For efficient and quantitative DNA detection,fluorescence staining is the most often explored approach,which relies on non-covalent binding of dyes with double stranded DNA(dsDNA).Ethidium bromide(EB)is the most class...For efficient and quantitative DNA detection,fluorescence staining is the most often explored approach,which relies on non-covalent binding of dyes with double stranded DNA(dsDNA).Ethidium bromide(EB)is the most classic DNA stain,but suffers from its high carcinogenicity.A series of less toxic alternatives were developed,many of which contain the core structure of the benzothiazole ring.However,the relationship between the structure and the DNA detection performance was not illustrated.Herein,five benzothiazole dyes,namely thiazole orange,SYBR Green I,Pico Green,SYBR Safe,and thioflavine-T,were compared for DNA detection through direct fluorescence and gel electrophoresis,with particular focus on the structure-performance relationship.It turned out that SYBR Green I is currently the best choice for DNA detection.The results in this work may be useful for future DNA-staining dye developments.展开更多
Stokes shift is an important feature of fluorescence, which reveals the energy loss between the excitation and the emission. For most fluorescent materials(e.g., organic dyes and proteins), the large overlap between t...Stokes shift is an important feature of fluorescence, which reveals the energy loss between the excitation and the emission. For most fluorescent materials(e.g., organic dyes and proteins), the large overlap between the absorption and emission spectra endow them a small Stokes shift that induced reabsorption by fluorophore itself. Although the self-absorption can be effectively reduced due to the emergence of fluorescent nanomaterials, fluorescence attenuation is still observed in aggregated or concentrated nanocrystals, causing reduced sensitivity of biosensors. Therefore, increasing the Stokes shift can effectively improve the performance of nano-agents based biosensing. In this critical review, through understanding the Stokes shift from the viewpoint of self-absorption, the influence of Stokes shift on fluorescence properties are discussed. Based on the principle of changing the Stokes shift of fluorescent nanomaterials, we described the methods for constructing various optically large Stokes shift-based nanomaterials, and the application of these nanocrystals in biosensing is especially concerned in this review.展开更多
基金the Major Scientific and Technological Application Program of Chengdu(No.2019-YF09-0081-SN)the Major Scientific and Technological Special Program of Sichuan Province(No.2018SZDZX0027)the Fundamental Research Funds for Central Universities(No.2018SCUH0075)。
文摘For efficient and quantitative DNA detection,fluorescence staining is the most often explored approach,which relies on non-covalent binding of dyes with double stranded DNA(dsDNA).Ethidium bromide(EB)is the most classic DNA stain,but suffers from its high carcinogenicity.A series of less toxic alternatives were developed,many of which contain the core structure of the benzothiazole ring.However,the relationship between the structure and the DNA detection performance was not illustrated.Herein,five benzothiazole dyes,namely thiazole orange,SYBR Green I,Pico Green,SYBR Safe,and thioflavine-T,were compared for DNA detection through direct fluorescence and gel electrophoresis,with particular focus on the structure-performance relationship.It turned out that SYBR Green I is currently the best choice for DNA detection.The results in this work may be useful for future DNA-staining dye developments.
基金financial support from the Youth Science Foundation of Sichuan Province (No. 2016JQ0019)the Postdoctoral Science Foundation of China (No. 52018M633359)
文摘Stokes shift is an important feature of fluorescence, which reveals the energy loss between the excitation and the emission. For most fluorescent materials(e.g., organic dyes and proteins), the large overlap between the absorption and emission spectra endow them a small Stokes shift that induced reabsorption by fluorophore itself. Although the self-absorption can be effectively reduced due to the emergence of fluorescent nanomaterials, fluorescence attenuation is still observed in aggregated or concentrated nanocrystals, causing reduced sensitivity of biosensors. Therefore, increasing the Stokes shift can effectively improve the performance of nano-agents based biosensing. In this critical review, through understanding the Stokes shift from the viewpoint of self-absorption, the influence of Stokes shift on fluorescence properties are discussed. Based on the principle of changing the Stokes shift of fluorescent nanomaterials, we described the methods for constructing various optically large Stokes shift-based nanomaterials, and the application of these nanocrystals in biosensing is especially concerned in this review.
