发布日期:2024-09-07 09:19 点击次数:184
为撑握医学院从属第一东说念主民病院(上海市第一东说念主民病院)上风要点学科的健康快速发展人妖 丝袜,聚焦学科要点病种诊治接头场合,拟诱惑、凝华、培养一批高级次、高水平的生命科学与医学接头界限的优秀东说念主才,打造一支高水平的专职科学接头军队。
我院脾气学科宽广、影响力大,包括眼部疾病国度临床医学接头中心、泌尿外科、骨科、消化科、心内科、普外科、血液科、急诊危重病科、内分泌代谢科、辐照科、临床药学科、麻醉科等,尤其是在眼部神经和血管性疾病、泌尿系统、消化系统肿瘤、血液肿瘤、脓毒血症、代谢性疾病以及影像会诊、免疫和细胞调养本事等界限,亟需高端优秀后生科研东说念主才加盟,聚焦临床疾病诊疗需乞降本事蜕变,与临床团队合作开展具有学术和临床价值的接头。
一、
东说念主才待遇
1.薪酬:国度级东说念主才A档,年薪135万 + 20万年度奖励;国度级东说念主才B档,年薪90万 + 12万年度奖励;课题组终年薪60-80万 + 年终绩效;后生课题组终年薪40-65万 + 年终绩效。
2.安家费:国度级东说念主才A档,安家费400-500万;国度级东说念主才B档,安家费300万;课题组长(国际引进)安家费100万。
3.启动经费:国度级东说念主才A档,院内启动经费400-600万;国度级东说念主才B档,院内启动经费250-400万,后生课题组长院内启动经费150万。
4.团队配置:国度级东说念主才A档,配置1-2个团队,每团队4东说念主;国度级东说念主才B档,配置2-4名职责主说念主员;后生课题组长配置1名职责主说念主员。各级各类东说念主才招收博士后限额不限,薪酬待遇主要由病院支付。
5.其他支握:
5.1提供行状单元编制,按照上海市相干计谋办理落户;
5.2为央求东说念主子女措置腹地区最优质入托或就学,全力协助措置鸳侣职责;
5.3依称疾院优质医疗资源,提供免费医疗体检与职工就医福利。
6.科研奖励:按照《上海市第一东说念主民病院科技奖励治理条例》礼貌实施。
二、
配套条目
标配办公场面、实验场面和民众实验门径开荒平台。
三、
彩选门径
国度级东说念主才A档、B档走绿色通说念口试、面谈;
课题组长近五年以首要第一作家(名递次一)或首要通信作家(名次终末)在国际顶级学术期刊上发表论著1篇或者其迫切子刊上发表2-3篇,并以首要通信作家(名次终末)发表的SCI收录论著不少于5-8篇;且承担过国度级课题不少于2-3项(国际引进东说念主才无课题硬性要求);
后生课题组终年纪小于40周岁,近五年以首要第一作家(名递次一)或首要通信作家(名次终末)在国际顶级学术期刊上发表论著1篇或者其迫切子刊上发表1-2篇;且承担国度级课题不少于1项(国际引进东说念主才无课题硬性要求);
具备团队合作精神和积极主动对接临床团队、开展临床疾病为导向的滚动医学接头的意愿
四、
应聘材料
个东说念主简历(包括高中起的学习职责阅历、科研阅历及取得的学术服从);
代表性论文全文,毕业证、学位证复印件;
拟开展的接头议论。
我院遥远招聘优秀后生东说念主才,妥当上述条目的应聘者,将应聘材料发送至邮箱honglin.wang@sjtu.edu.cn和shiyirsc@163.com,邮件主题注明“应聘高端东说念主才-姓名”。本招聘告白常年灵验,系数材料将严格守秘,不予退还,敬请交融。
上海市第一东说念主民病院临床接头院诚聘助理接头员及博士后
(遥远灵验、随时口试)
一、
助理接头员招聘要求
1.1 岗亭职责:
在课题组长指挥下独处开展科学接头,承担实验室的正常治理以及学生的带教职责,独处央求包括国当然后生课题在内的各级各类科研基金并撰写发表学术论文。
1.2 岗亭要求:
(1)获取免疫学、分子生物学、细胞生物学、生厌世学、化学生物学、生物信息学、生物医学工程、材料学、药学、医学等相干专科博士学位;
(2)在国表里获取博士学位不向上三年,品学兼优,肉体健康,原则上年纪在35周岁以下的非在任东说念主员,应届生、博士后出站优先;
(3)以第一作家(名递次一)发表中科院分区2区及以上SCI论著不少于一篇。
(4)具有较强的英文传奇读写能力,熟悉阅读英文文件;
(5)宠爱生物医学接头,职责发达严谨,有牵累心,具备独处承担课题的能力,精熟的雷同、融合能力,独处职责能力以及团队互助精神;
(6)校服国度相干法律法例及上海市第一东说念主民病院的各项礼貌轨制。
1.3 岗亭待遇:
(1)提供有竞争力的薪酬待遇,一事一议;
(2)科研奖励按照《上海市第一东说念主民病院科技奖励治理条例》礼貌实施;
(3)第一聘期内科研得益卓著者可晋升为后生PI。
二、
博士后招聘要求
2.1 岗亭要求:
(1)获取博士学位不向上3年,品学兼优,肉体健康,年纪一般不向上35周岁;
(2)近3年以第一作家发表≥1篇本专科界限中科院SCI分区2区及以上的论著,或获取国度当然科学基金神色1项。
2.2 岗亭待遇:
(1)享受五险一金;
(2)表露优秀可优先留院职责;
(3)出站留院后可申报交大医学院副接头员职称;
(4)提供有竞争力的薪酬待遇,出站评估优秀予以非凡优越奖励。
2.3 在站时刻可央求神色:
在站时刻可央求各级各类博士后神色。
三、
各招聘课题组概况如下
应聘材料请发送至 honglin.wang@sjtu.edu.cn 及感兴致课题组课题组长邮箱。
附各课题组注视先容:
一、
王宏林课题组
议论风物:honglin.wang@sjtu.edu.cn
1.简介:
王宏林 PhD
上海交通大学医学院 接头员、博士生导师
国度卓著后生基金获取者(2017)
科技部要点研发神色首席科学家(2020)
上海交通大学医学院从属第一东说念主民病院 临床接头院 推行副院长
上海交通大学医学院从属第一东说念主民病院 疑难疾病精确接头中心 主任
德国乌尔姆大学医学院 博士、博士后
上海交通大学 特聘锻真金不怕火
上海交通大学致远荣誉议论 导师
上海市特聘锻真金不怕火(东方学者)
上海市浦江东说念主才议论
上海市优秀学术带头东说念主
中国免疫学会皮肤免疫学分会 副主任委员
中华中医药学会免疫学分会 副主任委员
2.接头场合:
皮肤免疫学、神经免疫学、药物靶点发现与新药研发
3.原创性科研服从:
3.1 发现RNA病毒感染而非链球菌感染诱发银屑病的发生发展,这是银屑病病因学接头的迫切侵扰,为银屑病的积极防止和调养提供了全新念念路;
3.2 主握研发出选拔性阻止Th17细胞分化的自然候选药物小分子,该小分子获取全球自主常识产权(中国、好意思国、欧盟、日本授权发明专利),现已完成I期临床锻真金不怕火与调养银屑病的IIa期临床锻真金不怕火,行将开展调养白癜风的II期临床锻真金不怕火。该小分子有望成为我国自主研发、自主常识产权、First-in-Class调养银屑病、白癜风的国度I类新药;
3.3研发一款检测东说念主体免疫景色的流式细胞学试剂盒,可陋劣、快捷、准确地应用于东说念主体外周血样本。最终的居品在只取1毫升样本、耗时1小时、针对1个主要认识的条目下,准确评估东说念主体“免疫年纪与功能”。服从转让总金额6亿元东说念主民币,首期付款3000万元,创上海市医疗机构专利转让首批到账金额最高记载。
4.近5年代表性文章:
1)Xiangxiao Li, Fengjiao Zhang, Libo Sun, Xiaojie Cai, Fangzhou Lou, Yang Sun, Min Gao, Zhikai Wang, Sibei Tang, Li Fan, Yue Wu, Xinping Jin, Siyu Deng, Zhenyao Xu, Xuxu Sun, Qun Li, Honglin Wang*. scRNA-seq identifies WARS1+ mesenchymal stem cells with enhanced immunomodulatory capacity and improved therapeutic efficacy. Journal of Immunology. 2024 Aug 1;213(3):257-267. doi: 10.4049/jimmunol.2300752.
