Skin Injury Activates TRPV1+ Nociceptive Fibers to Stimulate a Rapid Innate Antiviral Protein Response
Publication
, Journal Article
Handfield, C; Kwock, J; Lei, V; Lee, MJ; Coates, M; Wang, K; Han, Q; Powers, JG; Wolfe, S; Corcoran, DL; Fanelli, B; Dadlani, M; Ji, R-R; MacLeod, AS
Duke Scholars
Citation
APA
Chicago
ICMJE
MLA
NLM
Handfield, C., Kwock, J., Lei, V., Lee, M. J., Coates, M., Wang, K., … MacLeod, A. S. (n.d.). Skin Injury Activates TRPV1+ Nociceptive Fibers to Stimulate a Rapid Innate Antiviral Protein Response.
Handfield, Chelsea, Jeffery Kwock, Vivian Lei, Min Jin Lee, Margaret Coates, Kaiyuan Wang, Qingjian Han, et al. “Skin Injury Activates TRPV1+ Nociceptive Fibers to Stimulate a Rapid Innate Antiviral Protein Response,” n.d.
Handfield C, Kwock J, Lei V, Lee MJ, Coates M, Wang K, et al. Skin Injury Activates TRPV1+ Nociceptive Fibers to Stimulate a Rapid Innate Antiviral Protein Response.
Handfield, Chelsea, et al. Skin Injury Activates TRPV1+ Nociceptive Fibers to Stimulate a Rapid Innate Antiviral Protein Response.
Handfield C, Kwock J, Lei V, Lee MJ, Coates M, Wang K, Han Q, Powers JG, Wolfe S, Corcoran DL, Fanelli B, Dadlani M, Ji R-R, MacLeod AS. Skin Injury Activates TRPV1+ Nociceptive Fibers to Stimulate a Rapid Innate Antiviral Protein Response.