Two-photon dual-channel fluorogenic probe for in situ imaging the mitochondrial H_(2)S/viscosity in the brain of drosophila Parkinson’s disease model 被引量：1

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摘要 H2S is an essential gas signal molecule in cells,and viscosity is a key internal environmental parameter.Recent studies have shown that H_(2)S acts as a cytoarchitecture agent and gas transmitter in many tissues,e.g.,as a regulator of neuroendocrine in the brain for mediating vascular tone in blood vessels.Mitochondrial viscosity is an important parameter for judging whether mitochondrial function is normal.It has been reported that oxidative stress and mitochondrial dysfunction are connected with Parkinson’s disease(PD),and the protective role of H_(2)S in PD models has been extensively demonstrated.Herein,Mito-HS,a new two-photon fluorescent probe was demonstrated to detect cross-talk between the two channels of mitochondrial viscosity and H_(2)S content.Moreover,this probe could detect the relative amount of and changes in mitochondrial H2S in situ due to the reduced mitochondrial targeting ability after reaction with H_(2)S.The results show that H2S in mitochondria is inversely related to viscosity.The PD model has a lower H2S in mitochondria and a higher mitochondrial viscosity than did the normal.This result is important for our deep understanding of PD and its causes.

作者 Zhijie Fang Zhe Su Wenjing Qin Hao Li Bing Fang Wei Du Qiong Wu Bo Peng Peng Li Haidong Yu Lin Li Wei Huang

机构地区 Key Laboratory of Flexible Electronics(KLOFE)&Institute of Advanced Materials( Shaanxi Institute of Flexible Electronics(SIFE)&Institute of Biomedical Materials&Engineering(IBME)

出处《Chinese Chemical Letters》 SCIE CAS CSCD 2020年第11期2903-2908,共6页 中国化学快报（英文版）

基金 the National Natural Science Foundation of China(Nos.81672508,21675085) Jiangsu Provincial Foundation for Distinguished Young Scholars(Nos.BK20170041,BK20170042) Natural Science Foundation of Shaanxi Province(No.2019JM-016) China-Sweden Joint Mobility Project(No.51811530018) Fundamental Research Funds for the Central Universities。

关键词 TWO-PHOTON H_(2)S VISCOSITY Fluorogenic probe Parkinson’s disease

分类号 O657.3 [理学—分析化学] R742.5 [医药卫生—神经病学与精神病学]