2)Tang S, Zhang J, Lou F, Zhou H, Wang Z, Sun L, Sun Y, Cai X, Li X, Fan L, Jin X, Deng S, Yin Q, Wang H, Wang H*. LncRNA Dleu2-Encoding Peptide Relieves Autoimmunity by Facilitating Smad3-mediated Regulatory T Cell Induction. EMBO Rep. 2024 Mar;25(3):1208-1232. doi: 10.1038/s44319-024-00070-4. Epub 2024 Jan 30.
3)Lou F, Xu Z, Bai J, Zhao X, Cui L, Li Q, Wang H*. Identification and pre-clinical investigation of CKBA as a drug for external use to treat psoriasis. Br J Pharmacol. 2024;1-18. doi: 10.1111/bph.16253. PMID:37749894.
4)Tong J, Li Y, Cai X, Lou F, Sun Y, Wang Z, Zheng X, Zhou H, Zhang Z, Fang Z,Ding W, Deng S, Xu Z, Niu X, Wang H*. CKBA suppresses mast cell activation viaERK signaling pathway in murine atopic dermatitis. Eur J Immunol. 2023 Sep;53(9):e2350374. doi: 10.1002/eji.202350374. Epub 2023 Jul 7. PMID: 37417726.
5)Cai X, Han M, Lou F, Sun Y, Yin Q, Sun L, Wang Z, Li X, Zhou H, Xu Z, Wang H,Deng S, Zheng X, Zhang T, Li Q, Zhou B, Wang H*. Tenascin C+ papillaryfibroblasts facilitate neuro-immune interaction in a mouse model of psoriasis. Nat Commun. 2023 Apr 10;14(1):2004. doi: 10.1038/s41467-023-37798-x. PMID:37037861; PMCID: PMC10086024.
6)Wang Z, Sun Y, Lou F, Bai J, Zhou H, Cai X, Sun L, Yin Q, Tang S, Wu Y, FanL, Xu Z, Wang H, Hu X, Wang H*. Targeting the transcription factor HES1 byL-menthol restores protein phosphatase 6 in keratinocytes in models ofpsoriasis. Nat Commun. 2022 Dec 19;13(1):7815. doi: 10.1038/s41467-022-35565-y.PMID: 36535970; PMCID: PMC9763329.
7)Zhou H, Lou F, Bai J, Sun Y, Cai W, Sun L, Xu Z, Liu Z, Zhang L, Yin Q, ZhangJ, Gao Y, Wang Z, Niu L, Cai X, Deng S, Wang H, Xia L, Ginhoux F, Li Q, Wang H*. A peptide encoded by pri-miRNA-31 represses autoimmunity by promoting Treg differentiation. EMBO Rep. 2022 May 4;23(5): e53475. doi:10.15252/embr.202153475. Epub 2022 Mar 28. PMID: 35343645; PMCID: PMC9066071.
福建兄妹8)Yin Q, Sun L, Cai X, Lou F, Sun Y, Wang B, Jiang B, Bao L, Li X, Song N, TangS, Bai J, Wang Z, Wu Y, Zhou H, Wang H, Yu B, Li Q, Wang H*. Lidocaine Ameliorates Psoriasis by Obstructing Pathogenic CGRP Signaling‒Mediated Sensory Neuron‒Dendritic Cell Communication. J Invest Dermatol. 2022Aug;142(8):2173-2183.e6. doi: 10.1016/j.jid.2022.01.002. Epub 2022 Jan 12. PMID:35032503.
9)Chen L, Bai J, Peng D, Gao Y, Cai X, Zhang J, Tang S, Niu L, Sun Y, Lou F, Zhou H, Yin Q, Wang Z, Sun L, Du X, Xu Z, Wang H, Li Q, Wang H*. SZB120 Exhibits Immunomodulatory Effects by Targeting eIF2α to Suppress Th17 Cell Differentiation. J Immunol. 2021 Mar 1;206(5):953-962. doi:10.4049/jimmunol.2000036. Epub 2021 Jan 22. PMID: 33483349; PMCID: PMC7887737.
10)Wei Cai, Junxun Zhang, Hong Zhou, Xiangxiao Li, Fangzhou Lou, Yang Sun, Zhenyao Xu, Jing Bai, Qianqian Yin, Zhikai Wang, Libo Sun, Xiaojie Cai, Sibei Tang, Yue Wu, Li Fan, Hong Wang, Honglin Wang*, Qun Li. Protein phosphatase 6 (Pp6) is crucial for regulatory T cell function and stability in autoimmunity. Genes and diseases. 2021 Aug 17;9(2):562-575. doi: 10.1016/j.gendis.2021.07.005. eCollection 2022 Mar.
11)Niu L, Lou F, Sun Y, Sun L, Cai X, Liu Z, Zhou H, Wang H, Wang Z, Bai J, YinQ, Zhang J, Chen L, Peng D, Xu Z, Gao Y, Tang S, Fan L, Wang H*. A micropeptide encoded by lncRNA MIR155HG suppresses autoimmune inflammation via modulatingantigen presentation. Sci Adv. 2020 May 20;6(21): eaaz2059. doi:10.1126/sciadv. aaz2059. PMID: 32671205; PMCID: PMC7314557.
12)Lou F, Sun Y, Xu Z, Niu L, Wang Z, Deng S, Liu Z, Zhou H, Bai J, Yin Q, CaiX, Sun L, Wang H, Li Q, Wu Z, Chen X, Gu J, Shi YL, Tao W, Ginhoux F, Wang H*. Excessive Polyamine Generation in Keratinocytes Promotes Self-RNA Sensing by Dendritic Cells in Psoriasis. Immunity. 2020 Jul 14;53(1):204-216.e10. doi: 10.1016/j.immuni.2020.06.004. Epub 2020 Jun 17. PMID: 32553276.
13)Danhong Peng, Linjiao Chen, Yang Sun, Libo Sun, Qianqian Yin, Siyu Deng, Liman Niu, Fangzhou Lou, Zhikai Wang, Zhenyao Xu, Conghui Wang, Li Fan, Hong Wang, Honglin Wang*. Melanoma suppression by quercein is correlated with RIG-I and type I interferon signaling. Biomedicine & Pharmacotherapy. 2020 May:125: 109984. doi: 10.1016/j.biopha.2020.109984. Epub 2020 Feb 25.
5.承担的课题:
团队自2009年组建以来,获取国度当然科学基金卓著后生基金、科技部要点研发议论议论、国度当然科学基金要点神色、国度当然科学基金紧要接头议论、国度当然科学基金面上神色等多项资助,总经费逾4200万。
6.授权专利:
☟陡立滑动巡逻更多
二、
董淑娴课题组
议论风物:dongshuxian@sjtu.edu.cn
1. 简介:
董淑娴 PhD
上海交通大学医学院 接头员、博士生导师
上海交通大学医学院从属第一东说念主民病院 课题组长、PI
国度国际优秀后生科学基金获取者(2021)
科技部要点研发议论后生神色首席科学家(2021)
上海市浦江东说念主才
好意思国爱因斯坦医学院副接头员,博士后
好意思国斯隆凯特琳癌症中心博士后
2.接头场合:
干细胞调控生物学、软弱
3.原创性科研服从:
3.1 发现了分子伴侣介导的自噬(CMA)在造血干细胞激活及软弱中的关键调控作用;
3.2 蜕变性的构建了展示分子伴侣介导的自噬(CMA)的荧光答复小鼠,并到手分析了CMA活性在体内的时空变化;
3.3 揭示了卵白酶体降解系统和溶酶体降解系统的互相作用,发现卵白酶体激活因子REGγ不错通过调控去乙酰化酶SirT1 而调度巨自噬 (Macro-autophagy) 的开关,从而达到调控肝脏脂肪代谢的认识。
4.近5年代表性文章:
1)Dong S, Wang Q, Kao YR, Diaz A, Tasset I, Kaushik S, Zintiridou A, Nieves E, D’Angelo A, Will B, Cuervo AM. Chaperone-mediated autophagy sustains hematopoietic stem cell function. Nature, 2021, 591(7848): 117-123.
