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Cellular internalization mechanism of novel Raman probes designed for plant cells
RSC Chemical Biology ( IF 4.2 ) Pub Date : 2020-08-20 , DOI: 10.1039/d0cb00128g Keiko Midorikawa 1 , Kousuke Tsuchiya 1, 2 , Simon Sau Yin Law 1 , Yu Miyagi 1 , Takuya Asai 3 , Takanori Iino 3 , Yasuyuki Ozeki 3 , Yutaka Kodama 1, 4 , Keiji Numata 1, 2
RSC Chemical Biology ( IF 4.2 ) Pub Date : 2020-08-20 , DOI: 10.1039/d0cb00128g Keiko Midorikawa 1 , Kousuke Tsuchiya 1, 2 , Simon Sau Yin Law 1 , Yu Miyagi 1 , Takuya Asai 3 , Takanori Iino 3 , Yasuyuki Ozeki 3 , Yutaka Kodama 1, 4 , Keiji Numata 1, 2
Affiliation
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Diphenylacetylene derivatives containing different polymeric components, poly(L-lysine) (pLys) or tetra(ethylene glycol) (TEG) were designed as novel Raman imaging probes with high Raman sensitivity and low cytotoxicity in living plant cells. The pLys-conjugated probe is internalized via an endocytosis-dependent pathway, whereas TEG-conjugated probe most likely induces direct penetration into the plant cells.
中文翻译:
为植物细胞设计的新型拉曼探针的细胞内化机制
含有不同聚合物成分的二苯乙炔衍生物,聚(L-赖氨酸)(pLys)或四(乙二醇)(TEG)被设计为新型拉曼成像探针,在活植物细胞中具有高拉曼灵敏度和低细胞毒性。pLys 偶联探针通过内吞作用依赖途径内化,而 TEG 偶联探针最有可能诱导直接渗透到植物细胞中。
更新日期:2020-10-08
中文翻译:
为植物细胞设计的新型拉曼探针的细胞内化机制
含有不同聚合物成分的二苯乙炔衍生物,聚(L-赖氨酸)(pLys)或四(乙二醇)(TEG)被设计为新型拉曼成像探针,在活植物细胞中具有高拉曼灵敏度和低细胞毒性。pLys 偶联探针通过内吞作用依赖途径内化,而 TEG 偶联探针最有可能诱导直接渗透到植物细胞中。
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