| scholarly article | Q13442814 |
| P2093 | author name string | Jian Yu | |
| Man Xu | |||
| Yimou Wu | |||
| Kang Zheng | |||
| Yumeng Li | |||
| Feijun Zhao | |||
| Tiebing Zeng | |||
| Yongjian Xiao | |||
| Yafeng Xie | |||
| Manyi Tan | |||
| Haodang Luo | |||
| P2860 | cites work | Immune evasion and recognition of the syphilis spirochete in blood and skin of secondary syphilis patients: two immunologically distinct compartments | Q21144775 |
| Immunoregulatory functions of immune complexes in vaccine and therapy | Q26738396 | ||
| DNA immunization as a technology platform for monoclonal antibody induction | Q26751432 | ||
| Global Estimates of the Prevalence and Incidence of Four Curable Sexually Transmitted Infections in 2012 Based on Systematic Review and Global Reporting | Q26773488 | ||
| DNA vaccines: immunology, application, and optimization* | Q28145651 | ||
| The innate immune response to bacterial flagellin is mediated by Toll-like receptor 5 | Q28185796 | ||
| Evasion of Toll-like receptor 5 by flagellated bacteria | Q28256503 | ||
| A conserved TLR5 binding and activation hot spot on flagellin | Q28818682 | ||
| The Structure of Treponema pallidum Tp0751 (Pallilysin) Reveals a Non-canonical Lipocalin Fold That Mediates Adhesion to Extracellular Matrix Components and Interactions with Host Cells | Q30152722 | ||
| Treponema pallidum major sheath protein homologue Tpr K is a target of opsonic antibody and the protective immune response. | Q31904771 | ||
| Heterologous and homologous protection against influenza A by DNA vaccination: optimization of DNA vectors. | Q54649033 | ||
| Macrophage-Mediated Killing of Opsonized Treponema pallidum | Q67718846 | ||
| Invasion of the central nervous system by Treponema pallidum: implications for diagnosis and treatment | Q70225612 | ||
| Characterization of the serum requirement for macrophage-mediated killing of Treponema pallidum ssp. pallidum: relationship to the development of opsonizing antibodies | Q70732359 | ||
| Characterization of lymphocyte responsiveness in early experimental syphilis. II. Nature of cellular infiltration and Treponema pallidum distribution in testicular lesions | Q72603802 | ||
| The Toll-Like Receptor 5 Stimulus Bacterial Flagellin Induces Maturation and Chemokine Production in Human Dendritic Cells | Q73361348 | ||
| Isolation and laboratory maintenance of Treponema pallidum | Q81928458 | ||
| Antigen-antibody immunogenic complex: promising novel vaccines for microbial persistent infections | Q83348518 | ||
| Enhanced immune response and protective efficacy of a Treponema pallidum Tp92 DNA vaccine vectored by chitosan nanoparticles and adjuvanted with IL-2 | Q84975810 | ||
| Treponema pallidum induces systemic TH17 and TH1 cytokine responses | Q85642853 | ||
| High-affinity interaction between gram-negative flagellin and a cell surface polypeptide results in human monocyte activation | Q33591155 | ||
| Immunogenic properties of the protein component of Treponema pallidum | Q33665284 | ||
| Nucleic acid immunization: concepts and techniques associated with third generation vaccines | Q33771578 | ||
| Host defense mechanisms in secondary syphilitic lesions: a role for IFN-gamma-/IL-17-producing CD8+ T cells? | Q34254490 | ||
| Biological basis for syphilis | Q34334047 | ||
| Stillbirths: rates, risk factors, and acceleration towards 2030. | Q34510234 | ||
| Opsonization of Treponema pallidum is mediated by immunoglobulin G antibodies induced only by pathogenic treponemes | Q34525427 | ||
| CpG motifs in bacterial DNA and their immune effects | Q34542287 | ||
| Immunization with Treponema pallidum endoflagella alters the course of experimental rabbit syphilis | Q35105151 | ||
| High frequency of the 23S rRNA A2058G mutation of Treponema pallidum in Shanghai is associated with a current strategy for the treatment of syphilis | Q35133876 | ||
| Syphilis: using modern approaches to understand an old disease | Q35578589 | ||