2)Dong S, Aguirre-Hernandez C, Scrivo A, Eliscovich C, Arias E, Bravo-Cordero JJ, Cuervo AM. Monitoring spatiotemporal changes in chaperone-mediated autophagy in vivo. Nature Communication, 2020.
3)Wei, Q., Pinho, S., Dong, S. et al. MAEA is an E3 ubiquitin ligase promoting autophagy and maintenance of haematopoietic stem cells. Nat Commun 12, 2522 (2021).
4)Gomez-Sintes R, Xin Q, Jimenez-Loygorri JI, McCabe M, Diaz A, Garner TP, Cotto-Rios XM, Wu Y, Dong S, Reynolds CA, Patel B, de la Villa P, Macian F, Boya P, Gavathiotis E, Cuervo AM. Targeting NCoR-RARainteraction activates chaperone-mediated autophagy and protects against retinal degeneration. Nat Commun. 2022 Jul 21;13(1):4220.
5)Kaushik S, Juste YR, Lindenau K, Dong S, Macho-González A, Santiago-Fernández O, McCabe M, Singh R, Gavathiotis E, Cuervo AM. Chaperone-mediated autophagy regulates adipocyte differentiation. Sci Adv. 2022 Nov 18;8(46):eabq2733.
6)Shuxian Dong, Britta Will, Ana Maria. Cuervo. Chaperone-mediated autophagy sustains hematopoietic stem cell function. Blood. Volume 134, Issue Supplement_1. November 13 2019
7)Lianlui S, Guangjian F, Peipei S, Xiaoying Q, Shuxian D., et al., Regulation of energy homeostasis by the ubiquitin-independent REGgamma proteasome. Nat Commun, 2016. 7: p. 12497
8)Yarui An, Ying Fu, Danqin Lu, Ya Wang, Wenji Bi, Zhiai Xu, Dong S., Zhang S. , et al., A TiO2-Au-polymer hybrid system for photoelectrochemical immunoassay of SirT1. J. Mater. Chem. B, 2014,2, 1644-1652
9)Dong S., Jia C., Zhang S., Fan G., Li Y., Shan P., Sun L., Xiao W., Li L., Zheng Y., et al., The REGgamma Proteasome Regulates Hepatic Lipid Metabolism through Inhibition of Autophagy. Cell Metab, 2013. 18(3): p. 380-91.
5.承担的课题:
1.2021年度科技部国要点研发后生神色首席科学家:2021YFA1102300,499万
2.2021年度国度国际优秀后生基金神色,300万
3.2021年度浦江东说念主才(A类)议论神色:21PJ1412200,30万
4.2023年国度当然科学基金面上神色 82270169,2023.01-2026.12,52万,神色负责东说念主
5.2023年上海市原创探索神色 23ZR1480500,2023.04-2026.03, 50万,神色负责东说念主
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三、
蒋冬生课题组
议论风物:dongsheng.jiang@shgh.cn
1.简介:
蒋冬生 PhD
上海交通大学医学院 接头员、博士生导师
上海交通大学医学院从属第一东说念主民病院 课题组长、PI
国度国际优秀后生科学基金获取者(2021)
上海领军东说念主才国际后生神色获取者(2021)
新加坡国立大学 学士
新加坡国立大学 博士
德国乌尔姆大学 博士后
德国亥姆霍兹慕尼黑接头中心,再生生物和医学接头所 后生PI、副长处
2.接头场合:
创面愈合与再生、疤痕变成机制与疤痕竖立
3.原创性科研服从:
1)从成纤维细胞异质性的角度阐释了疤痕的成因,为防止疤痕的变成提供了全新的调养念念路(Nat Cell Biol 2018);
2)修正了疤痕变成的传统不雅念,创举性地揭示了皮下筋膜是疤痕组织的主要起首(Nature 2019);
3)用活体成像本事展示疤痕的变成进程和其细胞分子机制,为疤痕接头提供了一个全新的时空维度视角(Nat Commun 2020);
4)建立创面和疤痕组织外植体模子和转基因小鼠模子,优化了疤痕机制接头进程中触及体内、外实验的模子(Nat Commun 2023)。
4.近5年代表性文章:
1) Correa-Gallegos D#, Jiang D#, Christ S, Ramesh P, Ye H, Wannemacher J, Kalgudde Gopal S, Yu Q, Aichler M, Walch A, Mirastschijski U, Volz T, Rinkevich Y. (2019). Patch repair of deep wounds by mobilized fascia. Nature 576(7786): 287-292.
2)Jiang D, Correa-Gallegos D, Christ S, Stefanska A, Liu J, Ramesh P, Rajendran V, De Santis MM, Wagner DE, Rinkevich Y. (2018). Two succeeding fibroblastic lineages drive dermal development and the transition from regeneration to scarring. Nat Cell Biol 20(4): 422-431.
3)Kalgudde Gopal S#, Dai R#, Stefanska AM, Ansari M, Zhao J, Ramesh P, Bagnoli J W, Correa-Gallegos D, Lin Y, Christ S, Angelidis I, Lupperger V, Marr C, Davies LC, Enard W, Machens HG, Schiller HB*, Jiang D*, Rinkevich Y*. (2023). Wound infiltrating adipocytes are not myofibroblasts. Nat Commun 14: 3020.
4)Jiang D, Christ S, Correa-Gallegos D, Ramesh P, Kalgudde Gopal S, Wannemacher J, Mayr CH, Lupperger V, Yu Q, Ye H, Mück-Häusl M, Rajendran V, Wan L, Liu J, Mirastschijski U, Volz T, Marr C, Schiller HB, Rinkevich Y. (2020). Injury triggers fascia fibroblast collective cell migration to drive scar formation through N-cadherin. Nat Commun 11: 5653.
5)Jiang D, Singh K, Muschhammer J, Schatz S, Sindrilaru A, Makrantonaki E, Qi Y, Wlaschek M, Scharffetter-Kochanek K. (2020). MSCs rescue impaired wound healing in a murine LAD1 model by adaptive responses to low TGF-beta1 levels. EMBO Rep 21(4): e49115.
于今60篇SCI论文: https://orcid.org/0000-0003-0961-2671
5.承担的课题:
团队于2023年12月组建,获取国度国际优秀后生科学基金、上海领军东说念主才(国际)等神色资助。
☟陡立滑动巡逻更多
四、
王俊课题组
议论风物:jwang03@sibs.ac.cn
1.简介
王俊 PhD
上海交通大学医学院 接头员、博士生导师
上海交通大学医学院从属第一东说念主民病院 课题组长、PI
国度高级次后生东说念主才(2022)
广东省当然科学基金杰青(2021)
中国科学院 博士
好意思国劳伦斯伯克利国度实验室、好意思国肯塔基大学博士后
2.接头场合
黏膜免疫、黏膜竖立、炎癌调动
3.原创性科研服从
3.1 发现感染促进重生儿肝脏自己免疫性B细胞前体扩增疏导胆说念闭锁,好意思罗华可灵验竖立患儿肝脏免疫稳态(Cell, 2020)。
3.2 发现胞内cAMP浓度枯竭是万般儿童炎症性肠病发病的共通机制, 通过使用一种泛PDE阻止剂潘生丁可灵验调养儿童炎症性肠病 (Cell, 2019)。接头服从获取2019年中国医学紧要进展。
4.近5年代表性文章 (#第一作家;*通信作家)
1)JunWang#, YanhuiXu#, ZhanghuaChen#, JiankunLiang#, ZefengLin#, HuiyingLiang#, YipingXu, QiWu, XuanjieGuo, JunliNie, BingtaiLu, BingHuang, HuifangXian, XiaohuiWang, QiangWu, JixiaoZeng, ChengweiChai, MeixueZhang, YuzhenLin, LiZhang, ShanmeiziZhao, YanluTong, XiaoqiongGu, LiangZeng, Zhuang-guiChen,ShuhongYi, TongZhang, DavidDelfouneso, YanZhang, StephenLNutt, AndrewMLew, LiweiLu, FanBai*, HuiminXia*, ZheWen*andYuxiaZhang*. Liverimmuneprofilingrevealspathogenesisandtherapeuticsforbiliaryatresia.Cell, 2020, 187(7):1867-1883.
