Development and Applications of Superfolder and Split Fluorescent Protein Detection Systems in Biology
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Frontiers | Improved Split-GFP Systems for Visualizing Organelle Contact Sites in Yeast and Human Cells
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Determining targeting specificity of nuclear-encoded organelle proteins with the self-assembling split fluorescent protein toolkit | bioRxiv
Development and Applications of Superfolder and Split Fluorescent Protein Detection Systems in Biology
Jonas Koeppel on Twitter: "Why insert short sequences? Many potential applications here. Protein tagging (even imaging with mNeonGreen-11 for example), expression control, knockouts by inserting stop codons, structural variation & genome engineering (
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IJMS | Free Full-Text | Development and Applications of Superfolder and Split Fluorescent Protein Detection Systems in Biology
Fluorescence protein complementation in microscopy: applications beyond detecting bi-molecular interactions
High-content tripartite split-GFP cell-based assays to screen for modulators of small GTPase activation
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The iSplit GFP assay detects intracellular recombinant proteins in Bacillus subtilis | Microbial Cell Factories | Full Text
A Multicolor Split-Fluorescent Protein Approach to Visualize Listeria Protein Secretion in Infection
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