饶毅

北京脑所的饶毅实验室研究分子神经生物学、神经化学生物学，用分子生物学、遗传学、生物化学、化学分析、电生理和现代光学成像等多学科途径研究脑和神经系统的分子功能、环路的化学基础、睡眠的分子机理、高级认知的基因分析。

1）通过生物化学和化学分析，寻找新的神经递质。

2）通过分子生物学和遗传学，研究以神经递质及其受体为核心的化学连接组。

3）通过生物化学、分子生物学和遗传学研究睡眠的分子基础。

4）通过遗传分析、功能核磁共振成像研究人脑重要认知功能的基因。

1. Rao Y, Jan LY, and Jan YN (1990). Similarity of the product of the Drosophila neurogenic gene big brain to transmembrane channel proteins. Nature 345:163-167. PDF

2. Rao Y, Vaessin H, Jan LY and Jan YN (1991). Neuroectoderm in Drosophila embryos is dependent on the mesoderm for the positioning but not for formation. Genes Dev 5:1577-1588.

3. Rao Y, Bodmer R, Jan LY and Jan YN (1992). The big brain gene of Drosophila functions to control the number of neuronal precursors in the peripheral nervous system. Development 116:31-40.

4. Rao Y (1994). Conversion of a mesodermalizing molecule, the Xenopus Brachyury gene, into a neuralizing factor. Genes & Dev. 8:939-947.

5. Wu JY, Wen L, Zhang, WJ and Rao Y (1996). The secreted product of Xenopus lunatic fringe, a vertebrate signaling molecule. Science 273:355-358.

6. Li HS, Tierney C, Wen L, Wu JY and Rao Y (1997). A single morphogenetic field gives rise to two retina primordia under the influence of the prechordal mesoderm. Development 124:603-615. PDF

7. Li HS, Chen JH, Wu W, Fagaly T, Yuan WL, Zhou L, Dupuis S, Jiang Z, Nash W, Gick C, Ornitz D, Wu JY, and Rao Y (1999). Vertebrate Slit, a secreted ligand for the transmembrane protein Roundabout, is a repellent for olfactory bulb axons. Cell 96:807-818. PDF

Commentary in Nature W.A. Harris and C.E. Holt PDF

Minireview in Neuron D. Van Vactor and J.G. Flanagan PDF

Minireview in Cell K. Zinn and Q. Sun PDF

8. Wu W, Wong K, Chen JH, Jiang ZH, Dupuis S, Wu JY, and Rao Y (1999). Directional guidance of neuronal migration in the olfactory system by the secreted protein Slit. Nature 400:331-336. PDF

Commentary in Natureby P. Racik PDF

9. Zhu Y, Li HS, Zhou L, Wu JY, and Rao Y (1999). Cellular and molecular guidance of GABAergic neuronal migration from an extra-cortical origin to the neocortex. Neuron 23: 473-485.

10. Yuan W, Zhou L, Chen JH, Wu JY, Rao Y, and Ornitz DM (1999). The mouse Slit family: secreted ligands for Robo expressed in patterns that suggest a role in morphogenesis and axon guidance. Dev. Biol. 212:290-306.

11. He M, Wen L, Campbell C, Wu JY, and Rao Y (1999). Transcription repression by ET, an ortholog of human Tbx3, a gene involved in ulnar-mammary syndrome. Proc Natl Acad Sci USA 96:10212-10217.

12. Chen J, Wu W, Li HS, Fagaly T, Zhou L, Wu JY and Rao Y (2000). Embryonic expression and extracellular secretion of Xenopus Slit. Neuroscience 96:231-236.

13. Chen J, Wen L, Dupuis S, Wu JY, and Rao Y (2001). The N-terminal leucine rich regions in Slit are sufficient to repel olfactory bulb axons and subventricular zone neurons. J Neurosci 21:1548-1556.

14. Hirata T, Fujisawa H, Wu JY, and Rao Y (2001). Independence of short-range guidance for olfactory bulb axons from repulsive factor Slit. J Neurosci 21: 2373-2379.