2)BingHuang# , ZhanghuaChen# , LanlanGeng#, JunWang#, HuiyingLiang#, YujiaCao, HuanChen, WanmingHuang, MeilingSu, HanqingWang, YanhuiXu, YukunLiu, LuB, HuifangXian, HuiwenLi, HuilinLi, LuRen, JingXie, LipingYe, HongliWang, JunhongZhao, PeiyuChen, LiZhang, ShanmeiziZhaoS, TingZhang, BanglaoXu, DiChe, WenyueSi, XiaoqiongGu, LiangZeng , YongWang , DingyouLi, YifanZhan, DavidDelfouneso, AndrewM. Lew, JunCui, WaiHo. Tang, YanZhang, SitangGong*, FanBai*, MinYang*, YuxiaZhang*. MucosalProfilingofPediatric-OnsetColitisandIBDRevealsCommonPathogenicsandTherapeuticPathways. Cell, 2019;179(5):1160-1176.
3)HuahuaXu, GuihongPan, JunWang*. Repairingmechanismsfordistalairwayinjuriesandrelatedtargetedtherapeuticsforchroniclungdiseases. CellTransplantation, 2023, 32:1-16.
4)BingtaiLu#, MingLiu#, JunWang#, HuifengFan#, DiyuanYang, LiZhang, XiaoqiongGu, JunliNie, ZhenjunChen, AlexandraJ. Corbett, MichaelJ. Zhan, ShengboZhang, VanessaL. Bryant, AndrewM. Lew, JamesMcCluskey, Hai-binLuo, JunCui, YuxiaZhang*, YifanZhan*, GenLu*. IL-17 productionbytissue-residentMAITcellsislocallyinducedinchildrenwithpneumonia. MucosalImmunol., 2020; 13(5):824-835.
5)DalongSun, JingChen, LongziLiu, GuangxiZhao, PingpingDong, BingruiWu, JunWang*, LingDong*. Establishmentofa 12-geneexpressionsignaturetopredictcoloncancerprognosis. PeerJ, 2018, 6:e4942.
5.承担的课题
☟陡立滑动巡逻更多
五、
王义平课题组
议论风物:yiping.wang1@shgh.cn
1.简介:
王义平 PhD
上海交通大学医学院 副接头员
上海交通大学医学院从属第一东说念主民病院 课题组长、PI
国度优秀后生科学基金获取者(2023)
复旦大学 博士
哈佛大学/麻省总病院 博士后
中国科协后生东说念主才托举工程
上海市后生科技启明星
2.接头场合:
细胞代谢与东说念主类疾病
3.原创性科研服从:
3.1 肿瘤细胞感知代谢物调控线粒体生物发生以保管能量稳态;
3.2 线粒体代谢重塑调控细胞应激和表不雅遗传促进肿瘤发生发展;
4.近5年代表性文章:
1)Weiwei Yan#, Chengmei Xie#, Sijun Sun#, Quan Zheng#, Jingyi Wang, Zihao Wang, Cheuk-Him Man, Haiyan Wang, Yunfan Yang, Tianshi Wang, Leilei Shi, Shengjie Zhang*, Chen Huang*, Shuangnian Xu*, Yi-Ping Wang*.SUCLG1 restricts POLRMT succinylation to enhance mitochondrial biogenesis and leukemia progression. EMBO Jounal, 2024 已接受
2)Yi-Ping Wang, Azeem Sharda, Shuang-Nian Xu, Nick van Gastel, Cheuk Him Man, Una Choi, Wei Zhong Leong, Xi Li, David T Scadden*. Malic enzyme 2 connects the Krebs cycle intermediate fumarate to mitochondrial biogenesis. Cell Metab. 2021 May 4;33(5):1027-1041.e8
3)Wei-Wei Yan, Yun-Liu Liang, Qi-Xiang Zhang, Di Wang, Ming-Zhu Lei, Jia Qu, Xiang-Huo He, Qun-Ying Lei, Yi-Ping Wang*. Arginine methylation of SIRT7 couples glucose sensing with mitochondria biogenesis. EMBO Reports. 2018 Dec;19(12). pii: e46377
4)Xing-Yu Zhong, Xiu-Ming Yuan, Ying-Ying Xu, Miao Yin, Wei-Wei Yan, Shao-Wu Zou, Li-Ming Wei, Hao-Jie Lu, Yi-Ping Wang*, Qun-Ying Lei*. CARM1 Methylates GAPDH to Regulate Glucose Metabolism and Is Suppressed in Liver Cancer. Cell Reports. 2018 Sep 18;24(12):3207-3223
5)Yi-Ping Wang*, Jin-Tao Li, Jia Qu, Miao Yin, Qun-Ying Lei*. Metabolite sensing and signaling in cancer. J Biol Chem. 2020 Aug 14;295(33):11938-11946
5.承担的课题:
团队自2023年组建以来,获取国度当然科学基金优秀后生基金、国度当然科学基金面上神色、科技部要点研发议论、上海市当然科学基金等多项资助,总经费逾700万。
☟陡立滑动巡逻更多
六、
卢鹏飞课题组
议论风物:pengfei.lu@sjtu.edu.cn
(本课题组同期招聘本事员,笃定请议论课题组长)
1.简介:
卢鹏飞 PhD
上海交通大学医学院 接头员、博士生导师
上海交通大学医学院从属第一东说念主民病院 课题组长、PI
国度国际优秀后生科学基金获取者
上海市领军东说念主才(国际)
上海市浦江东说念主才
好意思国爱因斯坦医学院 副接头员
好意思国爱因斯坦医学院 博士后
中科院上海生化细胞所 博士
山东大学 学士
2.接头场合:
心血管发育与疾病
3.原创性科研服从:
3.1 揭示冠状血管发育与再生竖立机制,为的防治提供表面基础;
3.2 答复先天性二叶式主动脉瓣的致病机理,并扫尾宫内发育跋扈改进,为先天性疾病的防止和调养提供了全新念念路;
3.3 发现心肌细胞异质性,为腹黑心肌毁伤竖立调养奠定基础。
4.近5年代表性文章:
1)Pengfei Lu*, Yidong Wang*, Yang Liu, Yifeng Wang, Bingruo Wu, Deyou Zheng, Richard P Harvey, Bin Zhou. Perinatal angiogenesis from pre-existing coronary vessels via DLL4-NOTCH1 signalling. Nature Cell Biology. 2021 Sep;23(9):967-977. (* Co-first author)
2)Pengfei Lu#, Bingruo Wu, Yidong Wang, Megan Russell, Yang Liu, Daniel J Bernard, Deyou Zheng, Bin Zhou#. Prerequisite endocardial-mesenchymal transition for murine cardiac trabecular angiogenesis. Developmental Cell. 2023 May 8; 58, 791-805. (# Co-corresponding author)
3)Pengfei Lu, Bingruo Wu, Xuhui Feng, Wei Cheng, Richard N Kitsis, Bin Zhou. Cardiac Myosin Heavy Chain Reporter Mice to Study Heart Development and Disease. Circulation Research. 2022 Aug 5;131(4):364-366.
