermoanaerobacter italicus, which is shown to adopt a novel glycosyltransferase structural fold. This study identified two conserved residues in TagA that are important for catalysis and demonstrated that C-terminal tail residues in the enzyme are essential for enzymatic activity in vitro and membrane association in cells. Chapter 3 describes the construction of a solubility-enhanced TagA variant and crystal structures of this enzyme bound to its native substrate, UDP-ManNAc, and an epimer of the substrate, UDP-GlcNAc. These structures provide insight into stereospecific protein-ligand contacts that confer substrate specificity. Molecular dynamics simulations of full-length TagA models with and without its bound substrates are also presented which demonstrate that UDP-ManNAc stabilizes construction of the enzyme's active site through interactions with key catalytic residues in the C-terminal tail. Collectively, these data suggest a model of enzyme function in which membrane association via the C-terminal tail triggers a conformational change in TagA that is further stabilized by stereospecific contacts with its UDP-ManNAc substrate. Lastly, Chapter 4 details ongoing progress in capturing the active, monomeric form of the protein for structural investigations and studying the influence of TagA activity on cell morphology in B. subtilis using transmission electron microscopy. This work contributes to our knowledge of WTA biogenesis in bacteria and lays a foundation for the structure-guided development of TagA-specific inhibitors that could function as antivirulence agents.
Author: Orlando Edward Martinez
Publisher:
ISBN:
Category :
Languages : en
Pages : 223
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Book Description
Pathogenic Gram-positive bacteria have acquired resistance to many commonly used antibiotics. One potential strategy to combat this problem is to develop small molecule therapeutics that target bacterial virulence mechanisms which enable pathogens to cause disease. The bacterial cell surface contains many virulence factors that have key roles in host-pathogen interactions, but the mechanisms by which they are synthesized and displayed remains incompletely understood. The work described in this dissertation is concentrated on understanding how bacteria synthesize wall teichoic acid (WTA) glycopolymers. WTAs are peptidoglycan-anchored alditol-phosphate polymers that have important functions in host immune system evasion, biofilm formation, and antibiotic resistance, among other roles. This research is specifically focused on the TagA glycosyltransferase, which catalyzes the first committed enzymatic step in WTA biosynthesis. Small molecule TagA inhibitors might function as novel antivirulence therapeutics because cells that lack the enzyme in methicillin-resistant Staphylococcus aureus (MRSA) maintain viability but become re-sensitized to [beta]-lactam antibiotics. The research described in this dissertation advances our understanding of the enzymatic mechanism of TagA and its role in controlling the architecture of the bacterial cell wall. Chapter 1 surveys the biosynthetic pathways that are used to produce peptidoglycan and WTA polymers in Bacillus subtilis and S. aureus. Chapter 2 details the determination of the first crystal structure of the soluble portion of TagA from Thermoanaerobacter italicus, which is shown to adopt a novel glycosyltransferase structural fold. This study identified two conserved residues in TagA that are important for catalysis and demonstrated that C-terminal tail residues in the enzyme are essential for enzymatic activity in vitro and membrane association in cells. Chapter 3 describes the construction of a solubility-enhanced TagA variant and crystal structures of this enzyme bound to its native substrate, UDP-ManNAc, and an epimer of the substrate, UDP-GlcNAc. These structures provide insight into stereospecific protein-ligand contacts that confer substrate specificity. Molecular dynamics simulations of full-length TagA models with and without its bound substrates are also presented which demonstrate that UDP-ManNAc stabilizes construction of the enzyme's active site through interactions with key catalytic residues in the C-terminal tail. Collectively, these data suggest a model of enzyme function in which membrane association via the C-terminal tail triggers a conformational change in TagA that is further stabilized by stereospecific contacts with its UDP-ManNAc substrate. Lastly, Chapter 4 details ongoing progress in capturing the active, monomeric form of the protein for structural investigations and studying the influence of TagA activity on cell morphology in B. subtilis using transmission electron microscopy. This work contributes to our knowledge of WTA biogenesis in bacteria and lays a foundation for the structure-guided development of TagA-specific inhibitors that could function as antivirulence agents.