15. Wu JY, Feng L, Park H-T, Havlioglu N, Wen L, Tang H, Bacon KB, Jiang Z, Zhang X-C, and Rao Y (2001). The neuronal repellent Slit inhibits leukocyte chemotaxis induced by chemotactic factors.Nature 410:948-952. PDF

Commentary in Science by A Fernandis and R. Ganju PDF

16. Wong K, Ren X-R, Huang Y-Z, Xie Y, Liu G, Saito H, Tang H, Wen L, Brady-Kalnay SM, Mei L, Wu JY, Xiong W-C, and Rao Y (2001). Signal transduction in neuronal migration: roles of GTPase activating proteins and the small GTPase Cdc42 in the Slit-Robo pathway. Cell 107:209-221. PDF

17. Sang Q, Wu JY, Rao Y, Hsueh, Y-P, and Tan S-S (2002). Slit promotes branching and elongation of neurites of interneurons but not projection neurons from the developing telencephalon. Mol Cell Neurosci 21:250-65.

18. Zhu Y, Yu T, Zhang X-C, Nagasawa T, Wu JY, and Rao Y (2002). Role of the chemokine SDF-1 as the meningeal attractant for embryonic cerebellar neurons. Nature Neurosci 5:719-720.  PDF Supplementary Data

19. Ward M, McCann C, DeWulf M, Wu JY and Rao Y (2003). Distinguishing between directional guidance and motility regulation in neuronal migration. J Neurosci 23:5170-5177.

20. Liu G and Rao Y (2003). Neuronal migration from the forebrain to the olfactory bulb requires a new attractant persistent in the olfactory bulb. J Neurosci 23:6651– 6659.

21. Jin Z, Zhang J, Klar A, Chédotal A, Rao Y, Cepko CL, Bao Z-Z (2003). Irx4-mediated regulation of Slit1 expression contributes to the definition of early axonal paths inside the retina. Development 130: 1037-1048.

22. Yuan W, Rao Y, Babiuk RP, Greer J, Wu JY, and Ornitz DM (2003). A genetic model for a central (septum transversum) congenital diaphragmatic hernia in mice lacking Slit3. Proc Natl Acad Sci USA 100:5217-5222.

23. Wang B, Xiao Y, Ding B-B, Zhang N, Yuan X-B, Gui L, Qian, K-X, Duan S, Chen Z, Rao Y, and Geng J-G (2003). Induction of tumor angiogenesis by Slit-Robo signaling and inhibition of cancer growth by blocking Robo activity. Cancer Cell 4:19-29.

24. DeBellard ME, Rao Y, and Bronner-Fraser M (2003). Dual function of Slit2 in repulsion and enhanced migration of trunk, but not vagal, neural crest cells. J Cell Biol 162:269-279.

25. Park KW, Morrison CM, Sorensen LK, Jones CA, Rao Y, Chien C-B, Wu JW, Urness LD and Li DY (2003). Robo4 is a vascular-specific receptor that inhibits endothelial migration. Dev Biol 261: 251-267.

26. Guan H, Zu G, Xie Y, Tang H, Johnson M, Xu X, Kevil C, Xiong W-C, Elmets C, Rao Y, Wu JY, and Hui Xu H (2003). Neuronal repellent Slit2 inhibits dendritic cell migration and the development of immune responses.  J Immunol 171:6519-6526.

27. Zhu Y, Yu T and Rao Y (2004). Developmental regulation of EGL migration through a switch in cellular responsiveness to cerebellar meninges. Dev Biol 267:153-64.

28. Ward ME, Wu JY and Rao Y (2004). Visualization of spatially and temporally regulated N-WASP activity during cytoskeletal reorganization in living cells. Proc Natl Acad Sci USA 101:970-974. PDF

29. Prasad A, Fernandis AZ, Rao Y, and Ganju RK (2004). Slit-3 protein-mediated inhibition of CXCR4-induced chemotactic and chemoinvasive signaling pathways in breast cancer cells. J Biol Chem 279:9115-24.

30. Molle, K. D., Chédotal, A., Rao, Y., Lumsden, A., and Wizenmann, A. (2004). Local inhibition guides the trajectory of early longitudinal tracts in the developing chick brain. Mech. Dev. 121:143-156.

