دانلود کتاب Neisseriae 1990: Proceedings of the Seventh International Pathogenic Neisseriae Conference, Berlin, Federal Republic of Germany, September 9–14, 1990

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Preface\nTable of Contents\nEpidemiology and Vaccines\nEpidemiology and vaccines\nProperties and epidemiology of 2 epidemic clones of serogroup A Neisseria meningitidis associated with African epidemics since 1980\nSerotyping of N. meningitidis group B strains in China with monoclonal antibodies by whole cell ELISA\nGroup A meningococcus: Epidemiology and development of a protein polysaccharide conjugate vaccine\nThe Resolution of Clonal Types of Neisseria meningitidis by Pulsed Field Gel Electrophoresis\nA three-year survey of Neisseria gonorrhoeae in Mexico\nGenetic structure and epidemiology of serogroup B Neisseria meningitidis\nTwo epidemiological types of meningococcal infection incidence caused by serogroup B meningococci\nPrevalence of group A (Clone II-2) Neisseria meningitidis in Scotland\nThe use of restriction fragment length polymorphisms for typing Neisseria meningitidis\nRecent meningococcal epidemiology in Norway. Eight years of serotyping for strain characterization\nMeningococcal meningitis Cairo - Egypt November 1983 - October 1989\nHeterogeneity amongst B15P1-7.16 meningococci\nMeningococcal disease in South Australia: 1971 through 1989\nEpidemiology of Neisseria gonorrhoeae isolated in London\nChanges of the age structure of meningococcal diseases in the Czech Republic\nMultilocus genotypes determined by enzyme electrophoresis in Neisseria meningitidis strains isolated from meningitis patients in a nonepidemic situation in the Czech Republic\nNucleotide sequences and genetic diversity of the penA genes from penicillin sensitive and moderately penicillin resistant strains of Neisseria lactamica\nEpidemiological markers of relatively penicillin G-resistant N. meningitidis isolated from patients in Spain (1985-1989)\nThe Role of Respiratory Infections in Epidemic Group A Meningococcal Meningitis\nThe utility of serological, biological and molecular typing schemes to differentiate N. gonorrhoeae isolates requiring proline, citrulline and uracil (PCU) for growth\nImproving the early control of outbreaks of meningococcal disease\nMeningococcal Infection in a Group of Canadian Travellers\nEfficacy evaluation of the Cuban vaccine VA-MENGOC-BC^® against disease caused by serogroup B Neisseria meningitidis\nEpidemiological behaviour of meningococcal disease in Cuba\nClonal and antigenic analyses of Neisseria meningitidis bacteria belonging to the ET37 complex isolated from Mali and elsewhere\nComparison of monoclonal antibodies for serotyping and subtyping of Neisseria meningitidis\nEpitopes on the Meningococcal Class 1 Protein.\nThe clonal population structure and serosubtypes of Neisseria meningitidis serogroup A isolated in China\nEpidemiological features of epidemic cerebrospinal meningitis in China\nImmunogenicity and Vaccine Development\nVaccine development\nHuman and Animal Immune Response to Homologous and Heterologous Meningococcal 70 Kilodalton Iron Regulated Outer Membrane Protein.\nSpecificity of Antibody response to Group C meningococcal Polysaccharide among vaccinees and carriers\nImmunological Properties of Monoclonal Antibodies to the N-Propionyl Derivative of Group B Meningococcal Polysaccharide\nSequence Comparisons of Class 1 Genes from Neisseria meningitidis and a Folding Model of the Class 1 Protein\nAntigenic homology between the 65kDa heat shock protein of Mycobacterium tuberculosis, GroEL of E. coli, and proteins of Neisseria gonorrhoeae expressed during infection.