舒红兵,男,汉族,1967年1月出生重庆市
荣昌县,
无党派人士,细胞生物学家、免疫学家,
中国科学院院士,
发展中国家科学院院士,武汉大学医学研究院院长、教授,曾任武汉大学副校长。现任
武汉生物技术研究院院长,第十四届全国政协常委。
人物经历
教育经历
1983年-1987年,舒红兵在
兰州大学生物学系动物学专业学习,获学士学位。
1987年-1990年,舒红兵在
中国医学科学院基础医学研究所细胞生物学研究室学习,获硕士学位。
1992年-1995年,舒红兵在美国埃默里大学细胞及发育生物学专业学习,获博士学位。
1995年-1997年,舒红兵在美国Tularik公司David Goeddel实验室做博士后。
工作经历
1990年-1992年,舒红兵任美国密西根大学医学中心研究助理。
1997年-1998年,舒红兵任美国Magainin制药公司资深科学家。
1998年-2003年,舒红兵任美国犹太医学研究中心及科罗拉多大学健康科学中心免疫学系
助理教授。
2003年-2005年,舒红兵任美国犹太医学研究中心及
科罗拉多大学健康科学中心免疫学系副教授。
2000年-2004年,舒红兵任
北京大学生命科学学院特聘教授。
2005年-2013年,舒红兵任武汉大学生命科学学院教授、院长(期间2010年3月-5月,在
国家教育行政学院第33期中青班学习)
2011年,舒红兵当选为中国科学院院士。
2012年,舒红兵当选为发展中国家科学院院士。
2013年-2014,舒红兵任武汉大学教授、副校长。
2014年-2019,舒红兵任武汉大学教授、副校长,武汉大学医学研究院院长(期间2015年3月-2016年1月,在中共
中央党校第15期中青年干部培训二班学习)。
2019年-,舒红兵任武汉大学教授、副校长,
武汉大学医学研究院院长,武汉大学免疫与代谢前沿科学中心主任。
现任
武汉生物技术研究院院长、兰州大学萃英讲席教授。
第十三届、十四届全国政协常委。
社会兼职
世界光谷卫生健康事业规划与发展战略委员会主任。
主要成就
科研成就
舒红兵主要从事免疫相关的细胞信号转导研究,在抗病毒天然免疫反应等领域取得了一系列有重要国际影响的成果。他发现了多个在病毒感染诱导细胞表达I型干扰素的过程中发挥关键作用的信号蛋白,为了解细胞抗病毒反应的分子机制做出了重要贡献;发现了多个负调控I型干扰素过量表达的蛋白和作用机制,这种精细调控机制避免机体产生过激的免疫反应;发现了新的肿瘤坏死因子家族成员,阐述了肿瘤坏死因子家族的多个成员信号转导的早期分子事件,为了解相关免疫疾病的分子机制做出了贡献。
学术著作:
学术论文:
据2020年3月
武汉大学医学研究院官网显示,舒红兵先后在国际刊物发表论文160篇,被SCI引用12000余次,其中通讯作者论文单篇最高被引用1200余次,第一作者论文单篇最高被引用350余次。
代表论文如下:
1. Shu HB, Agranoff A, Nabel EG, Leung K, Neish AS, Collins , Nabel GJ* (1993). Differential regulation of VCAM-1 gene expression by specific NF-B subunits in endothelial and epithelial cells. Mol Cell Biol 13:6283-6289.
2. Shu HB, Li Z, Palacios MJ, Li Q, Joshi HC* (1995). A transient association ofgamma-tubulin at the midbody is required for the completion of cytokinesis during the mammalian cell division. J Cell Sci 108: 2955-2962.
3. Shu HB , Joshi HC* (1995). gamma-Tubulin can both neacleate microtubule assembly and self-assemble into tubular structures in mammalian cells. J Cell Biol 130:1137-1147.
