| review article | Q7318358 |
| scholarly article | Q13442814 |
| P356 | DOI | 10.1007/BF01225276 |
| P953 | full work available at URL | http://link.springer.com/article/10.1007/BF01225276/fulltext.html |
| http://link.springer.com/content/pdf/10.1007/BF01225276 | ||
| http://link.springer.com/content/pdf/10.1007/BF01225276.pdf | ||
| P698 | PubMed publication ID | 1723223 |
| P2093 | author name string | S. H. Kaufmann | |
| P2860 | cites work | Identification of a gene that positively regulates expression of listeriolysin, the major virulence factor of listeria monocytogenes | Q24556618 |
| Primary structure of a human mitochondrial protein homologous to the bacterial and plant chaperonins and to the 65-kilodalton mycobacterial antigen | Q24633077 | ||
| Leprosy in India | Q27711872 | ||
| Interferon-gamma protects human endothelial cells from lymphokine-activated killer cell-mediated lysis | Q70414806 | ||
| Leprosy--a disease of the Schwann cell | Q71486859 | ||
| New use of BCG for recombinant vaccines | Q29615313 | ||
| Identification of a chromosomal gene controlling temperature-regulated expression of Shigella virulence | Q33568042 | ||
| Expression of ToxR, the transcriptional activator of the virulence factors in Vibrio cholerae, is modulated by the heat shock response | Q33926950 | ||
| A two-component regulatory system (phoP phoQ) controls Salmonella typhimurium virulence. | Q34286908 | ||
| Mutants of Salmonella typhimurium that cannot survive within the macrophage are avirulent | Q35617117 | ||
| Chlamydial disease pathogenesis. The 57-kD chlamydial hypersensitivity antigen is a stress response protein | Q36356865 | ||
| Chlamydial hsp60 and the immunopathogenesis of chlamydial disease | Q36519184 | ||
| Common themes in microbial pathogenicity | Q37055410 | ||
| Interaction of chlamydiae and host cells in vitro | Q37056842 | ||
| Intracellular location of Mycobacterium leprae in macrophages of normal and immune-deficient mice and effect of rifampin | Q37102818 | ||
| Is hsp70 the cellular thermometer? | Q37260519 | ||
| Heat shock proteins: an autoprotective mechanism for inflammatory cells? | Q37302608 | ||
| Hydrogen peroxide-inducible proteins in Salmonella typhimurium overlap with heat shock and other stress proteins | Q37404804 | ||
| Heat-shock protein 60: implications for pathogenesis of and protection against bacterial infections | Q37449508 | ||
| Bacterial defenses against oxidative stress | Q37570468 | ||
| Salmonella virulence: new clues to intramacrophage survival | Q37908221 | ||
| Heat shock proteins and the immune response | Q37923407 | ||
| Families of bacterial signal-transducing proteins | Q38320112 | ||
| Temperature regulation of virulence genes in pathogenic bacteria: a general strategy for human pathogens? | Q38715050 | ||
| CD8+ T lymphocytes in intracellular microbial infections | Q39610609 | ||
| Immunology of leprosy: new findings, future perspectives | Q39706289 | ||
| Mycobacterium leprae renders Schwann cells and mononuclear phagocytes susceptible or resistant to killer cells. | Q40150013 | ||
| The role of cell-mediated immunity in bacterial infections. | Q40264494 | ||
| Elevated temperature regulates tumor necrosis factor-mediated immune killing | Q40771367 | ||
| A role for heat shock proteins in inflammation? | Q40786592 | ||
| Effects of heat shock on cytolysis mediated by NK cells, LAK cells, activated monocytes and TNFs alpha and beta | Q41224733 | ||
| Effects of stress on lysability of tumor targets by cytotoxic T cells and tumor necrosis factor | Q41721515 | ||
| Induction of Salmonella stress proteins upon infection of macrophages | Q41734412 | ||
| Positive control of a regulon for defenses against oxidative stress and some heat-shock proteins in Salmonella typhimurium | Q41771946 | ||