\nWestern blot study of Neisseria! antigens reactive with sera from cases and carriers of Neisseria meningitidi\nHuman antibody to the class 1 outer membrane protein and H8 lipoprotein of Neisseria meningitidis\nStructural Orientation and Antigenic Analysis of the Class 2 and Class 3 Outer Membrane Proteins of Neisseria meningitidis\nIdentification and expression in E.coli of a conserved surface epitope of pathogenic Neisseriae\nTherapeutic efficacy of monoclonal antibodies to Class 1 and Class 2 Proteins against meningococcal infection in infant rats\nAntibody responses in six volunteers immunized with a gonococcal Protein I vaccine\nImmunobiology of Neisseria porin proteins and mapping of epitopes with vaccine potential\nSerological responses in Norwegian adult volunteers to a meningococcal 15:P1.16 outer membrane vesicle vaccine (Phase II studies)\nIdentification and Characterization of Conserved Outer Membrane Proteins of Neisseria gonorrhoeae\nMolecular cloning and expression of a 63 kDa gonococcal stress protein in E.coli\nDevelopment of Liposomal Vaccine on the Basis of Neisseria meningitidis Lipooligosaccharide\nRelative bactericidal activity of IgG antibodies against outer membrane complexes from meningococci, as a function of vaccine type, dose and time after vaccination\nEfficacy of Human Monoclonal Antibodies to the Group B Polysaccharide of Neisseria Meningitidis in Experimental Infant Rat Model\nImmunomodulating Complex of Oligopeptide Antigen and Liposomal Form of Neisseria meningitidis Lipooligosaccharide\nConstruction of a Defined Auxotrophic Mutant of Neisseria gonorrhoeae for use as a Human Vaccine. I. Cloning, Mapping and Mutagenesis of aroA.\nThe use of PCR to study the class 1 outer membrane protein of Neisseria meningitidis\nThe class 1 outer membrane protein of Neisseria meningitidis: prediction of topology and construction of a multivalent vaccine strain\nImmunogenicity of meningococcal LPS derived oligosaccharide-protein conjugates using isolated and synthetic oligosaccharides\nThe Expression of an Escherichia coli OmpA - Neisseria meningitidis Class 1 Fusion Protein\nGonococcal Porin Vaccine\nT-cell Recognition of Neisseria Meningitidis Outer Membrane Proteins\nLipopolysaccharide-related Subjects\nNeisserial lipopolysaccharide\nProtective activity of detoxified lipooligosaccharides of Neisseria meningitidis serogroups A and B in mice\nRestoration of Neisseria gonorrhoeae Serum Resistance by Cytidine 5\' Monophospho-N-acetylneuraminic Acid Depends On the Quality of the Lipopolysaccharide\nPseudomonas pyocin and Neisseria gonorrhoeae: Investigations into the mechanism of gonococcal lipooligosaccharide variant selection\nThe surface polysaccharide seen on Neisseria gonorrhoeae after treatment with CMP-NANA contains sialyl groups.\nRelationship of sialylation of lipooligosaccharide (LOS) of N. gonorrhoeae to cleavage of C3 and serum resistance\nLPS phase-variation & its role in the virulence of Haemophilus influenzae\nGonococci in most urethral exudates are sialylated: neuraminidase changes serum resistance to susceptibility.\nRole of DNA methylatìon in the growth of Neisseria gonorrhoeae\nPathogenesis and surface antigens shared by Haemophilus ducreyi and Neisseria gonorrhoeae\nRegulation of the addition of 0-side chains on lipooligosaccharide in Neisseria gonorrhoeae\nSome Effects of LOS and Opa on Surface Properties of Gonococci\nLipopolysaccharides of Haemophilus and Neisseria: Antigenic and structural similarities\nPili and Iron-inducible Proteins\nThe Mechanisms of Genetic Variation of Gonococcal Pili. Iron-Inducible Proteins of Neisseria\nInteraction Between Iron Regulated Outer Membrane Protein Of Neisseria meningitidis and Human Transferrin Binding Activity\nGonococcal unprocessed prepilin is transported to E.coli inner membrane\nIllegitimate Recombination and Gonococcal Pilin Gene Variation\nTranslational Frameshifting in pilC Encoding a Gonococcal Outer Membrane Protein Results in Pili Phase Variation\nIron and meningococcal disease. Serum lactoferrin in meningococcal disease patients and controls\nControl of pilin gene expression in Neisseria gonorrhoeae by environmental factors\nAntigen Variation and Transformation-Mediated Horizontal Exchange in the Pathogenic Neisseria\nStructure, Function, and Regulation of the Iron-binding