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1解丽娟,李建民.7-二乙胺基-3-(2'-吡啶)香豆素的新用途:溶酶体荧光探针[J].发光学报,2013,34(11):1538-1543. 被引量：3
2彭洪尚,黄世华.比率荧光纳米水凝胶的制备以及在pH探测中的应用[J].发光学报,2010,31(3):395-399. 被引量：3
3唐倩,但飞君,曾晓燕,潘常乐,兰海闯.含吡啶环香豆素酸性pH荧光探针的合成及应用[J].分析试验室,2019,38(2):202-206. 被引量：7
4程晓红,阮志军,钟志成,李望南.基于香豆素的荧光传感器及其对次氯酸根的快速检测（英文）[J].发光学报,2018,39(8):1182-1191. 被引量：3
5Chuankun Jiang,Longchun Li,Jiacheng Jiang,Lilin Hou,Gemin Fang,Haizhu Yu,Xiangming Meng.A bright two-photon fluorescent probe for real-time monitoring autophagy in living cells[J].Chinese Chemical Letters,2020,31(2):447-450. 被引量：1
6M.Ablikim,M.N.Achasov,P.Adlarson,S.Ahmed,M.Albrecht,M.Alekseev,A.Amoroso,F.F.An,Q.An,Y.Bai,O.Bakina,R.Baldini Ferroli,Y.Ban,K.Begzsuren,J.V.Bennett,N.Berger,M.Bertani,D.Bettoni,F.Bianchi,J Biernat,J.Bloms,I.Boyko,R.A.Briere,L.Calibbi,H.Cai,X.Cai,A.Calcaterra,G.F.Cao,N.Cao,S.A.Cetin,J.Chai,J.F.Chang,W.L.Chang,J.Charles,G.Chelkov,Chen,G.Chen,H.S.Chen,J.C.Chen,M.L.Chen,S.J.Chen,Y.B.Chen,H.Y.Cheng,W.Cheng,G.Cibinetto,F.Cossio,X.F.Cui,H.L.Dai,J.P.Dai,X.C.Dai,A.Dbeyssi,D.Dedovich,Z.Y.Deng,A.Denig,Denysenko,M.Destefanis,S.Descotes-Genon,F.De Mori,Y.Ding,C.Dong,J.Dong,L.Y.Dong,M.Y.Dong,Z.L.Dou,S.X.Du,S.I.Eidelman,J.Z.Fan,J.Fang,S.S.Fang,Y.Fang,R.Farinelli,L.Fava,F.Feldbauer,G.Felici,C.Q.Feng,M.Fritsch,C.D.Fu,Y.Fu,Q.Gao,X.L.Gao,Y.Gao,Y.Gao,Y.G.Gao,Z.Gao,B.Garillon,I.Garzia,E.M.Gersabeck,A.Gilman,K.Goetzen,L.Gong,W.X.Gong,W.Gradl,M.Greco,L.M.Gu,M.H.Gu,Y.T.Gu,A.Q.Guo,F.K.Guo,L.B.Guo,R.P.Guo,Y.P.Guo,A.Guskov,S.Han,X.Q.Hao,F.A.Harris,K.L.He,F.H.Heinsius,T.Held,Y.K.Heng,Y.R.Hou,Z.L.Hou,H.M.Hu,J.F.Hu,T.Hu,Y.Hu,G.S.Huang,J.S.Huang,X.T.Huang,X.Z.Huang,Z.L.Huang,N.Huesken,T.Hussain,W.Ikegami Andersson,W.Imoehl,M.Irshad,Q.Ji,Q.P.Ji,X.B.Ji,X.L.Ji,H.L.Jiang,X.S.Jiang,X.Y.Jiang,J.B.Jiao,Z.Jiao,D.P.Jin,S.Jin,Y.Jin,T.Johansson,N.Kalantar-Nayestanaki,X.S.Kang,R.Kappert,M.Kavatsyuk,B.C.Ke,I.K.Keshk,T.Khan,A.Khoukaz,P.Kiese,R.Kiuchi,R.Kliemt,L.Koch,O.B.Kolcu,B.Kopf,M.Kuemmel,M.Kuessner,A.Kupsc,M.Kurth,M.G.Kurth,W.Kuhn,J.S.Lange,P.Larin,L.Lavezzi,H.Leithoff,T.Lenz,C.Li,Cheng Li,D.M.Li,F.Li,F.Y.Li,G.Li,H.B.Li,H.J.Li,J.C.Li,J.W.Li,Ke Li,L.K.Li,Lei Li,P.L.Li,P.R.Li,Q.Y.Li,W.D.Li,W.G.Li,X.H.Li,X.L.Li,X.N.Li,X.Q.Li,Z.B.Li,H.Liang,H.Liang,Y.F.Liang,Y.T.Liang,G.R.Liao,L.Z.Liao,J.Libby,C.X.Lin,D.X.Lin,Y.J.Lin,B.Liu,B.J.Liu,C.X.Liu,D.Liu,D.Y.Liu,F.H.Liu,Fang Liu,Feng Liu,H.B.Liu,H.M.Liu,Huanhuan Liu,Huihui Liu,J.B.Liu,J.Y.Liu,K.Y.Liu,Ke Liu,Q.Liu,S.B.Liu,T.Liu,X.Liu,X.Y.Liu,Y.B.Liu,Z.A.Liu,Zhiqing