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  2. The Role of NR2B-CREB-miR212/132-CRTC1-CREB Signal Network in Pain Regulation In Vitro and In Vivo
    Tianjiao Xia et al, 2017, Anesthesia & Analgesia CrossRef
  3. Kinesin Nanomotors Mediated Trafficking of NMDA-Loaded Cargo as A Novel Target in Chronic Pain
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  4. RNA control in pain: Blame it on the messenger
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  5. Gene Transfer of Glutamic Acid Decarboxylase 67 by Herpes Simplex Virus Vectors Suppresses Neuropathic Pain Induced by Human Immunodeficiency Virus gp120 Combined with ddC in Rats
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  6. Blockade of NMDA Receptors and Nitric Oxide Synthesis Potentiated Morphine-Induced Anti-Allodynia via Attenuating Pain-Related Amygdala pCREB/CREB Signaling Pathway
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  7. Positive feedback regulation between microRNA‐132 and CREB in spinal cord contributes to bone cancer pain in mice
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  8. Phosphorylated CCAAT/Enhancer Binding Protein β Contributes to Rat HIV-Related Neuropathic Pain:In VitroandIn VivoStudies
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  9. CREB Participates in Paclitaxel-Induced Neuropathic Pain Genesis Through Transcriptional Activation of Dnmt3a in Primary Sensory Neurons
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  10. The cannabinoid dehydroxylcannabidiol suppresses neuropathic pain by upregulating a spinal glycine receptor-mediated compensation mechanism
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  11. CREB-regulated transcription coactivator 1 enhances CREB-dependent gene expression in spinal cord to maintain the bone cancer pain in mice
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  12. Sinomenine attenuates cancer-induced bone pain via suppressing microglial JAK2/STAT3 and neuronal CAMKII/CREB cascades in rat models
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  13. Spinal IL-33/ST2 Signaling Contributes to Neuropathic Pain via Neuronal CaMKII–CREB and Astroglial JAK2–STAT3 Cascades in Mice
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