4)Pengfei Lu*, Ping Wang*, Bingruo Wu, Yidong Wang, Yang Liu, Wei Cheng, Xuhui Feng, Xinchun Yuan, Miriam M Atteya, Haleigh Ferro, Yukiko Sugi, Grant Rydquist, Mahdi Esmaily, Jonathan T Butcher, Ching-Pin Chang, Jack Lenz, Deyou Zheng, Bin Zhou. A SOX17-PDGFB Signaling Axis Regulates Aortic Root Development. Nature Communications. 2022 Jul 13;13(1):4065. (* Co-first author)
5)Pengfei Lu#, Bingruo Wu, Yidong Wang, Jingran Zhang, Bin Zhou#. A sandwiched ventricular explant assay to model mouse coronary angiogenesis ex vivo. STAR Protocols. 2023 Oct 27;4(4):102619. (# Co-corresponding author)
6)Yidong Wang*, Pengfei Lu*, Bingruo Wu, Bernice E Morrow, Bin Zhou. NOTCH maintains developmental cardiac gene network through WNT5A. Journal of Molecular and Cellular Cardiology. 2018 Dec;125:98-105. (* Co-first author)
7)Huahua Liu*, Pengfei Lu*, Shan He, Yuru Luo, Yuan Fang, Sonia Benkaci, Bingruo Wu, Yidong Wang, Bin Zhou. β-Catenin regulates endocardial cushion growth by suppressing p21. Life Science Alliance. 2023 Jun 29;6(9):e202302163. (* Co-first author)
5.承担的课题:
团队自2023年组建以来,获取中组部、国度当然科学基金、上海市等科研神色资助。
1. 中组部,国际优青,2024-2026,在研,主握
2. 国度当然科学基金委员会,面上神色,2024-2027,在研,主握。
3. 上海市委组织部,领军东说念主才议论(国际),2023-2026,在研,主握
4. 上海市科委,浦江东说念主才议论,2023-2025,在研,主握
5. 上海市第一东说念主民病院,启动经费,2023-2027,在研,主握
☟陡立滑动巡逻更多
七、
陈念念念念课题组
议论风物:sisichen@shsmu.edu.cn
1.简介:
陈念念念念 PhD
上海交通大学医学院 接头员、博士生导师
上海交通大学医学院从属第一东说念主民病院 课题组长、PI
国度国际优秀后生科学基金获取者
上海市领军东说念主才(国际)
上海市浦江东说念主才
追念斯隆-凯特琳癌症中心 博士后
哈佛大学医学院 博士后
好意思国印第安纳大学医学院 博士
2.接头场合:
造血干细胞与血液肿瘤
3.原创性科研服从:
3.1 迫切基因突更改控造血干细胞自我更新以及克隆性造血的分子机制
3.2 驱动软弱相干的克隆性造血发生的迫切内源和外源成分
3.3 血液肿瘤发生的机制及靶向策略
4.近5年代表性文章:
1)Chen S#, Vedula RS#, Navarro AC#, Lu B, Hogg SJ, Wang E, Benbarche S, Knorr K, Kim WJ, Stanley RF, Cho H, Erickson C, Singer M, Cui D, Tittley S, Durham BH, Pavletich T, Fiala E, Walsh MF, Inoue D, Monette S, Taylor J, Rosen N, McCormick F, Lindsley RC, Castel P, Abdel-Wahab O. Impaired proteolysis of non-canonical RAS proteins drives clonal hematopoietic transformation. Cancer Discovery. 2022 Jul 29;12(10):2434-2453. doi:10.1158/2159-8290.CD-21-1631.
2)North K#, Benbarche S#, Liu B, Pangallo J, Chen S, Stahl M, Bewersdorf JP, Stanley RF, Erickson C, Cho H, Pineda JMB, Thomas JD, Polaski JT, Belleville AE, Gabel AM, Udy DB, Humbert O, Kiem HP, Abdel-Wahab O, Bradley RK. Synthetic introns enable splicing factor mutation-dependent targeting of cancer cells. Nature Biotechnology. 2022 Jul;40(7):1103-1113. doi: 10.1038/s41587-022-01224-2.
3)Chen S, Abdel-Wahab O. Splicing regulation in hematopoiesis. Current Opinion in Hematology. 2021 Jul 1;28(4):277-283. doi: 10.1097/MOH.0000000000000661.
4)Chen S, Benbarche S, Abdel-Wahab O. Splicing factor mutations in hematologic malignancies. Blood. 2021 Jun;138(8):599-612. doi:10.1182/blood.2019004260.
5)Inoue D#, Polaski JT#, Taylor J#, Castel P, Chen S, Kobayashi S, Hogg SJ, Hayashi Y, Pineda JMB, El Marabti E, Erickson C, Knorr K, Fukumoto M, Yamazaki H, Tanaka A, Fukui C, Lu SX, Durham BH, Liu B, Wang E, Mehta S, Zakheim D, Garippa R, Penson A, Chew GL, McCormick F, Bradley RK, Abdel-Wahab O. Minor intron retention drives clonal hematopoietic disorders and diverse cancer predisposition. Nature Genetics. 2021 May;53(5):707-718. doi: 10.1038/ s41588-021-00828-9.
6)Chen S, Yu H, Gao R, Nabinger SC, Kobayashi M, Yao C, Liu SZ, Yoder MC, Kapur R, Broxmeyer HE, Gao Z, and Liu Y. Mutant p53 Drives Clonal Hematopoiesis through Modulating Epigenetic Pathway. Nature Communications. 2019 Dec 11;10(1):5649. doi: 10.1038/ s41467-019-13542-2.
7)Chen S and Liu Y. p53 involvement in clonal hematopoiesis of indeterminate potential. Current Opinion in Hematology. 2019 Jul;26(4):235-240. doi:10.1097/MOH.0000000000000509.
8)Chen S, Gao R, Yao C, Kobayashi M, Liu SZ, Yoder MC, Broxmeyer HE, Kapur R, Boswell HS, Mayo LD, and Liu Y. Genotoxic stresses promote the clonal expansion of hematopoietic stem cells expressing mutant p53. Leukemia. 2018 Mar;32(3):850-854. doi:10.1038/leu.2017.325.
9)Cai Z, Kotzin JJ, Ramdas B, Chen S, Nelanuthala S, Palam LR, Pandey R, Mali RS, Liu Y, Kelley MR, Sandusky G, Mohseni M, Williams A, Henao-Mejia J, Kapur R. Inhibition of Inflammatory Signaling in Tet2 Mutant Preleukemic Cells Mitigates Stress-Induced Abnormalities and Clonal Hematopoiesis. Cell Stem Cell. 2018 Dec 6;23(6):833-849.e5. doi:10.1016/j.stem.2018.10.013.
5.承担的课题:
课题组自2023年组建以来,获取中组部、上海市等东说念主才神色资助。
1.国度国际优秀后生科学基金,中组部,2024-2026,在研,主握。
2.上海市领军东说念主才(国际),上海市委组织部,2024-2026,在研,主握。
3.上海市白玉兰东说念主才议论浦江神色,上海市科委,2023-2025,在研,主握。
4.上海市第一东说念主民病院启动经费,2023-2027,在研,主握。
5.Leukemia & Lymphoma Society Career Development Award, 2021-2024,在研,主握。
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八、
周鲁明课题组
议论风物:l.zhou13@imperial.ac.uk
lumingzhou86@gmail.com
1.简介:
周鲁明 PhD
上海交通大学医学院 接头员
上海交通大学医学院从属第一东说念主民病院 课题组长、PI
国度国际优秀后生科学基金获取者
上海市领军东说念主才议论
英国伦敦帝国理工学院医学院 博士后
德国图宾根大学医学院Hertie接头所 博士
2.接头场合:
神经毁伤与竖立、神经免疫学、软弱神经生物学
3.原创性科研服从:
3.1 发现CXCL13依赖性CD8+ T细胞与背根神经节(DRG)神经元交互在老年小鼠坐骨神经再生败落中的迫切作用,并行使CXCL13特异性抗体调养显耀晋升了坐骨神经的再生与功能竖立,填补了插手技能逆转软弱导致神经再生退化的空缺;
3.2 在神经内源性再期许制方面,答复了在DRG神经元再生进程中表露迫切作用的组卵白乙酰化与代谢调控机制。
4.近5年代表性文章:
1)Zhou, L., Kong, G., Palmisano, I., Cencioni, M.T., Danzi, M., De Virgiliis, F., Chadwick, J.S., Crawford, G., Yu, Z., and De Winter, F. (2022). Reversible CD8 T cell–neuron cross-talk causes aging-dependent neuronal regenerative decline. Science 376, eabd5926.