4. Hsu H, Shu HB, Pan MG, Goeddel DV* (1996). TRADD-TRAF2 and TRADD-FADD interactionss define two distinct TNF receptor-1 signal transduction pathways. Cell 84:299-308.
5. Shu HB, Takeuchi M, Goeddel DV* (1996). The TNF receptor 2 sducers TRAF2 and c-IAP1 are components of the TNF receptor 1 signaling complex. P Natl Acad Sci USA 93:13973-13978.
6. Shu HB, Halpins DR, Goeddel DV* (1997). Casper is a FADD and Caspase-related Inducer of Apoptosis. Immunity 6:751-763.
7. Yeh WC, Pompa JL, McCurrach ME, Shu HB, Elia AJ, Shahinian A, Ng M, Wajegam A, Mithchell K, El-Deiry WS, Lowe SW, Goeddel DV M,ak TW* (1998). FADD: essential for embryonic development and signaling from some, but not all, inducers of apoptosis. Science 279:1954-1958.
8. Shu HB, Hu WH, Johnson H (1999). TALL-1 is a novel member of the TNF family that is downregulated by mitogens. J Leukocyte Biol 65:680-683.
9. Hu WH, Johnson H, Shu HB* (1999). TRAIL signal NFB and JNK activation and apoptosis through distinct pathways. J Biol Chem 274:30603-30610.
10. Hu WH, Johnson H, Shu HB* (2000). Activation of NFB by FADD, Casper and Caspase-8. J Biol Chem 275:10838-10844.
11. Shu HB, Johnson H (2000). BCMA is a receptor for the TNF family member TALL-1. P Natl Acad Sci USA 97:9156-9161.
12. Yeh WC, Itie A, Elia AJ, Ng M, Shu HB, Wakeham, A., Mirtsos, C, Suzuki N, Bonnard M, Goedde, DV, and Mak TW* (2000). Requirement for Casper (c-FLIP) in regulation of death receptor-induced apoptosis and embryonic development. Immunity 12:633-642.
13. Chen D, Li X, Zhai Z, Shu HB* (2002). A novel zinc finger protein interacts with RIP and inhibits TNF- and IL-1-induced NF-B activation. J Biol Chem. 277:15985-15991.
14. Liu Y, Xu L, Opalka N, Kappler J, Shu HB, Zhang G* (2002). Crystal structure of sTALL-1 reveals a virus-like assembly of TNF family ligands. Cell 108: 383-394.
15. Wu M, Xu L, Li X, Zhai Z , Shu HB* (2002). AMID, an AIF homologous mitochondrion-associated protein, induces caspase-independent apoptosis. J Biol Chem 277:25617-25623.
16. Xu L, Shu HB* (2002). TRAF3 is associated with BAFF-R and negatively regulates BAFF-R-mediated NF-B activation and IL10 production. J Immunol 169: 6883-6889.
17. Liu Y, Hong X, Kappler J, Jiang L, Zhang R, Xu L Pan CH, Martin WE, Murphy RC, Shu HB, Dai S, and Zhang G* (2003). Ligand-receptor binding revealed by the TNF family member TALL-1. Nature 423:49-56.
18. Wu M, Xu L, Zhai Z, Shu HB* (2003). SINK: a p65-interacting protein that negatively regulates NF-B-dependent transcription. J Biol Chem 278:27072-27079.
19. Bin L, Xu L, Shu HB* (2003). TIRP: a novel TIR domain-containing adapter protein involved in toll/interleukin-1 receptor signaling. J Biol Chem 27:24526-24532.
20. Bin L, Nielson LD, Liu X, Mason RJ, Shu HB* (2003). Identification of UGRP1 and MARCO as a lung-specific ligand-receptor pair. J Immunol 171:924-930.
21. Zhang J, Xu LG, Han KJ, Shu HB* (2004). Identification of a ZU5 and death domain containing inhibitor of NF-B. J Biol Chem 279:17819-17825.