31. Kanellis J, Garcia GE, Li P, Parra G, Wilson CB, Rao Y, Han S, Smith CW, Johnson RJ, Wu JY, Feng L (2004). Modulation of inflammation by Slit protein in vivo in experimental crescentic glomerulonephritis. Am J Pathol 165:341-52.

32. Liu G, Beggs H, Jürgensen C, Park HT, Tang H, Gorski J, Jones KR, Reichardt LF, Wu JY, and Rao Y (2004). Netrin requires the focal adhesion kinase and the Src family kinases to induce axon outgrowth and to attract axons. Nat Neurosci 7:1222-1232. PDF

33. Li W, Lee J, Vikis HG, Lee S-H, Liu G., Aurandt J, Shen T-L, Fearon ER, Guan J-L, Han M, Rao Y, Hong K, and Guan KL (2004). Activation of FAK and Src are receptor proximal events required for netrin signaling. Nat Neurosci 7:1213-1221.

34. Jiang H, Guo W, Liang XH, Y Rao (2005). Both the establishment and the maintenance of neuronal polarity require active mechanisms: critical roles of GSK-3b and its upstream regulators. Cell 120:123-135. PDF

Commentary in Current Biology by Rong Li PDF

35. Ding YQ, Kim JY, Xu YS, Rao Y, and Chen ZF (2005). Ventral migration of early-born neurons requires Dcc and is essential for the projections of primary afferents in the spinal cord. Development 132: 2047-2056.

36. Lin L, Rao Y, Isacson O. (2005). Netrin-1 and slit-2 regulate and direct neurite growth of ventral midbrain dopaminergic neurons. Mol Cell Neurosci 28:547-55.

37. Ward ME, Jiang H, and Rao Y (2005). Regulated formation and selection of neuronal processes underlie directional guidance of neuronal migration. Mol Cell Neurosci 30:378-387.

38. Kim TH, Lee HK, Seo IA, Bae HR, Suh DJ, Wu J, Rao Y, Hwang KG, and Park HT. (2005). Netrin induces down-regulation of its receptor, Deleted in Colorectal Cancer, through the ubiquitin-proteasome pathway in the embryonic cortical neuron. J Neurochem 95:1-8.

39. Li W, Aurandt J, Jürgensen C, Rao Y, and Guan KL (2006).FAK and Src kinases are required for netrin-induced tyrosine phosphorylation of UNC5. J Cell Sci 119:47-55.

40. Werbowetski-Ogilvie TE, Sadr MS, Jabado N, Angers-Loustau A, Agar NYR, Wu J, Bjerkvig R, Antel JP, Faury D, Rao Y, and Del Maestro RF (2006). Inhibition of medulloblastoma cell invasion by Slit. Oncogene 25: 5103-5112.

41. Liu G, Li W, Gao X, Li X, Jurgensen C, Park HT, Shin NY, Yu J, He ML, Hanks SK, Wu JY, Guan KL, and Rao Y. (2007). p130(CAS) is required for netrin signaling and commissural axon guidance. J Neurosci 27:957-68.

42. Guo W, Jiang H, Gray V, Dedhar S, and Rao Y (2007). Role of the integrin-linked kinase (ILK) in determining neuronal polarity. Dev Biol 306:457-468. PDF

43. Lu W, van Eerde AM, Fan X, Quintero-Rivera F, Kulkarni S, Ferguson H, Kim H-G, Fan Y, Xi Q, Li Q-G, Sanlaville D, Andrews W, Sundaresan V, Bi W, Yank J, Giltay JC, Wijmeng C, V.M. de Jong TVM, Feather SA, Woolf AS, Rao Y, Lupsk JR, Eccles MR, Quad BJ, Gusell JF, Morton C, Maas RL (2007). Disruption of ROBO2 is associated with urinary tract anomalies and confers risk of vesicoureteral reflux. Am J Hum Genet 80:616–632.

44. Li X, Gao X, Liu G, Xiong W, Wu J, Rao Y (2008). Netrin signal transduction and the guanine nucleotide exchange factor DOCK180 in attractive signaling. Nature Neuroscience 11:28-35. PDF

45. Zhou C, Rao Y, and Rao Y (2008). A subset of octopaminergic neurons are important for Drosophila aggression. Nature Neuroscience 11:1059-1061. PDF

46. Liu G, Li W, Wang L, Kar A, Guan KL, Rao Y, and Wu JY (2009). DSCAM functions as a netrin receptor in commissural axon pathfinding. Proc Natl Acad Sci USA 106:2951-6.

