Different routes of bacterial infection induce long-lived TH1 memory cells and short-lived TH17 cell...
Different routes of bacterial infection induce long-lived TH1 memory cells and short-lived TH17 cells
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Publisher
New York: Nature Publishing Group US
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Language
English
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Publisher
New York: Nature Publishing Group US
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Contents
Naive CD4
+
T cells can differentiate into distinct polarized effector cells, but detailed characterization of physiologic CD4 memory is lacking. Jenkins and colleagues show that T
H
1 and T
H
17 memory cells differ in longevity and arise via different infection routes.
We used a sensitive method based on tetramers of peptide a...
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Full title
Different routes of bacterial infection induce long-lived TH1 memory cells and short-lived TH17 cells
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TN_cdi_proquest_miscellaneous_733632276
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https://devfeature-collection.sl.nsw.gov.au/record/TN_cdi_proquest_miscellaneous_733632276
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ISSN
1529-2908
E-ISSN
1529-2916
DOI
10.1038/ni.1826