22. Han KJ, Su X, Xu LG, Bin LH, Zhang J, Shu HB* (2004). Mechanisms of TRIF-induced ISRE and NF-kappa B activation and apoptosis pathways. J Biol Chem 279:15652-15661.
23. Huang J, Teng L, Li L, Liu T, Li L, Chen D, Xu LG, Zhai Z, Shu HB* (2004). ZNF216 is an A20-like and IKKgamma-interacting inhibitor of NF-kappa B activation. J Biol Chem 279:16847-16853.
24. Xu LG, Li LY, Shu HB* (2004). TRAF7 potentiates MEKK3-induced AP1 and CHOP activation and induces apoptosis. J Biol Chem 279:17278-17282.
25. Wang YY, Li L, Han KJ, Zhai Z, Shu HB* (2004). A20 is a potent inhibitor of TLR3- and Sendai virus-induced activation of NF-B and ISRE and IFN-beta promoter. FEBS Lett 576: 86-90.
26. Li L, Bin LH, Li F, Liu Y, Chen D, Zhai Z, Shu HB* (2005). TRIP6 is a RIP2-associated common signaling component of multiple NF-B activation pathways. J Cell Sci 118:555-563.
27. Xu LG, Wang YY, Han KJ, Li LY, Zhai Z, Shu HB* (2005). VISA is an adapter protein required for virus-triggered signaling. Mol Cell 19:727-740.
28. Huang J, Liu T, Chen D, Zhai Z, Shu HB* (2005). SIKE is an IKK-relative kinases-associated suppressor of TLR3- and virus-triggered IRF-3 activation pathways. EMBO J 24:4018-4028.
29. Zha FK, Han K, Xu LG, Zhou Q, Chen D, Zhai Z, Shu HB* (2006). The Ret finger protein inhibits signaling mediated by the noncanonical and canonical IKK family members. J Immunol 176:1072-1080.
30. Tian Y, Zhang Y, Zhong B, Wang YY, Diao FC, Wang RP, Zhang M, Chen DY, Zhai ZH, Shu HB* (2007). RBCK1 negatively regulates tumor necrosis factor- and interleukin-1-triggered NF-kappaB activation by targeting TAB2/3 for degradation. J Biol Chem 282:16776-16782.
31. Diao F, Li S, Tian Y, Zhang M, Xu LG, Zhang Y, Wang RP, Chen D, Zhai Z, Zhong B, Tien P, Shu HB* (2007). Negative regulation of MDA5- but not RIG-I-mediated innate antiviral signaling by the dihydroxyacetone kinase. P Natl Acad Sci USA 104:11706-11711.
32. Zhang BC, Huang J, Li HL, Liu T, Wang YY, Waterman P, Mao AP, Xu LG, Zhai Z, Liu D, Marrack P, Shu HB* (2008). GIDE is a mitochondrial E3 ubiquitin ligase that induces apoptosis and slows growth. Cell Res 18:900-910.
33. Zhong B, Yang Y, Li S, Wang YY, Li Y, Diao F, Lei C, He X, Zhang L, Tien P, Shu HB* (2008). The Adaptor Protein MITA Links Virus-Sensing Receptors to IRF3 Transcription Factor Activation. Immunity 29:538-550.
34. Zhang M, Tian Y, Wang RP, Gao D, Zhang Y, Diao FC, Chen DY, Zhai ZH, Shu HB* (2008). Negative feedback regulation of cellular antiviral signaling by RBCK1-mediated degradation of IRF3. Cell Res 18:1096-1104.
35. Zhong B, Zhang L, Lei Z, Li Y, Mao AP, Yang Y, Wang YY, Zhang XL, Shu HB* (2009). RNF5 negatively regulates virus-induced IRF3 activation via ubiquitination and degradation of MITA. Immunity 30:397-407.
36. Li Y, Li C, Xue P, Zhong B, Mao AP, Ran Y, Chen H, Wang YY, Yang F, Shu HB* (2009). ISG56 is a negative feedback regulator of virus-triggered signaling and cellular antiviral response. P Natl Acad Sci USA 106:7945-7950.