47. Yuasa-Kawada J, Kinoshita-Kawada M, Rao Y, and Wu JY (2009). Deubiquitinating enzyme USP33/VDU1 is required for Slit signaling in inhibiting breast cancer cell migration. Proc Natl Acad Sci USA 106:14530-14535.

48. Yuasa-Kawada J, Kinoshita-Kawada M, Wu G, Rao Y, and Wu JY (2009). Midline crossing and Slit responsiveness of commissural axons require USP33. Nature Neuroscience 12:1087-1089.

49. Liu Y, Jiang Y, Si Y, Kim J-Y, Chen Z-F, and Rao Y (2011). Molecular regulation of sexual preference revealed by genetic studies of 5-HT in the brain of male mice. Nature 472:95-99. PDF

50. Liu WW, Liang XH, Li YN, Gong JX, Yang Z, Zhang YH, Zhang JX and Rao Y (2011). Social regulation of aggression mediated by pheromonal activation of Or65a olfactory receptor neurons in Drosophila. Nature Neurosci  7:896-902. PDF

51. Masuyama K, Zhang Y, Rao Y, Wang JW (2012). Mapping neural circuits with activity-dependent nuclear import of a transcription factor. J Neurogenet 26:89-102.

52. Zhou C, Huang H, Kim SM, Lin H, Meng X, Chiang A-S, Wang JW, Jiao R, Rao Y (2012) Molecular genetic analysis of sexual rejection: roles of octopamine and its receptor OAMB in Drosophila courtship conditioning. J Neurosci 32:14281-14287. PDF

53. Zhang SS, Liu Y, Rao Y (2013). Serotonin signaling in the brain of adult female mice is required for sexual preference. Proc Natl Acad Sci USA 110:9968-9973. PDF

54. Gasque G, Conway S, Huang J, Rao Y and Vosshall (2013) Small molecule drug screening in Drosophila identifies the 5HT2A receptor as a feeding modulation target. Scientific Reports 3:2120/doi:10.1038/srep02120.

55. Ishimoto H, Wang Z, Rao Y, Wu C-F, Kitamoto T (2013) A Novel Role for Ecdysone in Drosophila Conditioned Behavior: Linking GPCR-Mediated Non-canonical Steroid Action to cAMP Signaling in the Adult Brain. PLoS Genet 9:e1003843. doi:10.1371/journal.pgen.1003843.

56. Zhu ZJ, Wang YY, Cao ZJ, Chen BQ, Cai HQ, Wu YH, Rao Y (2016). Cue-independent memory impairment by reactivation-coupled interference in human declarative memory. Cognition 155:125-13 PDF

57. Qian YJ, Cao Y, Deng BW, Yang G, Li J, Xu R, Zhang D, Huang J and Rao Y (2017). Sleep homeostasis regulated by 5HT2b receptor in a small subset of neurons in the dorsal fan-shaped body of Drosophila. eLife doi.org/10.7554/eLife.26519.001. PDF

58. Chen BQ, Zhu, ZJ, Wang YY, Ding XH, Guo XB, He MG, Fang W, Zhou SB, Zhou Q, Huang AL, Chen TM, Ni DS, Gu YP, Liu JN, Lei H and Rao Y (2018). Nature vs. nurture in human sociality: multi-level genomic analyses of social conformity. J Hum Genet 63:605-619. PDF

59. Zhang X, Yan HM, Huang ZL and Rao Y (2018). Independence of 5HT involvement in sleep and arousal from thermoregulation in mice. Mol Pharmacol 93:657-664.

