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1. Li C-L., Li K-C., Wu D., Chen Y., Luo H., Zhao J-R., Wang S-S., Sun M-M., Lu Y-J., Zhong Y-Q., Hu X-Y., Hou R., Zhou B-B., Bao L., Xiao H-S., and Zhang X. (2015) Somatosensory neuron types identified by high-coverage single-cell RNA-sequencing and functional heterogeneity. Cell Res., 26: 83-102.
2. Liu H., Wu Q-F., Li J-Y., Liu X-J., Li K-C., Zhong Y-Q., Wu D., Wang Q., Lu Y-J., Bao L., and Zhang X. (2015) Fibroblast growth factor 7 is a nociceptive modulator secreted via large dense-core vesicles. J. Mol. Cell Biol., 7: 466-475.
3. Ma X-L., Zhang F-X., Dong F., Bao L., and Zhang X. (2015) Experimental evidence for alleviating nociceptive hypersensitivity by single application of capsaicin. Mol. Pain, 11: 22
4. Wang F., Cai B., Li K-C., Hu X., Lu Y., Wang Q., Bao L., and Zhang X. (2015) FXYD2, a γ subunit of Na+,K+-ATPase, maintains persistent mechanical allodynia induced by inflammation. Cell Res., 25: 318-334.
5. Zhang X., Bao L., Li S. (2015) Opioid receptor trafficking and interaction in nociceptors. Br. J. Pharmacol., 172: 364–374.
6. Zhang X., Bao L., Yang L., Wu Q-F., and Li Shuai. (2012) Roles of intracellular fibroblast growth factors in neural development and functions. Sci. China Life Sci., 55: 1038-1044. (Review)
7. Wu Q-F., Yang L., Li S., Wang Q., Yuan X-B., Gao X., Bao L., and Zhang X. (2012) Fibroblast growth factor 13 is a microtubule-stabilizing protein regulating neuronal polarization and migration. Cell, 149:1549-1564.
8. Zhang X. and Bao L. (2012) Interaction and regulatory functions of μ- and δ-opioid receptors in nociceptive afferent neurons. Neurosci. Bull., 28: 121-130. (Review)
9. Liu X-J., Zhang F-X., Liu H., Li K-C., Lu Y-J., Wu Q-F., Li J-Y., Wang B., Wang Q., Lin L-B., Zhong Y-Q., Xiao H-S., Bao L., and Zhang X.(2012)Activin C expressed in nociceptive afferent neurons is required for suppressing inflammatory pain. Brain, 135: 391-403.
10. Li K-C., Wang F., Zhong Y-Q., Lu Y-J., Wang Q., Zhang F-X., Xiao H-S., Bao L., and Zhang X. (2011) Reduction of follistatin-like 1 in primary afferent neurons contributes to neuropathic pain hypersensitivity. Cell Res., 21:697-699.
11. Li K-C., Zhang F-X., Li C-L., Wang F., Yu M-Y., Zhong Y-Q., Zhang K-H., Lu Y-J., Wang Q., Ma X-L., Yao J-R., Wang J-Y., Lin L-B., Han M., Zhang Y-Q., Kuner R., Xiao H-S., Bao L., Gao X., and Zhang X. (2011) Follistatin-like 1 suppresses sensory afferent transmission by activating Na+,K+-ATPase. Neuron, 69: 974-987.
12. Zhao B., Wang H-B., Lu Y-J., Hu J-W., Bao L., and Zhang X. (2011) Transport of receptors, receptor signaling complexes and ion channels via neuropeptide-secretory vesicles. Cell Res., 21: 741-753.
13. He S-Q., Zhang Z-N., Guan J-S., Liu H-R., Zhao B, Wang H-B., Li Q., Yang H., Luo J., Li Z-Y., Wang Q., Lu Y-J., Bao L., and Zhang X. (2011) Facilitation of μ-opioid receptor activity by preventing δ-opioid receptor-mediated codegradation. Neuron, 69: 120-131.
14. Zhong Y-Q., Li K-C., and Zhang X. (2010) Potentiation of excitatory synaptic transmission in substantia gelatinosa neurons of adult rat spinal cord by inhibition of estrogen receptor α. Mol. Pain, 6: 92.
15. Zhang F-X., Liu X-J., Gong L-Q., Yao J-R., Li K-C., Li Z-Y., Lin L-B., Lu Y-J., Xiao H-S., Bao L., Zhang X-H., and Zhang X. (2010) Inhibition of inflammatory pain by activating B-Type natriuretic peptide signal pathway in nociceptive sensory neurons. J. Neurosci., 30: 10927-10938.
16. Wang H-B., Zhao B., Zhong Y-Q., Li K-C., Li Z-Y., Wang Q., Lu Y-J., Zhang Z-N., He S-Q., Zheng H-C., Wu S-X., Hökfelt T-G., Bao L., and Zhang X. (2010) Coexpression of δ- and μ-opioid receptors in nociceptive sensory neurons. Proc. Natl. Acad. Sci. USA, 107: 13117-13122.
17. Zhang X. (2010) Pain research in China. Sci. China Life Sci., 53: 356-362. (Review)
18. He S-Q., Yao J-R., Zhang F-X., Wang Q., Bao L., and Zhang X. (2010) Inflammation and nerve injury induce expression of pancreatitis-associated protein-II in primary sensory neurons. Mol. Pain, 6: 23.
19. Zhang X., Bao L., and Ma G-Q. (2010) Sorting of neuropeptides and neuropeptide receptors into secretory pathway. Progress in Neurobiology. 90: 276-283. (Review)
20. Wang L-H., Lu Y-J., Bao L., and Zhang X. (2007) Peripheral nerve injury induces reorganization of galanin-containing afferents in the superficial dorsal horn of monkey spinal cord. Eur. J. Neurosci., 25, 1087-1096.