• Molecular initiation and control of TCR signal transduction

  • LAG3 signaling and mechanism of action

  • IL35 signaling and mechanism of action

Selected publications:

Szymczak AL, Workman CJ, Wang Y, Vignali KM, Dilioglou S, Vanin E, Vignali DAA (2004). Correction of multi-gene deficiency in vivo using a single 'self-cleaving' 2A peptide-based retroviral vector. Nature Biotechnology 22: 589-594 [Pubmed]

Holst J, Vignali KM, Burton AR, Vignali DAA (2006). Rapid analysis of T cell selction and function in vivo using T cell receptor retrogenic mice. Nature Methods 3: 191-197 [Pubmed]

Holst J, Wang H, Durick-Eder K, Workman CJ, Boyd K, Baquet Z, Singh H, Forbes K, Chruscinski A, Smeyne R, van Oers NSC, Utz PJ, Vignali DAA (2008). Scalable signaling mediated by T cell antigen receptor-CD3 ITAMs ensures effective negative selection and prevents autoimmunity. Nature Immunology 9: 658-666 [Pubmed]

Collison LC*, Delgoffe GM*, Guy C, Vignali KM, Chaturvedi V, Fairweather D, Satoskar AR, Garcia KC, Hunter CA, Drake CG, Murray PJ, Vignali DAA (2012). The composition and signaling of the IL-35 receptor are unconventional. Nature Immunology 13: 290-299 [Pubmed]

Guy C, Vignali KM, Temirov J, Bettini ML, Overacre AE, Smeltzer M, Zhang H, Huppa JB, Tsai Y-H, Lobry C, Xie J, Dempsey PJ, Crawford HC, Aifantis I, Davis MM, Vignali DAA (2013). Distinct TCR signaling pathways drive proliferation and cytokine production in T cells. Nature Immunology 14: 262-270 [Pubmed]

Bettini ML, Bettini M, Nakayama M, Guy CS, Vignali DAA (2013). Generation of T cell receptor-retrogenic mice: improved retroviral-mediated stem cell gene transfer. Nature Protocol 8: 1837-1840 [Pubmed]