60. Zhu ZJ, Chen BQ, Yan HM, Fang W, Zhou Q, Zhou SB, Lei H, Huang AL, Chen TM, Gao TM, Chen L, Chen JY, Ni DS, Gu YP, Liu JN, Zhang WX and Rao Y (2018). Multi-level genomic analyses suggest new genetic variants involved in human memory. Eur J Hum Genet 26:1668-1678.  PDF

61. Chen BQ, Zhu ZJ, Na R, Fang W, Zhang W, Zhou Q, Zhou SB, Lei H, Huang AL, Chen TM, Ni DS, Gu YP, Liu JN, Fang F and Rao Y (2018). Genomic analysis of visual cognition: perceptual switching and top-down control. J Neurosci 38:9668-9678. PDF

62. Deng BW, Li Q, Liu XX, Cao Y, Li BF, Qian YJ, Xu R, Mao RB, Zhou EX, Huang J and Rao Y (2019) Chemoconnectomics: mapping chemical transmission in Drosophila. Neuron 101:876-893. PDF

63. Dai XHM, Zhou EX, Yang W, WX Zhang and Rao Y (2019). D-Serine promotes sleep through the NMDA receptor in Drosophila melanogaster. Nature Communications 10:1986. PDF

64. Zhu ZJ, Chen BQ, Na R, Fang W, Zhang WX, Zhou Q, Zhou SB, Lei H, Huang AL, Chen TM, Gao TM, Chen L, Ni DS, Gu YP, Liu JN, Chen JY, Rao Y and Fang F (2020). Heritability of human visual contour integration—an integrated genomic study. Eur J Hum Genet 27:1867-1875. PDF

65. Dai XHM, Zhou EX, Yang W, Deng BW, Li Q, Liu XX, Zhang WX and Rao Y (2021). Molecular resolution of a behavioral paradox: sleep and arousal are regulated by distinct acetylcholine receptors in different neurons of Drosophila. Sleep 10, 1093. PDF

66. Liu YX, Wang TV, Cui YF, Gao SX and Rao Y (2022). Biochemical purification uncovers mammalian sterile 3 (MST3) as a new protein kinase for multifunctional protein kinases AMPK and SIK3. J Biol Chem 298:101929. PDF

67. Liu YX, Wang TV, Cui YF, Li CY, Jiang LF and Rao Y (2022). STE20 phosphorylation of AMPK related kinases revealed by biochemical purifications combined with genetics. J Biol Chem 298:101928. PDF

68. Liu ZY, Jiang LF, Li CY, Li CG, Yang JQ, Yu JJ, Mao RB and Rao Y (2022). LKB1 is physiologically required for sleep from Drosophila melanogaster to Mus musculus. Genetics 221: iyac082. PDF

69. Liu Y, Shan L, Liu T, Li J, Chen YC, Sun CH, Yang CJ, Bian XL, Niu YY, Zhang C, Xi JZ and Rao Y (2023) Molecular and cellular mechanisms of the first social relationship: a conserved role of 5-HT from mice to monkeys, upstream of oxytocin. Neuron 111:1468-1685. PDF

70. Jia X, Zhu J, Bian X, Liu S, Yu S, Liang W, Jiang L, Mao R and Rao Y (2023) Importance of glutamine in synaptic vesicles revealed by functional studies of SLC6A17 and its mutations pathogenic for intellectual disability. eLife 12:RP86972 (bioRxiv 2022.10.25.513688). PDF

71. Li Y, Li CG, Liu YX, Yu JJ, Yang JQ, Cui YF, Wang TV, Li CY, Jiang LF, Song ML and Rao Y (2023). Sleep need, the key regulator of sleep homeostasis, is both indicated and controlled by phosphorylation of threonine 221 in salt inducible kinase 3. Genetics 224:iyad136 (bioRxiv 2021.11.06.467421). PDF

72. Bian XL, Zhu JM, XB, Liang WJ, Yu SH and Rao Y (2023). Evidence suggesting creatine as a new central neurotransmitter: presence in synaptic vesicles, release upon stimulation, effects on cortical neurons and uptake into synaptosomes and synaptic vesicles. eLife 12:RP89317 (bioRxiv 2022.12.22.521565). PDF

73. Sun Y, Men W, Fang W, Zhou E, Yang W, Li Z, Zheng H-F and Rao Y (2024). Human genetics of face recognition: discovery of MCTP2 mutations in humans with face blindness (congenital prosopagnosia). Genetics 227:iyae047 (medRxiv 2021.09.27.21263237). PDF