2)Serger, E., Luengo-Gutierrez, L., Chadwick, J.S., Kong, G., Zhou, L., Crawford, G., Danzi, M.C., Myridakis, A., Brandis, A., and Bello, A.T. (2022). The gut metabolite indole-3 propionate promotes nerve regeneration and repair. Nature 607, 585-592.
3)Müller, F. *, De Virgiliis, F. *, Kong, G. *, Zhou, L. *, Serger, E., Chadwick, J., Sanchez-Vassopoulos, A., Singh, A.K., Eswaramoorthy, M., and Kundu, T.K. (2022). CBP/p300 activation promotes axon growth, sprouting, and synaptic plasticity in chronic experimental spinal cord injury with severe disability. PLoS biology 20, e3001310. (*co-first author)
4)Kong, G.*, Zhou, L.*, Serger, E., Palmisano, I., De Virgiliis, F., Hutson, T.H., Mclachlan, E., Freiwald, A., La Montanara, P., and Shkura, K., Puttagunta R., Di Giovanni S. (2020). AMPK controls the axonal regenerative ability of dorsal root ganglia sensory neurons after spinal cord injury. Nature Metabolism 2, 918-933. (*co-first author).
5)De Virgiliis, F., Hutson, T.H., Palmisano, I., Amachree, S., Miao, J., Zhou, L., Todorova, R., Thompson, R., Danzi, M.C., and Lemmon, V.P. (2020). Enriched conditioning expands the regenerative ability of sensory neurons after spinal cord injury via neuronal intrinsic redox signaling. Nature Communications 11, 1-16.
6)Hervera, A.*, Zhou, L.*, Palmisano, I., McLachlan, E., Kong, G., Hutson, T.H., Danzi, M.C., Lemmon, V.P., Bixby, J.L., Matamoros‐Angles, A., Forsberg K., De Virgiliis F., Matheos D.P., Kwapis J., Wood M.A., Puttagunta R., Del Rio Ja., Di Giovanni S. (2019). PP4‐dependent HDAC3 dephosphorylation discriminates between axonal regeneration and regenerative failure. The EMBO journal 38. (*co-first author).
7)De Virgiliis, F., Hutson, T.H., Palmisano, I., Amachree, S., Miao, J., Zhou, L., Todorova, R., Thompson, R., Danzi, M.C., and Lemmon, V.P., Bixby J.L., Wittig I., Shah A.M., Di Giovanni S. (2020). Enriched conditioning expands the regenerative ability of sensory neurons after spinal cord injury via neuronal intrinsic redox signaling. Nature Communications 11, 1-16.
8)Palmisano, I., Danzi, M.C., Hutson, T.H., Zhou, L., McLachlan, E., Serger, E., Shkura, K., Srivastava, P.K., Hervera, A., and O’Neill, N., Liu T., Dhrif H., Wang Z., Kubat M., Wuchty S., Merkenschlager M., Levi L., Elliott E., Bixby J.L., Lemmon V.P., Di Giovanni S. (2019). Epigenomic signatures underpin the axonal regenerative ability of dorsal root ganglia sensory neurons. Nature Neuroscience 22, 1913-1924.
9)Hutson, T.H., Kathe, C., Palmisano, I., Bartholdi, K., Hervera, A., De Virgiliis, F., McLachlan, E., Zhou, L., Kong, G., and Barraud, Q., Danzi M.C., Medrano-Fernandez A., Lopez-Atalaya J.P., Boutillier A.L., Sinha S.H., Singh A.K., Chaturbedy P., Moon L.D.F., Kundu T.K., Bixby J.L., Lemmon V.P., Barco A., Courtine G., Di Giovanni S. (2019). Cbp-dependent histone acetylation mediates axon regeneration induced by environmental enrichment in rodent spinal cord injury models. Science Translational Medicine 11, eaaw2064.
10)Hervera, A., De Virgiliis, F., Palmisano, I., Zhou, L., Tantardini, E., Kong, G., Hutson, T., Danzi, M.C., Perry, R.B.-T., and Santos, C.X., Kapustin A.N., Fleck R.A., Del Rio J.A., Carroll T., Lemmon V.P., Bixby J.L., Shah A.M., Fainzilber M., Di Giovanni S. (2018). Reactive oxygen species regulate axonal regeneration through the release of exosomal NADPH oxidase 2 complexes into injured axons. Nature Cell Biology 20, 307-319.
5.承担的课题:
团队展望于2024年头清闲组建入手。当今获取国度当然科学基金面上神色1项。
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九、
孔德平课题组
议论风物:deping.kong@shsmu.edu.cn
1.简介:
孔德平 PhD
上海交通大学医学院 副接头员、硕士生导师
上海交通大学医学院从属第一东说念主民病院 课题组长、PI
上海市后生科技启明星(2021)
中国科学院大学 博士
天津医科大学 博士后
中国生理学会轮回委员会 委员
中国药理学会心血管药理委员会 后生委员
2.接头场合:
血管免疫学、血管代谢生物学
3.科研服从:
3.1 结合非激素类消炎药NSAID临床应用中存在的心血管问题,默契COX-2卑劣脂质代谢产物前哨腺素D2在炎症与心血管稳态的相干接头。对合理使用NSAID提供了表面依据,也为筛选抗心血管疾病的第三代NSAID提供了潜在靶点。
3.2 聚焦代谢性炎症与血管稳态的基础医学与临床滚动接头,围绕代谢和免疫在病理景色下互相作用的调控聚集,从RNA万般性层面挖掘血管重构的异质性新靶点。
4.代表性文章:
1)Kong D*#, Liu J#, Lu J#, Chen H, Duan Z, Ke Yu, Zheng X, Zou P, Zhou L, Zeng C, Lv Y, Zeng Q, Lu L, Li L, He Y*. HMGB2 Release Promotes Pulmonary Hypertension and Predicts Severity and Mortality of Patients with Pulmonary Arterial Hypertension. Arterioscler Thromb Vasc Biol. doi: 10.1161/ATVBAHA.123.319916. (2024)
2)Wu H, Lu Y, Duan Z, Wu J, Lin M, Wu Y, Han S, Li T, Fan Y, Hu X, Xiao H, Feng J, Lu Z*, Kong D*, Li S*. Nanopore long-read RNA sequencing reveals functional alternative splicing variants in human vascular smooth muscle cells. Commun Biol. 6(1):1104. (2023 )
3)Kong D#*; YuY* ; Prostaglandin D2 signaling and cardiovascular homeostasis, J Mol Cell Cardiol,167: 97-105(2022)
4)Kong D#, Wan Q#, Li J, et al, Yu Y*. DP1 activation reverses age-related hypertension via NEDD4L-mediated T-bet degradation in T Cells. Circulation. 141(8):655-666 (2020)
5)He Y#, Zuo C#, Jia D#, Bai P#, Kong D#, Chen D#, Liu G, et al, Wang J*, Lyu A*, Shen Y*, Yu Y*. Loss of DP1 aggravates vascular remodeling in pulmonary arterial hypertension via mTORC1 signaling. Am J Respir Crit Care Med. doi: 10.1164/rccm.201911-2137OC. (2020)
6)Li J#, Kong D#, Wang Q#, Wu W#, Tang Y, et al, Wang L*, Yu Y*. Niacin ameliorates ulcerative colitis by activation of D prostanoid receptor 1. EMBO Mol Med. 9(5):571-588 (2017)
7)Kong D, Li J, Shen Y, et al, Yu Y*. Niacin promotes cardiac healing after myocardial infarction through activation of myeloid Prostaglandin D2 receptor subtype 1. J Pharmacol Exp Ther. 360:435-444 (2017).
