Son, Hyeonwi
Zhang, Yan
Shannonhouse, John
Gomez, Ruben
Kim, Yu Shin
Funding for this research was provided by:
National Institute of Dental and Craniofacial Research (T32DE014318, DE031477)
National Institute of Neurological Disorders and Stroke (NS128574)
Article History
Received: 7 March 2024
Accepted: 7 May 2024
First Online: 28 May 2024
Declarations
:
: Not applicable.
: Not applicable.
: The authors declare no competing interests.
: <sup>1</sup>Department of Oral & Maxillofacial Surgery, School of Dentistry, TX, USA.<sup>2</sup>Programs in Integrated Biomedical Sciences, Translational Sciences, Biomedical Engineering, Radiological Sciences, University of Texas Health Science Center at San Antonio, TX, USA.
: Movie S1. Representative in vivo TG imaging of spontaneous activity from WT control mice, related to Fig. 3c.Movie S2. Representative in vivo TG imaging of spontaneous activity from WT stressed mice, related to Fig. 3c.Movie S3. Representative in vivo TG imaging of spontaneous activity from KO stressed mice, related to Fig. 3c.Movie S4. Representative in vivo TG imaging of spontaneous activity from WT vehicle mice, related to Fig. 3e.Movie S5. Representative in vivo TG imaging of spontaneous activity from WT PACAP38-injected mice, related to Fig. 3e.Movie S6. Representative in vivo TG imaging of spontaneous activity from KO PACAP38-injected mice, related to Fig. 3e.Movie S7. Representative in vivo TG imaging of activated neurons in response to 0.4 g filament stimulus from WT control mice, related to Fig. 4b.Movie S8. Representative in vivo TG imaging of activated neurons in response to 0.4 g filament stimulus from WT stressed mice, related to Fig. 4b.Movie S9. Representative in vivo TG imaging of activated neurons in response to 0.4 g filament stimulus from KO stressed mice, related to Fig. 4b.Movie S10. Representative in vivo TG imaging of activated neurons in response to capsaicin from WT control mice, related to Fig. 4c.Movie S11. Representative in vivo TG imaging of activated neurons in response to capsaicin from WT stressed mice, related to Fig. 4c.Movie S12. Representative in vivo TG imaging of activated neurons in response to capsaicin from KO stressed mice, related to Fig. 4c.Movie S13. Representative in vivo TG imaging of activated neurons in response to 0.4 g filament stimulus from WT vehicle mice, related to Fig. 4d.Movie S14. Representative in vivo TG imaging of activated neurons in response to 0.4 g filament stimulus from WT PACAP38-injected mice, related to Fig. 4d.Movie S15. Representative in vivo TG imaging of activated neurons in response to 0.4 g filament stimulus from KO PACAP38-injected mice, related to Fig. 4d.Movie S16. Representative in vivo TG imaging of activated neurons in response to capsaicin from WT vehicle mice, related to Fig. 4e.Movie S17. Representative in vivo TG imaging of activated neurons in response to capsaicin from WT PACAP38-injected mice, related to Fig. 4e.Movie S18. Representative in vivo TG imaging of activated neurons in response to capsaicin from KO PACAP38-injected mice, related to Fig. 4e.