37. Wang YY, Liu LJ, Zhong B, Liu TT, Li Y, Yang Y, Ran Yong, Li S, Tien P, Shu HB* (2010). WDR5 is essential for assembly of the VISA-associated signaling complex and virus-triggered IRF3 and NF-B activation. P Natl Acad Sci USA 107:815-820.
38. Li S, Zheng H, Mao AP, Zhong B, Li Y, Liu Y, Gao Y, Ran Y, Tien P, Shu, HB* (2010). Regulation of virus-triggered signaling by OTUB1- and OTUB2-mediated deubiquitination of TRAF3 and TRAF6. J Biol Chem 285:4291-4297.
39. Mao AP, Li S, Zhong B, Li Y, Yan J, Li Q, Teng C, Shu HB* (2010). Virus-triggered ubiquitination of TRAF3/6 by cIAP1/2 is essential for induction of interferon-beta (IFN-beta) and cellular antiviral response. J Biol Chem 285:9470-9476.
40. Han KJ, Yang Y, Xu LG, Shu HB* (2010). Analysis of a TIR-less splice variant of TRIF reveals an unexpected mechanism of TLR3-mediated signaling. J Biol Chem 285:12543-12550.
41. Zhong B, Zhang Y, Tan B, Liu TT, Wang YY, Shu HB* (2010). The E3 ubiquitin ligase RNF5 targets virus-induced signaling adaptor for ubiquitination and degradation. J Immunol 184:6249-6255.
42. Chen R, Zhang L, Zhong B, Tan B, Liu Y, Shu HB* (2010). The ubiquitin-specific protease 17 is involved in virus-triggered type I IFN signaling. Cell Res 20:802-811.
43. Lei CQ, Zhong B, Zhang Y, Zhang J, Shu HB* (2010). GSK3 regulates virus-triggered IRF3 activation and cellular antiviral response by promoting TBK1 activation. Immunity 33:878-889.
44. Ran Y, Liu TT, Zhou Q, Li S, Mao AP, Li Y, Liu LJ, Cheng JK, Shu HB* (2011). SENP2 negatively regulates cellular antiviral response by deSUMOylating IRF3 and conditioning it for ubiquitination and degradation. J Mol Cell Biol. 2:283-292.
45. Li Q, Yan J, Mao AP, Li C, Ran Y, Shu HB*, Wang YY* (2011). Tripartite motif 8 (TRIM8) modulates TNF- and IL-1-triggered NF-B activation by targeting TAK1 for K63-linked polyubiquitination. P Natl Acad Sci USA 108:19341-19346.
46. Liu LJ, Liu TT, Ran Y, Li Y, Zhang XD, Shu HB*, Wang YY* (2012). The E3 ubiquitin ligase MIB1 negatively regulates basal IB level and modulates NF-B activation. Cell Res 22:603-606.
47. Liu Y, Song R, Gao Y, Li Y, Wang S, Liu HY, Wang Y, Hu YH, Shu HB* (2012). Protein kinase C-δ negatively regulates T cell receptor-induced NF-kB activation by inhibiting the assembly of CARMA1 signalosome. J Biol Chem 287:20081-20087.
48. Li Y, Chen R, Zhou Q, Xu Z, Li C, Wang S, Mao A, Zhang X, He W, Shu HB* (2012). LSm14A is a processing body-associated sensor of viral nucleic acids that initiates cellular antiviral response in the early phase of viral infection. P Natl Acad Sci USA 109:11770-11775.
49. Wang YY, Ran Y, Shu HB* (2012).Linear ubiquitination of NEMO brakes the antiviral response.Cell Host Microbe 12:129-131.
50. Zhang J, Hu MM, Wang YY, Shu HB* (2012). TRIM32 protein modulates type I interferon induction and cellular antiviral response by targeting MITA/STING protein for K63-linked ubiquitination. J Biol Chem 287:28646-28655.
