CHEN, Jie, VARGA, Angelika, SELVARAJAH, Srikumaran, JENES, Agnes, DIENES, Beatrix, SOUSA-VALENTE, Joao, KULIK, Akos, VERESS, Gábor, BRAIN, Susan D., BAKER, David, URBAN, Laszlo, MACKIE, Ken und NAGY, Istvan, 2025. Spatial distribution of the cannabinoid type 1 and capsaicin receptors may contribute to the complexity of their crosstalk. Freiburg: Universität.

Chen, J., Varga, A., Selvarajah, S., Jenes, A., Dienes, B., Sousa-Valente, J., Kulik, A., Veress, G., Brain, S.D., Baker, D., Urban, L., Mackie, K., Nagy, I., 2025. Spatial distribution of the cannabinoid type 1 and capsaicin receptors may contribute to the complexity of their crosstalk. Universität, Freiburg. https://doi.org/10.1038/srep33307

Chen, J., Varga, A., Selvarajah, S., Jenes, A., Dienes, B., Sousa-Valente, J., Kulik, A., Veress, G., Brain, S. D., Baker, D., Urban, L., Mackie, K., & Nagy, I. (ca. 2025). Spatial distribution of the cannabinoid type 1 and capsaicin receptors may contribute to the complexity of their crosstalk [Cd]. Universität. https://doi.org/10.1038/srep33307

Chen J, Varga A, Selvarajah S, Jenes A, Dienes B, Sousa-Valente J, Kulik A, Veress G, Brain SD, Baker D, Urban L, Mackie K, Nagy I (2025) Spatial distribution of the cannabinoid type 1 and capsaicin receptors may contribute to the complexity of their crosstalk. Universität, Freiburg

Chen, Jie/ Varga, Angelika/ Selvarajah, Srikumaran/ Jenes, Agnes/ Dienes, Beatrix/ Sousa-Valente, Joao/ Kulik, Akos/ Veress, Gábor/ Brain, Susan D./ Baker, David/ Urban, Laszlo/ Mackie, Ken/ Nagy, Istvan, Spatial distribution of the cannabinoid type 1 and capsaicin receptors may contribute to the complexity of their crosstalk, Freiburg 2025.