| Phagocytosis of Borrelia burgdorferi and Treponema pallidum potentiates innate immune activation and induces gamma interferon production | Q35783879 | ||
| Bacterial flagellins: mediators of pathogenicity and host immune responses in mucosa | Q35920072 | ||
| Can population differences explain the contrasting results of the Mwanza, Rakai, and Masaka HIV/sexually transmitted disease intervention trials?: A modeling study | Q35985936 | ||
| Antigenic relatedness and N-terminal sequence homology define two classes of periplasmic flagellar proteins of Treponema pallidum subsp. pallidum and Treponema phagedenis | Q36214510 | ||
| The pathogenesis of syphilis: the Great Mimicker, revisited | Q36346131 | ||
| A defined syphilis vaccine candidate inhibits dissemination of Treponema pallidum subspecies pallidum | Q37630333 | ||
| The NAIP-NLRC4 inflammasome in innate immune detection of bacterial flagellin and type III secretion apparatus | Q38423379 | ||
| Treponema pallidum, the syphilis spirochete: making a living as a stealth pathogen | Q38976715 | ||
| T-Cell responses to Treponema pallidum subsp. pallidum antigens during the course of experimental syphilis infection | Q39511945 | ||
| Lesions of primary and secondary syphilis contain activated cytolytic T cells | Q39824504 | ||
| Evaluation of FlaB1, FlaB2, FlaB3, and Tp0463 of Treponema pallidum for serodiagnosis of syphilis | Q40274959 | ||
| Treponema pallidum flagellins elicit proinflammatory cytokines from human monocytes via TLR5 signaling pathway. | Q40356934 | ||
| Multifaceted immune responses and protective efficacy elicited by a recombinant autolyzed Salmonella expressing FliC flagellar antigen of F18(+)Escherichia coli. | Q40462170 | ||
| CD4+ lymphocytes and gamma interferon predominate in local immune responses in early experimental syphilis | Q41829222 | ||
| Vaccine development for syphilis. | Q42101765 | ||
| IFNγ Enhances CD64-Potentiated Phagocytosis of Treponema pallidum Opsonized with Human Syphilitic Serum by Human Macrophages | Q42373352 | ||
| The pattern and level of cytokines secreted by Th1 and Th2 lymphocytes of syphilitic patients correlate to the progression of the disease | Q43484336 | ||
| Immunity in experimental syphilis. VI. Successful vaccination of rabbits with Treponema pallidum, Nichols strain, attenuated by -irradiation | Q44952549 | ||
| Syphilis control--a continuing challenge | Q44973312 | ||
| Development of Th1 and Th2 populations and the nature of immune responses to hepatitis B virus DNA vaccines can be modulated by codelivery of various cytokine genes. | Q45756366 | ||
| Treponema pallidum flagellins stimulate MMP-9 and MMP-13 expression via TLR5 and MAPK/NF-κB signaling pathways in human epidermal keratinocytes | Q47690982 | ||
| Flagellin, a novel mediator of Salmonella-induced epithelial activation and systemic inflammation: I kappa B alpha degradation, induction of nitric oxide synthase, induction of proinflammatory mediators, and cardiovascular dysfunction | Q50117610 | ||
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | New Zealand | Q664 |
| virology | Q7215 | ||
| infectious disease | Q18123741 | ||
| immunology | Q101929 | ||
| parasitology | Q180502 | ||
| immunization | Q1415366 | ||
| drug discovery | Q1418791 | ||
| Treponema pallidum | Q156007 | ||
| P304 | page(s) | 177 | |
| P577 | publication date | 2018-11-07 | |
| P1433 | published in | Emerging Microbes & Infections | Q27724513 |
| P1476 | title | Immunogenicity and protective efficacy against Treponema pallidum in New Zealand rabbits immunized with plasmid DNA encoding flagellin | |
| P478 | volume | 7 |
| Q97545395 | Development of vaccines against the sexually transmitted infections gonorrhoea, syphilis, Chlamydia, herpes simplex virus, human immunodeficiency virus and Zika virus |
| Q92781569 | PCR detection for syphilis diagnosis: Status and prospects |
| Q93165396 | The N-terminal D1 domain of Treponema pallidum flagellin binding to TLR5 is required but not sufficient in activation of TLR5 |
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