Hyesoo Oh scite author profile

Hyesoo Oh

2Publications

9Citation Statements Received

110Citation Statements Given

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Sogang University

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Twelve Colors of Streptavidin–Fluorescent Proteins (SA-FPs): A Versatile Tool to Visualize Genetic Information in Single-Molecule DNA

et al. 2022

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Streptavidin–fluorescent proteins (SA-FPs) are a versatile tool to visualize a broad range of biochemical applications on a fluorescence microscope. Although the avidin–biotin interaction is widely used, the use of SA-FPs has not been applied to single-molecule DNA visualization. Here, we constructed 12 bright SA-FPs for DNA staining or labeling reagents. To date, 810 FPs are available, many of which are brighter than organic dyes. In this study, 12 bright FPs were selected to construct SA-FP plasmids covering green to red colors. Their brightness ranges from 40 to 165 mM–1 cm–1. Moreover, SA-FP is brighter than FP itself because streptavidin forms a tetramer complex; thus, four FPs are in a single complex. In addition, FPs often form a dimer or a tetramer, resulting in multiple FPs in a single spot on a microscopic image. This feature is advantageous because multiple fluorescent β-barrels on a single biotin tag provide enough brightness to be easily visualized by epifluorescence microscopy. Using SA-FPs, we visualized DNA backbones, nickase-based optical mapping, and AT-frequency profiling. Finally, we demonstrated the combination of nickase-based optical mapping using SA-FP and AT-frequency profiling.

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21 Fluorescent Protein-Based DNA Staining Dyes

Kim

Seo

et al. 2022

Molecules

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Fluorescent protein–DNA-binding peptides or proteins (FP-DBP) are a powerful means to stain and visualize large DNA molecules on a fluorescence microscope. Here, we constructed 21 kinds of FP-DBPs using various colors of fluorescent proteins and two DNA-binding motifs. From the database of fluorescent proteins (FPbase.org), we chose bright FPs, such as RRvT, tdTomato, mNeonGreen, mClover3, YPet, and mScarlet, which are four to eight times brighter than original wild-type GFP. Additionally, we chose other FPs, such as mOrange2, Emerald, mTurquoise2, mStrawberry, and mCherry, for variations in emitting wavelengths. For DNA-binding motifs, we used HMG (high mobility group) as an 11-mer peptide or a 36 kDa tTALE (truncated transcription activator-like effector). Using 21 FP-DBPs, we attempted to stain DNA molecules and then analyzed fluorescence intensities. Most FP-DBPs successfully visualized DNA molecules. Even with the same DNA-binding motif, the order of FP and DBP affected DNA staining in terms of brightness and DNA stretching. The DNA staining pattern by FP-DBPs was also affected by the FP types. The data from 21 FP-DBPs provided a guideline to develop novel DNA-binding fluorescent proteins.

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Hyesoo Oh

Twelve Colors of Streptavidin–Fluorescent Proteins (SA-FPs): A Versatile Tool to Visualize Genetic Information in Single-Molecule DNA

21 Fluorescent Protein-Based DNA Staining Dyes

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