51. Chen R, Li M, Zhang Y, Zhou Q, Shu HB* (2012). The E3 ubiquitin ligase MARCH8 negatively regulates IL-1β-induced NF-κB activation by targeting the IL1RAP coreceptor for ubiquitination and degradation. P Natl Acad Sci USA 109:14128-14133.
52. Zheng H, Li Q, Chen R, Zhang J, Ran Y, He X, Li S, Shu HB* (2013).Dual-specificity phosphatase 14 (DUSP14) negatively regulates TNF-a and IL-1-induced NF-κB activation by dephosphorylating the protein kinase TAK1. J Biol Chem 288:819-825.
53. He X, Li Y, Li C, Liu LJ, Zhang XD, Liu Y*, Shu HB*(2013). USP2a negatively regulates IL-1-and virus-induced NF-B activation by deubiquitinating TRAF6. J Mol Cell Biol 5: 39-47.
54. Yang Y, Liao B, Wang SY, Yan BR, Jin Y, Shu HB, Wang YY*(2013). E3 ligase WWP2 negatively regulates TLR3-mediated innate immune response by targeting TRIF for ubiquitination and degradation. P Natl Acad Sci USA 110:5115-5120.
55. Chen H, Li Y, Zhang J, Ran Y, Wei J, Yang Y, Shu HB*(2013) .RAVER1 is a coactivator of MDA5-mediated cellular antiviral response. J Mol Cell Biol 5: 111-119.
56. Lei CQ, Zhang Y, Xia T, Jiang LQ, Zhong B, Shu HB*(2013). FoxO1 Negatively Regulates Cellular Antiviral Response by Promoting Degradation of IRF3. J Biol Chem 288: 12596-12604.
57. Li C, Wei J, Li Y, He X, Zhou Q, Yan J, Zhang J, Liu Y, Liu Y , Shu HB* (2013) . Transmembrane Protein 214 (TMEM214) Mediates Endoplasmic Reticulum Stress-induced Caspase 4 Enzyme Activation and Apoptosis. J Biol Chem 288: 17908-17917.
58. Hu MM, Yang Q, Zhang J, Liu SM, Zhang Y, Lin H, Huang ZF, Wang YY, Zhang XD, Zhong B, Shu HB*(2014). TRIM38 inhibits TNFα- and IL-1β-triggered NF-κB activation by mediating lysosome-dependent degradation of TAB2/3. P Natl Acad Sci USA. 111:1509-1514.
59. Yan J, Li Q, Mao AP, Hu MM, Shu HB*(2014). TRIM4 modulates type I interferon induction and cellular antiviral response by targeting RIG-I for K63-linked ubiquitination. J Mol Cell Biol. 6:154-163.
60. Zhang Y, Lei CQ, Hu YH, Xia T, Li M, Zhong B, Shu HB*(2014). Kruppel-like Factor 6 Is a Co-activator of NF-κB That Mediates p65-dependent Transcription of Selected Downstream Genes. J Biol Chem. 289:12876-12885.
61. Qin Y, Zhou MT, Hu MM ,Hu YH, Zhang J, Guo L, Zhong B, Shu HB*(2014). RNF26 temporally regulates virus-triggered type I interferon induction by two distinct mechanisms. Plos Pathog.10:e1004358.
62. Zhou Q, Lin H, Wang SY, Wang S, Ran Y, Liu Y, Ye W, Xiong XZ, Zhong B, Shu HB*, Wang YY*(2014). The ER-associated protein ZDHHC1 is a positive regulator of DNA virus-triggered, MITA/STING-dependent innate immune signaling. Cell Host Microbe. 16:450-461.
63. Ran Y, Shu HB, Wang YY*(2014). MITA/STING: A central and multifaceted mediator in innate immune response. Cytokine & Growth F R. 25: 631-639.
