Genetically Encoded Red Photosensitizers with Enhanced Phototoxicity

Genetically Encoded Red Photosensitizers with Enhanced Phototoxicity

Genetically encoded photosensitizers are increasingly used as optogenetic tools to control cell fate or trigger intracellular processes. A monomeric red fluorescent protein called SuperNova has been recently developed, however, it demonstrates suboptimal characteristics in most phototoxicity-based a...

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Veröffentlicht in:International journal of molecular sciences 2020-11, Vol.21 (22), p.8800, Article 8800
Hauptverfasser: Gorbachev, Dmitry A., Staroverov, Dmitry B., Lukyanov, Konstantin A., Sarkisyan, Karen S.
Format: Artikel
Sprache:eng
Schlagworte:
Bacteria
Biochemistry & Molecular Biology
Cell fate
Chemistry
Chemistry, Multidisciplinary
Chromophores
Directed evolution
E coli
Escherichia coli - genetics
Evolution
Fluorescence
fluorescent proteins
Genetic code
genetically encoded photosensitizers
HEK293 Cells
HeLa Cells
Humans
KillerRed
Life Sciences & Biomedicine
Luminescent Proteins - genetics
Luminescent Proteins - pharmacology
Mutagenesis
Mutation
Optogenetics
Photosensitizing Agents - pharmacology
Phototoxicity
Physical Sciences
Proteins
Recombinant Proteins - genetics
Recombinant Proteins - pharmacology
Red Fluorescent Protein
Science & Technology
Stellar evolution
SuperNova
Supernovae
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Zusammenfassung:Genetically encoded photosensitizers are increasingly used as optogenetic tools to control cell fate or trigger intracellular processes. A monomeric red fluorescent protein called SuperNova has been recently developed, however, it demonstrates suboptimal characteristics in most phototoxicity-based applications. Here, we applied directed evolution to this protein and identified SuperNova2, a protein with S10R substitution that results in enhanced brightness, chromophore maturation and phototoxicity in bacterial and mammalian cell cultures.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms21228800