Protein, Fbp\nHeterogeneity of Iron-Regulated Meningococcal 70 kDa and 98 kDa OMPs\nRepeated elements in silent pil sequences found upstream of the class 1 meningococcal pilE gene\nIron acquisition of systemic and nonsystemic meningococcal isolates\nAnalysis of the Pilin Gene Inversion Region of Moraxella lacunata\nIron Acquisition in Neisseria: Bacterial Receptors for Human Transferrin and Human Lactoferrin in Neisseria meningitidis\nPilin gene regulator PiLA fulfils a dual role in Neisseria gonorrhoeae\nMolecular Genetics\nThe Coding Repeat Region of Gonococcal Opa Genes Forms Unusual DNA Conformations in E. coli\nHigh Frequency Mobilization of IncQ Plasmids from E. coli to Neisseria\nMobilization of naturally-occurring gonococcal penicillinase-producing plasmids by different conjugative plasmids\nMolecular Mechanisms of Capsule Expression in Neisseria meningitidis\nGenetic Characterization of Neisserial Restriction / Modification systems\nGenetic transformation of Neisseria gonorrhoeae using electroporation\nCharacterization of the 25.2 Mda Tet M-Containing Plasmids\nClass 5 proteins and opa genes in clones IV-1 and III-l of Neisseria meningitidis serogroup A\nSpecificity in Neisseria gonorrhoeae Transformation: Implications for Cell-surface Variation\nTn916 Mutagenesis of Neisseria meningitidis and Neisseria gonorrhoeae\nPathogen-host Interactions\nPathogen-Host Interactions: An Overview\nEnhancement of the Invasive Ability of Neisseria gonorrhoeae by Contact with HecIB, an Adenocarcinoma Endometrial Cell Line\nAbility of Cells of the Human Fallopian Tube to Act as Antigen Presenting Cells\nIdentification of a Human Neutrophil Receptor for Gonococcal Outer Membrane Protein PII\nPilin variation in Neisseria gonorrhoeae and modulation of cellular adherence\nEvidence for the in vivo modification of the gonococcal Pan 1 protein\nGerard T. Hoehn and Virginia L. Clark\nStudies on natural local immunity in gonorrhea: ELISA reactivities of female local secretions with outer membranes of Neisseria gonorrhoeae\nA study on meningococcal colonization of epithelium\nThe role of Opa in adherence of gonococci to HEC-l-B cells and to human fallopian tube tissues\nPossible Mechanisms of Serum Resistance of Neisseria gonorrhoeae from Disseminating Infections\nEffects of lipopolysaccharide from N. meningitidis on human granulocyte lysis and chemiluminescence\nAntigonococcal Action of Synthetic Peptides from Huaan Proteases Cathepsin G and Granzyme B\nHow to Measure Gonococcal Invasion\nInteractions of pathogenic Neisseria with Human endothelial cells in vitro\nFates of LOS and the Outer Membrane Proteins P.IA and Opa in Early and Late Events of Gonococcal Infection of Epithelial Cells\nClinical Epidemiology and other Subjects\nMeningococcal Disease in the USSR in Patients with Deficiences in Late Complement Components\nChemoprophylactic Suppression of Endemic Carriage of Group B Serotype 4 Neisseria meningitidis in a Kibbutz Community\nAntibody Response to Meningococcal Infection in Late Complement Component Deficient Individuals\nTherapeutic application of hyperimmune Gammaglobulin against B meningococcal disease in children\nA clinical-epidemiological study of Neisseria meningitidis isolated from urogenital specimens\nOxidant Stress, DNA Repair, and Antioxidant Defenses in Neisseria gonorrhoeae\nN. meningitidis infections in South African complement component C6 deficient patients; Studies of methods of prophylaxis and of the organisms isolated\nColonization of the Interface between the Agar and the Petri Dish by Moraxella bovis: New Variant Expression is Inversely Related to Colonization Rate\nComparison between Neisseria gonorrhoeae and Bacteroides species. Different Effects of CMP-NANA for Conversion to Resistance to Complement in Serum and Toxicity of CMP\nMaintenance and Functions of Sulfhydryls in Neisseria gonorrhoeae\nPenicillin permeability in Neisseria gonorrhoeae\nFactors Associated with Cellular Invasion of Neisseria gonorrhoeae\nAuthor Index\nSubject Index