64. Shu HB*, Wang YY*(2014). Adding to the STING. Immunity. 41:871-873.
65. Wei J, Lian H, Zhong B, Shu HB*(2015). Parafibromin Is a Component of IFN-γ-Triggered Signaling Pathways That Facilitates JAK1/2-Mediated Tyrosine Phosphorylation of STAT1. J Immunol. 195 : 2870-2878.
66. Hu MM, Xie XQ, Yang Q, Liao CY, Ye W, Lin H, Shu HB*(2015).TRIM38 Negatively Regulates TLR3/4-Mediated Innate Immune and Inflammatory Responses by Two Sequential and Distinct Mechanisms. J Immunol. 195: 4415-4425.
67. Li S, Zhu M, Pan R, Fang T, Cao YY, Chen S, Zhao X , Lei CQ, Guo L, Chen Y, Li CM, Jokitalo E, Yin Y, Shu HB, Guo D*(2016). The tumor suppressor PTEN has a critical role in antiviral innate immunity. Nat Immunol. 17(3):241-249.
68. Xu ZS, Zhang HX, Zhang YL , Liu TT, Ran Y, Chen LT , Wang YY, Shu HB*(2016). PASD1 promotes STAT3 activity and tumor growth by inhibiting TC45-mediated dephosphorylation of STAT3 in the nucleus. J Mol Cell Biol. 8: 221-231.
69. Liu TT, Yang Q, Li M, Zhong B, Ran Y, Liu LL, Yang Y, Wang YY, Shu HB*(2016).LSm14A Plays a Critical Role in Antiviral Immune Responses by Regulating MITA Level in a Cell-Specific Manner. J Immunol. 196: 5101-5111.
70. Chen LT, Hu MM, Xu ZS, Liu Y, Shu HB*(2016). MSX1 Modulates RLR-Mediated Innate Antiviral Signaling by Facilitating Assembly of TBK1-Associated Complexes. J Immunol. 197: 199-207.
71. Luo WW, Li S, Li C , Lian H, Yang Q, Zhong, B, Shu, HB*(2016). iRhom2 is essential for innate immunity to DNA viruses by mediating trafficking and stability of the adaptor STING. Nat. Immunol. 17: 1057-1066.
72. Hu MM, Yang Q, Xie XQ, Liao CY, Lin H, Liu TT, Yin L, Shu HB*(2016). Sumoylation Promotes the Stability of the DNA Sensor cGAS and the Adaptor STING to Regulate the Kinetics of Response to DNA Virus. Immunity. 45: 555-569.
73. Fu YZ, Su S, Gao YQ, Wang PP, Huang ZF, Hu MM, Luo WW, Li S, Luo MH, Wang YY, Shu HB*(2017). Human Cytomegalovirus Tegument Protein UL82 Inhibits STING-Mediated Signaling to Evade Antiviral Immunity. Cell Host Microbe. 21(2):231-243.
74. Hu MM, Liao CY, Yang Q, Xie XQ, Shu HB*(2017). Innate immunity to RNA virus is regulated by temporal and reversible sumoylation of RIG-I and MDA5. J Exp Med. 214(4):973-989.
75. Hu MM, Shu HB*(2017). Multifaceted roles of TRIM38 in innate immune and inflammatory responses. Cell Mol Immunol. 14(4):331-338.
76. Ye W, Hu MM, Lei CQ, Zhou Q, Lin H, Sun MS, Shu HB*(2017). TRIM8 Negatively Regulates TLR3/4-Mediated Innate Immune Response by Blocking TRIF-TBK1 Interaction. J Immunol. 199(5):1856-1864.
77. Yang Q, Liu TT, Lin H, Zhang M, Wei J, Luo WW, Hu YH, Zhong B, Hu MM, Shu HB*(2017). TRIM32-TAX1BP1-dependent selective autophagic degradation of TRIF negatively regulates TLR3/4-mediated innate immune responses. PLoS Pathog. 13(9):e1006600.