8)Kong D, Shen Y, Zuo S, et al, Yu Y*. PKA regulatory IIa subunit is essential for PGD2-mediated resolution of inflammation. J Exp Med. 213:2209-26 (2016).
5.承担的课题:
团队自2020年组建以来,获取获取病院启动经费、国度当然科学基金面上基金、专项基金和上海市科委神色等多项资助。
1)糖酵解醛缩酶ALDOA偏执乳酰化修饰调控肺动脉高压中血管重塑的作用和机制接头(国度当然科学基金委员会, 专项神色, 82241018, 2023.01 - 2025.12, 50万元);
2)NEDD4L下调介导的IRS4累积在心肌梗死中的作用及机制接头 (国度当然科学基金委员会, 面上神色, 82170253, 2022.01-2025.12, 58万元);
3)E3泛素衔尾酶NEDD4L在心肌梗死中的作用及机制接头 (上海市科学本事委员会, 上海市当然科学基金原创探索类神色, 21ZR1481200, 2021.07-2024.06, 50万元)。
☟陡立滑动巡逻更多
十、
李告捷课题组
议论风物:shengli.li@sjtu.edu.cn
1.简介:
李告捷 PhD
上海交通大学医学院 副接头员、硕士生导师
上海交通大学医学院从属第一东说念主民病院 课题组长、PI
上海市后生科技启明星
上海市领军东说念主才(国际)
好意思国德州大学休斯顿健康科学中心 博士后
复旦大学 博士
中国生物工程学司帐算生物学与生物信息学专委会 委员
中国生物信息学会(筹)紧要疾病组学信息学专委会 委员
2.接头场合:
缠绵生物学与生物信息学、卵白质翻译及调控、肿瘤发生与精确医疗
3.原创性科研服从:
3.1 默契了肿瘤RNA转录本图谱,识别了多数未审视的RNA转录本(如AC092803-u1),构建了RNA结合卵白-转录本-抗肿瘤药物关系聚集(如PTBP1-KIAA1522-a6-Decitabine),并识别了癌症类型特异的RNA象征物;
3.2 提议了基于卵白质组的胃食管结合部肿瘤的三种分子分型,并识别了不同分子亚型特异的潜在药物靶点。
4.近5年代表性文章:
1)Hu W, Wu Y, Shi Q, Wu J, Kong D, Wu X, He X, Liu T, Li S*. Systematic characterization of cancer transcriptome at transcript resolution. Nat Commun. 2022 Nov 10;13(1):6803. PMID:36357395.
2)Shi Q, Liu T, Hu W, Chen Z, He X, Li S*. SRTdb: an omnibus for human tissue and cancer-specific RNA transcripts. Biomark Res. 2022 Apr 26;10(1):27. PMID: 35473935.
3)Wu H, Lu Y, Duan Z, Wu J, Lin M, Wu Y, Han S, Li T, Fan Y, Hu X, Xiao H, Feng J, Lu Z, Kong D, Li S*. Nanopore long-read RNA sequencing reveals functional alternative splicing variants in human vascular smooth muscle cells. Commun Biol. 2023 Oct 31;6(1):1104. PMID: 37907652
4)Li S, Yuan L, Xu Z, Xu J, Chen G, Guan X, Pan G, Hu C, Dong J, Du Y, Yang L, Ni M, Jiang R, Zhu X, Lv H, Xu H, Zhang S, Qin J, Cheng X. Integrative proteomic characterization of adenocarcinoma of esophagogastric junction. Nat Commun. 2023 Feb 11;14(1):778. PMID: 36774361.
5)Li S, Hu Z, Zhao Y, Huang S, He X. Transcriptome-wide analysis reveals the landscape of aberrant alternative splicing events in liver cancer. Hepatology. 2019 Jan;69(1):359-375.
6)Li S, Li Y, Chen B, Zhao J, Yu S, Tang Y, Zheng Q, Li Y, Wang P, He X, Huang S. exoRBase: a database of circRNA, lncRNA and mRNA in human blood exosomes. Nucleic Acids Res. 2018 Jan 4;46(D1):D106-D112. PMID: 30053265.
7)Li S, Zhang J, Huang S, He X. Genome-wide analysis reveals that exon methylation facilitates its selective usage in the human transcriptome. Brief Bioinform. 2018 Sep 28;19(5):754-764. PMID: 28334074.
8)Feng J, Wu H, Li S*. Noncanonical translation of circRNAs drive antitumor immunity. Trends Cancer. 2024 Jan 18:S2405-8033(24)00006-2. PMID: 38242823.
9)Liu Y, Hu W, Xie Y, Tang J, Ma H, Li J, Nie J, Wang Y, Gao Y, Cheng C, Li C, Ma Y, Su S, Zhang Z, Bao Y, Ren Y, Wang X, Sun F, Li S*, Lu R. Single-cell transcriptomics enable the characterization of local extension in retinoblastoma. Commun Biol. 2024 Jan3;7(1):11. PMID: 38172218.
10)Wu Y, Xu M, Feng Z, Wu H, Wu J, Ha X, Wu Y, Chen S, Xu F, Wen H, Li S*, Wu X. AUF1-induced circular RNA hsa_circ_0010467 promotes platinum resistance of ovarian cancer through miR-637/LIF/STAT3 axis. Cell Mol Life Sci. 2023 Aug 17;80(9):256. PMID: 37589744.
11)Li C, Wu H, Guo L, Liu D, Yang S, Li S*, Hua K. Single-cell transcriptomics reveals cellular heterogeneity and molecular stratification of cervical cancer. Commun Biol. 2022 Nov 10;5(1):1208. PMID: 36357663.
12)Zhang J, Li S#, Zhang L, Xu J, Song M, Shao T, Huang Z, Li Y. RBP EIF2S2 promotes tumorigenesis and progression by regulating MYC-mediated inhibition via FHIT-related enhancers. Mol Ther. 2020 Apr 8;28(4):1105-1118. PMID: 32059763.
13)Zhang J, Li S#, Zhang J. Docetaxel resistance-derived LINC01085 contributes to the immunotherapy of hormone-independent prostate cancer by activating the STING/MAVS signaling pathway. Cancer Lett. 2022 Oct 1:545:215829. PMID: 35868534.
14)Shen M, Li S#, Zhao Y, Liu Y, Liu Z, Huan L, Qiao Y, Wang L, Han L, Chen Z, He X. Hepatic ARID3A facilitates liver cancer malignancy by cooperating with CEP131 to regulate an embryonic stem cell-like gene signature. Cell Death Dis. 2022 Aug 25;13(8):732. PMID: 36008383.
15)Chen Z, Li S#, Shen M, Lu X, Bao C, Chen D, Ding J, Wang Q, Huang S, Cong W, Han L, He X. The Mutational and transcriptional landscape of hepatocarcinogenesis in a rat model. iScience. 2020 Oct 15;23(11):101690. PMID: 33163943.
16)Xu J, Wang Z, Li S#, Chen J, Zhang J, Jiang C, Zhao Z, Li J, Li Y, Li X. Combinatorial epigenetic regulation of non-coding RNAs has profound effects on oncogenic pathways in breast cancer subtypes. Brief Bioinform. 2018 Jan 1;19(1):52-64. PMID: 27742663.
17)Ruan H, Xiang Y, Ko J, Li S#, Jing Y, Zhu X, Ye Y, Zhang Z, Mills T, Feng J, Liu C, Jing J, Cao J, Zhou B, Wang L, Zhou Y, Lin C, Guo A, Chen X, Diao L, Li W, Chen Z, He X, Mills G, Blackburn M, Han L. Comprehensive characterizationof circular RNAs in ~1000 human cancer cell lines. Genome Med. 2019 Aug 26;11(1):55. PMID: 311446897.
