Supplementary Materials

Supplementary Materials for:

β-Arrestin–biased β-adrenergic signaling promotes extinction learning of cocaine reward memory

Bing Huang, Youxing Li, Deqin Cheng, Guanhong He, Xing Liu,* Lan Ma*

*Corresponding author. Email: lanma{at}fudan.edu.cn (L.M.); xingliu{at}fudan.edu.cn

This PDF file includes:

  • Fig. S1. The IL-PFC was activated during extinction learning of cocaine-induced CPP.
  • Fig. S2. Generation of β-arrestin2 conditional knockout mice.
  • Fig. S3. Conditional knockout of β-arrestin2 in IL-PFC inhibitory neurons did not impair extinction learning of cocaine-CPP.
  • Table S1. Summary of statistics for fig. S1.
  • Table S2. Summary of statistics for Fig. 1.
  • Table S3. Summary of statistics for Fig. 2.
  • Table S4. Summary of statistics for Fig. 3.
  • Table S5. Summary of statistics for Fig. 4.
  • Table S6. Summary of statistics for Fig. 5.
  • Table S7. Summary of statistics for fig. S3.

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Citation: B. Huang, Y. Li, D. Cheng, G. He, X. Liu, L. Ma, β-Arrestin–biased β-adrenergic signaling promotes extinction learning of cocaine reward memory. Sci. Signal. 11, eaam5402 (2018).

© 2018 American Association for the Advancement of Science