| A recombinant 64 kilodalton protein of Mycobacterium bovis bacillus Calmette-Guerin specifically stimulates human T4 clones reactive to mycobacterial antigens | Q41815508 | ||
| A large fraction of human peripheral blood gamma/delta + T cells is activated by Mycobacterium tuberculosis but not by its 65-kD heat shock protein | Q41841463 | ||
| The role of a stress-response protein in Salmonella typhimurium virulence | Q42612990 | ||
| T cells against a bacterial heat shock protein recognize stressed macrophages | Q42647400 | ||
| Isolation of CD4- CD8- mycobacteria-reactive T lymphocyte clones from rheumatoid arthritis synovial fluid | Q43480166 | ||
| T lymphocytes from healthy individuals with specificity to self-epitopes shared by the mycobacterial and human 65-kilodalton heat shock protein | Q43657394 | ||
| Enumeration of T cells reactive with Mycobacterium tuberculosis organisms and specific for the recombinant mycobacterial 64-kDa protein | Q44601613 | ||
| Human gamma delta+ T cells respond to mycobacterial heat-shock protein | Q44703374 | ||
| Expression of a heat-inducible gene of the HSP70 family in human myelomonocytic cells: regulation by bacterial products and cytokines | Q44997904 | ||
| Abnormal proteins serve as eukaryotic stress signals and trigger the activation of heat shock genes | Q46123618 | ||
| Humoral and cell-mediated immune responses to live recombinant BCG–HIV vaccines | Q59098577 | ||
| Lysis of interferon-γ activated Schwann cell by cross-reactive CD8+ ∝/β T cells with specificity for the mycobacterial 65 kd heat shock protein | Q61454448 | ||
| T cell responses of normal individuals towards recombinant protein antigens of Mycobacterium tuberculosis | Q69049142 | ||
| Stress proteins may provide a link between the immune response to infection and autoimmunity | Q69138830 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | immunology | Q101929 |
| P304 | page(s) | 25-36 | |
| P577 | publication date | 1991-01-01 | |
| P1433 | published in | Seminars in Immunopathology | Q15724576 |
| P1476 | title | Heat-shock proteins and pathogenesis of bacterial infections | |
| P478 | volume | 13 |
| Q33957678 | Exploiting the immune system: toward new vaccines against intracellular bacteria |
| Q41747008 | Heat shock proteins and arthritis--new readers start here |
| Q35568753 | Heat-shock proteins and stress tolerance in microorganisms |
| Q33757800 | Immune response against heat shock proteins in infectious diseases. |
| Q39822079 | Influence of mouse strain and vaccine viability on T-cell responses induced by Mycobacterium bovis bacillus Calmette-Guérin |
| Q39451663 | Isolation of rifampin-resistant mutants of Listeria monocytogenes and their characterization by rpoB gene sequencing, temperature sensitivity for growth, and interaction with an epithelial cell line. |
| Q39821631 | Lymphocyte populations during tuberculosis infection: V beta repertoires. |
| Q38501001 | Multiple tissue transcriptomic responses to Piscirickettsia salmonis in Atlantic salmon (Salmo salar). |
| Q34001526 | Plasma membrane expression of heat shock protein 60 in vivo in response to infection |
| Q35533014 | Role of heat shock proteins in diseases and their therapeutic potential |
| Q33975393 | Role of heat shock proteins in protection from and pathogenesis of infectious diseases. |
| Q34299685 | Small but crucial: the novel small heat shock protein Hsp21 mediates stress adaptation and virulence in Candida albicans. |
| Q35358639 | The function of gamma delta T cells |
| Q38641195 | The oxygen reduction pathway and heat shock stress response are both required for Entamoeba histolytica pathogenicity |
| Q36298878 | The unusual chaperonins of Mycobacterium tuberculosis |
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