5.承担的课题:
6.软件著述权:
☟陡立滑动巡逻更多
十一、
林达课题组
议论风物:da.lin@shgh.cn
1.简介
林达 PhD
上海交通大学医学院从属第一东说念主民病院 课题组长、PI
第三届博士后蜕变东说念主才支握议论(2018)
2.接头场合:
肿瘤基因组学、三维基因组学、单细胞组学
3.原创性接头服从
3.1 开发了一系列新式染色质空间构象拿获及基因组结构变异检测本事,其中包括针对多数细胞的DLO Hi-C(Nature Genetics,2018),针对微量细胞的DLO Hi-C 2.0(JGG,2020),针对单细胞的sciDLO Hi-C(Nature Communications,2022)。Nature Genetics特意发表指摘文章,对DLO Hi-C方法予以较高评价。
3.2 行使DLO Hi-C系列本事,默契了巨噬细胞分化及免疫活化进程中染色质空间构象重塑和表不雅修饰重编程,拓展了疾病易感基因,发掘了新的药物调养靶点,寻找到了新的潜在调养药物。
3.3 基于肿瘤基因组三维结构特征,开发了多重基因组结构相配及ecDNA检测方法MGA-Seq,并绘图了肾癌组织中ecDNA互作聚集(Genome Biology,2023)。
4.近5年代表性文章:
1)Da Lin#, Ping Hong#, Siheng Zhang, Weize Xu, Muhammad Jamal, Keji Yan, Yingying Lei, Liang Li, Yijun Ruan, Zhen F. Fu, Guoliang Li*, Gang Cao*, Digestion-ligation-only Hi-C is an efficient and cost-effective method for chromosome conformation capture, Nature Genetics, 2018, 50(5): 754-763. (5-year IF: 39.321) (亮点文章,Nature genetics同期指摘文章专题报说念)。
2)Da Lin*#, Yanyan Zou#, Xinyu Li, Jinyue Wang, Qin Xiao, Xiaochen Gao, Fei Lin, Ningyuan Zhang, Ming Jiao, Yu Guo, Zhaowei Teng, Shiyi Li, Yongchang Wei, Fuling Zhou, Rong Yin, Siheng Zhang, Lingyu Xing, Weize Xu, Xiaofeng Wu, Bing Yang, Ke Xiao, Chengchao Wu, Yingfeng Tao, Xiaoqing Yang, Jing Zhang, Sheng Hu, Shuang Dong, Xiaoyu Li, Shengwei Ye, Zhidan Hong, Yihang Pan, Yuqin Yang, Haixiang Sun*, Gang Cao*, MGA-seq: robust identification of extrachromosomal DNA and genetic variants using multiple genetic abnormality sequencing, 2023, Genome Biology. (5-year IF: 17.4)
3)Da Lin#, Weize Xu#, Ping Hong#, Chengchao Wu, Zhihui Zhang, Siheng Zhang, Lingyu Xing, Bing Yang, Wei Zhou, Qin Xiao, Jinyue Wang, Cong Wang, Yu He, Xi Chen, Xiaojian Cao, Jiangwei Man, Aikebaier Reheman, Xiaofeng Wu, Xingjie Hao, Zhe Hu, Chunli Chen, Zimeng Cao, Rong Yin, Zhen F. Fu, Rong Zhou, Zhaowei Teng, Guoliang Li*, Gang Cao*, Decoding the Spatial Chromatin Organization and Dynamic Epigenetic Landscapes of Macrophage Cells During Differentiation and Immune Activation, Nature Communications, 2022 Oct 4;13(1):5857. (5-year IF: 17.763)
4)Zhihui Zhang, Chengchao Wu, Khaista Rahman, Weize Xu, Guoliang Li*, Da Lin*, Gang Cao*, Robust capturing chromosome conformation using the DLO Hi-C 2.0 method, Journal of Genetics and Genomics, 2020, 47(10): 655-658.
5)Da Lin, Siheng Zhang, Zhihui Zhang, Weize Xu, Ping Hong, Guoliang Li, Gang Cao, The \"toolbox\" for chromatin conformation capture (in Chinese), SCIENTIA SINICA Vitae, 2020, 50(5): 497-505.
5.承担的课题
先后主握国当然面上神色(2024)、国当然后生神色(2019)、博士后蜕变东说念主才支握议论(2018)、博士后一等面上资助(2018)等基金神色多项。
6.授权专利:
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十二、
施雷雷课题组
议论风物:leilei.shi@shgh.cn
1. 简介:
施雷雷 PhD
上海交通大学医学院从属第一东说念主民病院 课题组长、PI、博士生导师
上海市浦江东说念主才
2.接头场合:
生物活性光敏剂、多肽水凝胶材料
3. 原创性科研服从:
3.1 分子靶向光敏剂。本团队侵扰传统光敏剂在应用进程中碰到的瓶颈问题,举例O2含量、目田基撤废以及激光光源等的限度,先后开发了四代光敏剂,尤其是最新一代的自愿光分子靶向光敏剂简略在低氧景色下,通过病灶部位荒谬生理生化特征的刺激下简略驱动光敏剂自愿光产生氧目田基;
3.2 生物大分子药物透皮寄递。皮肤角质层的樊篱作用使得药物透皮速度和渗入量难以称心调养的需求,是开发透皮给药制剂的紧要紧闭,尤其是大分子生物药类。针对生物大分子透皮寄递界限的勤快,接头团队通过多数的筛选,设想出了具备高透皮性能的新式多肽水凝胶材料,可高效透皮寄递功能核酸、功能卵白等生物大分子药物。
4.近5年代表性文章:
1)Leilei Shi, Peng Zhang, Xiaoxiao Liu, Yuzhen Li, Wenbo Wu, Xihui Gao*, and Bin Liu*. “An Activity-Based Photosensitizer to Reverse Hypoxia and Oxidative Resistance for Tumor Photodynamic Eradication” Advanced Materials, 34 (2022), 202206659. (IF: 32.086, 1区)
2)Leilei Shi, Xiaoxiao Liu, Yuzhen Li, Sha Li, Wenbo Wu, Xihui Gao*, and Bin Liu*. “Living Bacteria-Based Immuno-Photodynamic Therapy: Metabolic Labeling of Clostridium Butyricum for Eradicating Malignant Melanoma” Advanced Science, 9 (2022), e2105807. (IF: 17.521, 1区)
3)Leilei Shi, Wenbo Wu, Yukun Duan, Li Xu, Sha Li, Xihui Gao*, and Bin Liu*. “Carrier-Free Hybrid DNA Nanoparticles for Light-induced Self-Delivery of Functional Nucleic Acid Enzymes” ACS Nano, 15 (2021), 1841-1849. (IF: 18.027, 1区)
4)Leilei Shi, Wenbo Wu, Yukun Duan, Li Xu, Yingying Xu, Lidan Hou, Xiangjun Meng, Xinyuan Zhu, and Bin Liu*. “Light Induced Self-Escape of Spherical Nucleic Acid from Endo/Lysosome for Efficient Non-Cationic Gene Delivery” Angew. Chem. Int. Ed., 59 (2020), 19168-19174. (IF: 16.823, 1区)
5)Leilei Shi, Fang Hu, Yukun Duan, Wenbo Wu, Jinqiao Dong, Xiangjun Meng, Xinyuan Zhu, Bin Liu*. “Hybrid Nanospheres to Overcome Hypoxia and Intrinsic Oxidative Resistance for Enhanced Photodynamic Therapy.” ACS Nano, 14 (2020), 2183-2190. (IF: 18.027, 1区)
6)Lianfeng Fan, Chuanjiang Jian, Ling Li, Li Wang, Xuejiao Song, Minjia Wang, Chutong Liu, Xiaoxiao Liu, Shidang Xu, Xihui Gao*, Xianjie Shi, Miaomiao Yuan*, Bin Liu*, Leilei Shi*, “A Bioactive Photosensitizer for Hypoxia-Tolerant Molecular Targeting-Photo-Immunotherapy of Malignant Tumor”, Advanced Functional Materials, 2023, 202313755. (IF:19.0, 1区)
7)Yu T...