78. Yan BR, Zhou L, Hu MM, Li M, Lin H, Yang Y, Wang YY, Shu HB*(2017). PKACs attenuate innate antiviral response by phosphorylating VISA and priming it for MARCH5-mediated degradation. PLoS Pathog. 13(9):e1006648.
79. Luo WW, Li S*, Li C, Zheng ZQ, Cao P, Tong Z, Lian H, Wang SY, Shu HB, Wang YY*(2017). iRhom2 is essential for innate immunity to RNA virus by antagonizing ER- and mitochondria-associated degradation of VISA. PLoS Pathog. 13: e1006693.
80. Wei J, Guo W, Lian H, Yang Q, Lin H, Li S*, Shu HB*(2017). SNX8 mediates IFNγ-triggered noncanonical signaling pathway and host defense against Listeria monocytogenes. PNAS. 114:13000-13005.
81. Hu MM, Shu HB*(2018). Cytoplasmic Mechanisms of Recognition and Defense of Microbial Nucleic Acids. Annu Rev Cell Dev Biol. 34:357-379.
82. Luo WW, Shu HB*(2018). Delicate regulation of the cGAS-MITA-mediated innate immune response. Cell Mol Immunol. 15:666-675.
83. Lian H, Wei J, Zang R, Ye W, Yang Q, Zhang XN, Chen YD, Fu YZ, Hu MM, Lei CQ, Luo WW, Li S*, Shu HB*(2018). ZCCHC3 is a co-sensor of cGAS for dsDNA recognition in innate immune response. Nat Commun. 9: 3349
84. Zhang HX, Xu ZS, Lin H, Li M, Xia T, Cui KS, Wang SY, Li YJ, Shu HB*, Wang YY*(2018). TRIM27 mediates STAT3 activation at retromer-positive structures to promote colitis and colitis-associated carcinogenesis. Nat Commun. 9: 3441
85. Lian H, Zang R, Wei J, Ye W, Hu MM, Chen YD, Zhang XN, Guo Y, Lei CQ, Yang Q, Luo WW, Li S*, Shu HB*(2018). The Zinc-Finger Protein ZCCHC3 Binds RNA and Facilitates Viral RNA Sensing and Activation of the RIG-I-like Receptors. Immunity. 49: 438-+.
86. Wei J, Lian H, Guo W, Chen YD, Zhang XN, Zang R, Zhong L, Yang Q, Hu MM, Luo WW, Shu HB*, Li S*(2018). SNX8 modulates innate immune response to DNA virus by mediating trafficking and activation of MITA. PLoS Pathog.14: 10
87. Lin H, Gao D , Hu MM, Zhang M, Wu XX, Feng L, Xu WH, Yang Q, Zhong X, Wei J, Xu ZS, Zhang HX, Song ZM, Zhou Q, Ye W, Liu Y, Li S, Shu HB*(2018). MARCH3 attenuates IL-1 beta-triggered inflammation by mediating K48-linked polyubiquitination and degradation of IL-1RI. PNAS. 115: 12483-12488.
88. Hu MM, He WR, Gao P, Yang Q, He K, Cao LB, Li S, Feng YQ, Shu HB* (2019). Virus-induced accumulation of intracellular bile acids activates the TGR5-β-arrestin-SRC axis to enable innate antiviral immunity. Cell Res. 29(3):193-205.
人才培养
据2020年3月武汉大学官网显示,舒红兵先后培养了50余名
博士研究生,其中3人获得全国百篇优秀博士学位论文奖,多人成长为国家杰青、青年拔尖人才。
荣誉表彰
社会任职
个人生活
1967年,舒红兵生于重庆市荣昌县的一个偏远农村。家境贫寒的他,直到读中学都买不起一双鞋,不得不赤脚上学,当时最大的愿望就是吃饱饭。
人物评价
舒红兵为了解细胞抗病毒反应、相关免疫疾病的分子机制做出了重要贡献。(中国科学院评)
舒红兵有着对科研无限热爱,以及严谨勤奋的治学态度。(《
人民日报》评)