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Microbiology / Immunology / Immune system / Enterobacteria / Gram-negative bacteria / Salmonella / T cell / Lymphocyte / Natural killer cell / Biology / Bacteria / Anatomy


Salmonella inhibit T cell proliferation by a direct, contact-dependent immunosuppressive effect Adrianus W. M. van der Velden, Michael K. Copass, and Michael N. Starnbach* Department of Microbiology and Molecular Genetic
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Document Date: 2008-06-10 15:42:33

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City

Santos / Lyons / Worcester / Auburn / Jameson / Boston / New York / Twesten / /

Company

Kohler / Philip Morris USA / BD Biosciences / The Jackson Laboratory / MacFarlane A. S. / /

Country

United States / /

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Event

Product Issues / /

Facility

MHC-I complex / Stanford University / Abbott Bioresearch Center / We pub / /

IndustryTerm

antigen processing / invasion machinery / antibiotic-free media / intracellular antigen-processing pathways / /

MedicalCondition

clear infection / strain / Salmonella infection / infection / acute typhoid-like systemic illness / vaccinia virus expressing OVA / /

MedicalTreatment

Immunization / immunosuppression / antibiotics / /

Movie

Conflict of interest / /

Organization

Harvard Medical School / Abbott Bioresearch Center / Stanford University / Michael N. Starnbach* Department of Microbiology and Molecular Genetics / National Academy of Sciences / /

Person

Kopecko / Michael N. Starnbach / Michael K. Copass / Nat / Adrianus W. M. van der Velden / John Mekalanos / Apte / /

Position

R. N. / D. J. / representative / /

Product

penicillin / gentamicin / Franklin / bacteria / Salmonella / WT Salmonella / DC / /

ProgrammingLanguage

DC / /

ProvinceOrState

New Jersey / South Carolina / New York / A. B. / Massachusetts / /

PublishedMedium

Microbiology / /

SportsLeague

Stanford University / /

Technology

recombination / /

URL

www.pnas.org兾cgi兾doi兾10.1073兾pnas.0504382102 / /

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