Pellicci, D. G., K. J. L. Hammond, J. Coquet, K. Kyparissoudis, A. G. Brooks, K. Kedzierska, R. Keating, S. Turner, S. Berzins, M. J. Smyth, and D. I. Godfrey. 2005. DX5/CD49b-positive T cells are not synonymous with CD1d-dependent NKT cells. J. Immunol. 175: 4416–4425.

Fig. 2A of this article contains flow cytometry comparing C57BL/6 WT mice and CD1d−/− mice for αβTCR versus DX5 or αβTCR versus CD49b staining in mouse thymus, spleen, liver, bone marrow, and peripheral lymph nodes (PLNs). Abs for DX5 and CD49b bind the same molecule (integrin α2 or CD49b). The FACS plot representing αβTCR versus DX5 for thymus and bone marrow in CD1d−/− mice inadvertently showed αβTCR versus CD49b from CD1d−/− mice and thus these plots were unintentionally duplicated during the figure generation. Importantly, the data presented in the graphs of Fig. 2A were correct as originally published. The correct version of Fig. 2A is now shown below. The conclusions for this manuscript remain unchanged.

The figure legend was correct as originally published. The legend for Fig. 2A is shown below for reference.

FIGURE 2.

DX5/CD49b+ T cells are present in CD1d−/− mice. Thymus, spleen, liver, bone marrow, and PLN lymphocytes were harvested from 6-wk-old WT and CD1d−/− mice and stained for flow cytometric analysis. A, Each tissue was examined for αβTCR staining vs either DX5 or CD49b. The bar graphs show accumulated data for WT and CD1d−/− mice; the error bars represent SEM.

FIGURE 2.

DX5/CD49b+ T cells are present in CD1d−/− mice. Thymus, spleen, liver, bone marrow, and PLN lymphocytes were harvested from 6-wk-old WT and CD1d−/− mice and stained for flow cytometric analysis. A, Each tissue was examined for αβTCR staining vs either DX5 or CD49b. The bar graphs show accumulated data for WT and CD1d−/− mice; the error bars represent SEM.

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