Author: Brendan Rayhan Amer
Publisher:
ISBN:
Category :
Languages : en
Pages : 164
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Book Description
Many species of pathogenic Gram-positive bacteria have become resistant to commonly used antibiotics, creating a pressing need for the development of novel antimicrobial therapies. These pathogenic bacteria are surrounded by a complex peptidoglycan cell wall that is decorated with a range of macromolecules such as surface proteins, protein-based oligomeric pili, and surface glycopolymers. These structures enable the microbe to effectively interact with their environment, and in pathogenetic bacteria are frequently virulence factors that are involved in: immune system modulation, bacterial adhesion, nutrient acquisition, and spore formation. Two distinct enzyme superfamilies are primarily responsible for covalently attaching macromolecules to the Gram-positive cell wall: sortase enzymes that attach proteins and assemble pili, and LytR-Psr-CpsA (LCP) enzymes that attach glycopolymers. This dissertation presents my efforts to discover a sortase inhibitor, structural and mechanistic investigations of both sortase and LCP enzymes, and the development of a new sortase mediated ligation technology. I describe our efforts to find inhibitors against the S. aureus sortase transpeptidase. We utilized both experimental and computational methods to discover potent inhibitor scaffolds. This led to structure-activity studies that not only improved inhibitor potency, but also yielded molecules that can inhibit bacterial protein display in vivo, and appear to be non-toxic to human cells. Sortase enzymes have also proven to be valuable biotechnological conjugation tools. I describe the development of a novel sortase-mediated ligation tool. We demonstrate a 15-fold rate enhancement for existing sortase mediated ligation strategies. Additionally, I discuss studies on sortase pilus assembly and display. To gain insight into the molecular mechanism of sortase pilus assembly, we reconstituted an archetypal Gram-positive pilus assembly process in vitro. This has allowed us to generate molecular models of various intermediates of pilus assembly and define the molecular determinants of this assembly process. We have identified novel features on both the sortase and pilin precursor proteins that are essential for pilus covalent isopeptide assembly. In the concluding chapter of this dissertation, structural work characterizing the unique LCP enzyme that mediates surface protein glycosylation is presented. Work on this project reveals that LCP enzymes use a conserved phosphotransferase mechanism to attach glycopolymers to surface displayed proteins, and this may be a mechanism for actinobacteria wall teichoic acid display, a key macromolecule in the bacterial cell envelope. Combined, this work serves to further define the mechanism of Gram-positive bacterial macromolecular surface display, improved sortase-mediated bioconjugation strategies, and steps towards novel anti-infective sortase inhibitors.
Author: Martha E. Grady
Publisher: Springer Nature
ISBN: 3030300137
Category : Technology & Engineering
Languages : en
Pages : 92
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Book Description
Mechanics of Biological Systems and Materials & Micro-and Nanomechanics, Volume 4 of the Proceedings of the 2019 SEM Annual Conference & Exposition on Experimental and Applied Mechanics, the fourth volume of six from the Conference, brings together contributions to important areas of research and engineering. The collection presents early findings and case studies on a wide range of topics, including: Extreme NanomechanicsIn-Situ NanomechanicsExpanding Boundaries in MetrologyMicro and Nanoscale DeformationMEMS for Actuation, Sensing and Characterization1D & 2D MaterialsCardiac MechanicsCell Mechanics Biofilms and Microbe MechanicsTraumatic Brain InjuryOrthopedic BiomechanicsLigaments and Soft Materials
Author: José A. Pomposo
Publisher: John Wiley & Sons
ISBN: 3527806393
Category : Technology & Engineering
Languages : en
Pages : 504
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Book Description
This first book on this important and emerging topic presents an overview of the very latest results obtained in single-chain polymer nanoparticles obtained by folding synthetic single polymer chains, painting a complete picture from synthesis via characterization to everyday applications. The initial chapters describe the synthetics methods as well as the molecular simulation of these nanoparticles, while subsequent chapters discuss the analytical techniques that are applied to characterize them, including size and structural characterization as well as scattering techniques. The final chapters are then devoted to the practical applications in nanomedicine, sensing, catalysis and several other uses, concluding with a look at the future for such nanoparticles. Essential reading for polymer and materials scientists, materials engineers, biochemists as well as environmental chemists.
Author: Bernd H. A. Rehm
Publisher: John Wiley & Sons
ISBN: 3527818308
Category : Science
Languages : en
Pages : 400
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Book Description
Provides insight into biopolymers, their physicochemical properties, and their biomedical and biotechnological applications This comprehensive book is a one-stop reference for the production, modifications, and assessment of biopolymers. It highlights the technical and methodological advancements in introducing biopolymers, their study, and promoted applications. "Biopolymers for Biomedical and Biotechnological Applications" begins with a general overview of biopolymers, properties, and biocompatibility. It then provides in-depth information in three dedicated sections: Biopolymers through Bioengineering and Biotechnology Venues; Polymeric Biomaterials with Wide Applications; and Biopolymers for Specific Applications. Chapters cover: advances in biocompatibility; advanced microbial polysaccharides; microbial cell factories for biomanufacturing of polysaccharides; exploitation of exopolysaccharides from lactic acid bacteria; and the new biopolymer for biomedical application called nanocellulose. Advances in mucin biopolymer research are presented, along with those in the synthesis of fibrous proteins and their applications. The book looks at microbial polyhydroxyalkanoates (PHAs), as well as natural and synthetic biopolymers in drug delivery and tissue engineering. It finishes with a chapter on the current state and applications of, and future trends in, biopolymers in regenerative medicine. * Offers a complete and thorough treatment of biopolymers from synthesis strategies and physiochemical properties to applications in industrial and medical biotechnology * Discusses the most attracted biopolymers with wide and specific applications * Takes a systematic approach to the field which allows readers to grasp and implement strategies for biomedical and biotechnological applications "Biopolymers for Biomedical and Biotechnological Applications" appeals to biotechnologists, bioengineers, and polymer chemists, as well as to those working in the biotechnological industry and institutes.
