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YB-1 Recruits Drosha to Promote Splicing of pri-miR-192 to Mediate the Proangiogenic Effects of H2S Journal article
Zhou, Yu, Li, Xing Hui, Xue, Wen Long, Jin, Sheng, Li, Meng Yao, Zhang, Cai Cai, Yu, Bo, Zhu, Lei, Liang, Kun, Chen, Ying, Tao, Bei Bei, Zhu, Yi Zhun, Wang, Ming Jie, Zhu, Yi Chun. YB-1 Recruits Drosha to Promote Splicing of pri-miR-192 to Mediate the Proangiogenic Effects of H2S[J]. Antioxidants and Redox Signaling, 2022, 36(10-12), 760-783.
Authors:  Zhou, Yu;  Li, Xing Hui;  Xue, Wen Long;  Jin, Sheng;  Li, Meng Yao; et al.
Favorite | TC[WOS]:13 TC[Scopus]:14  IF:5.9/10.5 | Submit date:2023/01/30
Angiogenesis  H2s  Mir-192  Organ Ischemia  Yb-1  
A facile strategy for the ion current and fluorescence dual-lock in detection: Naphthalic anhydride azide (naa)-modified biomimetic nanochannel sensor towards h2 s Journal article
Wu, I., Zhang, Dan, Zhang, Xuanjun. A facile strategy for the ion current and fluorescence dual-lock in detection: Naphthalic anhydride azide (naa)-modified biomimetic nanochannel sensor towards h2 s[J]. CHEMOSENSORS, 2021, 9(11), 298.
Authors:  Wu, I.;  Zhang, Dan;  Zhang, Xuanjun
Favorite | TC[WOS]:5 TC[Scopus]:5  IF:3.7/3.7 | Submit date:2021/12/08
Biomimetic Nanochannels  Current  Dual-signal Sensing  Fluorescence  H2s  
Structure–reactivity relationship of probes based on the H2S-mediated reductive cleavage of the C=C bond Journal article
Wang, C., Tan, J., Zhang, X.. Structure–reactivity relationship of probes based on the H2S-mediated reductive cleavage of the C=C bond[J]. New J. Chem, 2020, 11667-11677.
Authors:  Wang, C.;  Tan, J.;  Zhang, X.
Favorite | TC[WOS]:2 TC[Scopus]:3 | Submit date:2022/07/27
Structure–reactivity Relationship  H2s Probe  Reductive Cleavage  C=c Bond  
Reductive cleavage of C=C bond as a new strategy for turn on dual fluorescence in effective sensing H2S Journal article
Wang, C., Cheng, X., Tan, J., Ding, Z., Wang, W., Yuan, D., Li, G., Zhang, H., Zhang, X.. Reductive cleavage of C=C bond as a new strategy for turn on dual fluorescence in effective sensing H2S[J]. Chemical Science, 2018, 8369-8374.
Authors:  Wang, C.;  Cheng, X.;  Tan, J.;  Ding, Z.;  Wang, W.; et al.
Favorite | TC[WOS]:36 TC[Scopus]:37  IF:7.6/8.0 | Submit date:2022/07/27
Reductive Cleavage  H2s  Turn-on Fluorescence  Sensing  
Optical H2 S Gas sensor based on spectrum-absorption Journal article
Tang D., Wang Y., Guo F., Zhao D.. Optical H2 S Gas sensor based on spectrum-absorption[J]. Chinese Journal of Sensors and Actuators, 2010, 23(4), 458-460.
Authors:  Tang D.;  Wang Y.;  Guo F.;  Zhao D.
Favorite |  | Submit date:2019/01/16
Concentration detection  Differential absorption  H2s gas  Infrared spectrum  Optical sensor