Liu,Y.F.Long,X.C.Lou,H.J.Lu,J.D.Lu,J.G.Lu,Y.Lu,Y.P.Lu,C.L.Luo,M.X.Luo,P.W.Luo,T.Luo,X.L.Luo,S.Lusso,X.R.Lyu,F.C.Ma,H.L.Ma,L.L.Ma,M.M.Ma,Q.M.Ma,X.N.Ma,X.X.Ma,X.Y.Ma,Y.M.Ma,F.E.Maas,M.Maggiora,S.Maldaner,S.Malde,Q.A.Malik,A.Mangoni,Y.J.Mao,Z.P.Mao,S.Marcello,Z.X.Meng,J.G.Messchendorp,G.Mezzadri,J.Min,T.J.Min,R.E.Mitchell,X.H.Mo,Y.J.Mo,C.Morales Morales,N.Yu.Muchnoi,H.Muramatsu,A.Mustafa,S.Nakhoul,Y.Nefedov,F.Nerling,I.B.Nikolaev,Z.Ning,S.Nisar,S.L.Niu,S.L.Olsen,Q.Ouyang,S.Pacetti,Y.Pan,M.Papenbrock,P.Patteri,M.Pelizaeus,H.P.Peng,K.Peters,A.A.Petrov,J.Pettersson,J.L.Ping,R.G.Ping,A.Pitka,R.Poling,V.Prasad,M.Qi,T.Y.Qi,S.Qian,C.F.Qiao,N.Qin,X.P.Qin,X.S.Qin,Z.H.Qin,J.F.Qiu,S.Q.Qu,K.H.Rashid,C.F.Redmer,M.Richter,M.Ripka,A.Rivetti,V.Rodin,M.Rolo,G.Rong,J.L.Rosner,Ch.Rosner,M.Rump,A.Sarantsev,M.Savrie,K.Schoenning,W.Shan,X.Y.Shan,M.Shao,C.P.Shen,P.X.Shen,X.Y.Shen,H.Y.Sheng,X.Shi,X.D Shi,J.J.Song,Q.Q.Song,X.Y.Song,S.Sosio,C.Sowa,S.Spataro,F.F.Sui,G.X.Sun,J.F.Sun,L.Sun,S.S.Sun,X.H.Sun,Y.J.Sun,Y.K Sun,Y.Z.Sun,Z.J.Sun,Z.T.Sun,Y.T Tan,C.J.Tang,G.Y.Tang,X.Tang,V.Thoren,B.Tsednee,I.Uman,B.Wang,B.L.Wang,C.W.Wang,D.Y.Wang,H.H.Wang,K.Wang,L.L.Wang,L.S.Wang,M.Wang,M.Z.Wang,Wang Meng,P.L.Wang,R.M.Wang,W.P.Wang,X.Wang,X.F.Wang,X.L.Wang,Y.Wang,Y.F.Wang,Z.Wang,Z.G.Wang,Z.Y.Wang,Zongyuan Wang,T.Weber,D.H.Wei,P.Weidenkaff,H.W.Wen,S.P.Wen,U.Wiedner,G.Wilkinson,M.Wolke,L.H.Wu,L.J.Wu,Z.Wu,L.Xia,Y.Xia,S.Y.Xiao,Y.J.Xiao,Z.J.Xiao,Y.G.Xie,Y.H.Xie,T.Y.Xing,X.A.Xiong,Q.L.Xiu,G.F.Xu,L.Xu,Q.J.Xu,W.Xu,X.P.Xu,F.Yan,L.Yan,W.B.Yan,W.C.Yan,Y.H.Yan,H.J.Yang,H.X.Yang,L.Yang,R.X.Yang,S.L.Yang,Y.H.Yang,Y.X.Yang,Yifan Yang,Z.Q.Yang,M.Ye,M.H.Ye,J.H.Yin,Z.Y.You,B.X.Yu,C.X.Yu,J.S.Yu,C.Z.Yuan,X.Q.Yuan,Y.Yuan,A.Yuncu,A.A.Zafar,Y.Zeng,B.X.Zhang,B.Y.Zhang,C.C.Zhang,D.H.Zhang,H.H.Zhang,H.Y.Zhang,J.Zhang,J.L.Zhang,J.Q.Zhang,J.W.Zhang,J.Y.Zhang,J.Z.Zhang,K.Zhang,L.Zhang,S.F.Zhang,T.J.Zhang,X.Y.Zhang,Y.Zhang,Y.H.Zhang,Y.T.Zhang,Yang Zhang,Yao Zhang,Yi Zhang,Yu Zhang,Z.H.Zhang,Z.P.Zhang,Z.Q.Zhang,Z.Y.Zhang,G.Zhao,J.W.Zhao,J.Y.Zhao,J.Z.Zhao,Lei Zhao,Ling Zhao,M.G.Zhao,Q.Zhao,S.J.Zhao,T.C.Zhao,Y.B.Zhao,Z.G.Zhao,A.Zhemchugov,B.Zheng,J.P.Zheng,Y.Zheng,Y.H.Zheng,B.Zhong,L.Zhou,L.P.Zhou,Q.Zhou,X.Zhou,X.K.Zhou,Xingyu Zhou,Xiaoyu Zhou,Xu Zhou,A.N.Zhu,J.Zhu,J.Zhu,K.Zhu,K.J.Zhu,S.H.Zhu,W.J.Zhu,X.L.Zhu,Y.C.Zhu,Y.S.Zhu,Z.A.Zhu,J.Zhuang,B.S.Zou,J.H.Zou,无.Future Physics Programme of BESⅢ[J].Chinese Physics C,2020,44(4). 被引量：544
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2020年第11期

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Two-photon dual-channel fluorogenic probe for in situ imaging the mitochondrial H_(2)S/viscosity in the brain of drosophila Parkinson’s disease model 被引量：1

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