Author: Fabio Bagnoli
Publisher: Springer
ISBN: 3319720635
Category : Medical
Languages : en
Pages : 543
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Book Description
This volume offers a comprehensive overview of basic and applied aspects of Staphylococcus aureus, which is one of the most important human pathogens. It includes sixteen chapters that address the microbiology and immunology of S. aureus, the pathology of its key manifestations, and the current standard of care. Further, it reviews cutting-edge advances in alternative therapeutic and prophylactic approaches to antibiotics. All chapters were written by respected experts in the field – presenting recent findings on a diverse range of aspects, they are nonetheless interlinked. As such, the book is a must-read for all researchers, clinicians and technicians engaged in basic or applied science work involving S. aureus.
Author: René Roy
Publisher: ACS Symposium
ISBN: 9780841239838
Category : Science
Languages : en
Pages : 0
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Book Description
This book is the first of its kind entirely dedicated to carbohydrate vaccines written by renowned scientists with expertise in carbohydrate chemistry and immunochemistry. It covers the synthesis of carbohydrate antigens related to bacteria and parasites such as: Heamophilus influenza, Streptococcus pnemoniae, Shigella flexneri, Candida albicans, Mycobacterium tuberculosis, and Chlamydia. The first three chapters are of wide interest as they cover fundamental concerns in new vaccine developments. The first one presents the immune system and how carbohydrate antigens are processed before protective antibodies are produced. It also illustrates antigen presentation in the context of major histocompatibility complexes (MHCs). The second chapter describes regulatory issues when carbohydrate vaccines are involved while the third one discuss several techniques used in conjugation chemistry and the implication of certain chemical linkages that may induce unexpected anti-linker antibodies. This section will be particularly appealing for those involved in drug-conjugate design, pro-drug developments, and drug vectorization. The book concludes with one chapter that illustrates the principle through which peptide antigens can functionally mimic carbohydrate epitopes, thus, unraveling the potential for peptide surrogates as replacement for complex carbohydrate structures. This book is unique in that it covers all aspects related to carbohydrate vaccines including the success story with the first semi-synthetic bacterial polysaccharide vaccine against Heamophilus influenza type b responsible for pneumonia and meningitis, liable for more than 600,000 infant deaths worldwide in developing countries. The book also presents regulatory issues and will thus be vital for government agencies approving candidate vaccines. It widely covers synthetic methodologies for the attachment of carbohydrate antigens to peptides and immunogenic protein carriers. Vaccines against bacterial antigens, cancer, and parasites are also discussed by worldwide experts in this field in details. No other book contains such a wide panel of different expertise. It will also be useful to students and researchers involved with the immunology of forreings antigens and how the under appreciated carbohydrate antigens are processed by the immune system.
Author: C. Remzi Becer
Publisher: Royal Society of Chemistry
ISBN: 1782624686
Category : Science
Languages : en
Pages : 251
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Book Description
Glycopolymers are important for cell signalling, recognition pathways, and their role in the immune system. They are gaining attention for new applications in tissue engineering and drug delivery. Glycopolymer Code discusses the preparation, characterization and applications of glycopolymers providing a complete overview of the topic with examples from the latest research. Specific chapters cover both basic and advanced synthesis techniques to prepare glycopolymers, the analytical techniques used to investigate lectin receptor glycopolymer interactions, the properties and types of lectins that are widely used to understand the multivalent interactions and various applications of synthetic glycopolymers. With contributions from leading researchers in the field, the book is a unique source for graduates and academics new to the subject and already working in the area of glycopolymers.
Author: Tahir Farooq
Publisher: Elsevier
ISBN: 0128171146
Category : Science
Languages : en
Pages : 266
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Book Description
Advances in Triazole Chemistry reviews the ever-widening scope of triazole chemistry. Triazole is an exceptional structural motif with a range of applications across scientific disciplines, including materials science, organocatalysis, agrochemicals, and medicinal chemistry. These many applications of different classes of triazoles have promoted the development of a range of synthetic strategies over the past few years, which are presented here along with recent and ecofriendly methods for the synthesis of all types of triazoles. The book also reviews the recent notable applications in chemical ligation, peptidomimetics, carbohydrate chemistry, nanotechnology, and polymer and materials science. This comprehensive resource is ideal for researchers using triazoles in various disciplines, as well as chemists working in the pharmaceutical, polymer, and agrochemical industries. Includes coverage of the role triazoles play in DNA synthesis Features comprehensive information on 1,2,3-triazoles and 1,2,4-triazoles and their subclasses, synthesis, and applications Serves as an ideal reference for researchers and chemists interested in using triazole chemistry for functionalization, modification, and development of target products
Author: Stephen E. Harding
Publisher: CRC Press
ISBN: 1482248328
Category : Medical
Languages : en
Pages : 225
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Book Description
Polysaccharides and related high molecular weight glycans are hugely diverse with wide application in Biotechnology and great opportunities for further exploitation. An Introduction to Polysaccharide Biotechnology – a second edition of the popular original text by Tombs and Harding – introduces students, researchers, clinicians and industrialists to the properties of some of the key materials involved, how these are applied, some of the economic factors concerning their production and how they are characterized for regulatory purposes.
