Bright and stable monomeric green fluorescent protein derived from StayGold.
Hanbin ZhangGleb D LesnovOksana M SubachWenhao ZhangTatyana P KuzmichevaAnna V VlaskinaValeriya R SamyginaLiangyi ChenXianxin YeAlena Yu NikolaevaAzat G GabdulkhakovStavrini PapadakiWenming QinValentin I BorshchevskiyMaxim M PerfilovAlexey S GavrikovMikhail DrobizhevAlexander S MishinKiryl D PiatkevichFedor V SubachPublished in: Nature methods (2024)
The high brightness and photostability of the green fluorescent protein StayGold make it a particularly attractive probe for long-term live-cell imaging; however, its dimeric nature precludes its application as a fluorescent tag for some proteins. Here, we report the development and crystal structures of a monomeric variant of StayGold, named mBaoJin, which preserves the beneficial properties of its precursor, while serving as a tag for structural proteins and membranes. Systematic benchmarking of mBaoJin against popular green fluorescent proteins and other recently introduced monomeric and pseudomonomeric derivatives of StayGold established mBaoJin as a bright and photostable fluorescent protein, exhibiting rapid maturation and high pH/chemical stability. mBaoJin was also demonstrated for super-resolution, long-term live-cell imaging and expansion microscopy. We further showed the applicability of mBaoJin for neuronal labeling in model organisms, including Caenorhabditis elegans and mice.
Keyphrases
- quantum dots
- living cells
- label free
- high resolution
- fluorescent probe
- single molecule
- protein protein
- amino acid
- type diabetes
- sensitive detection
- adipose tissue
- skeletal muscle
- metabolic syndrome
- insulin resistance
- brain injury
- fluorescence imaging
- high speed
- subarachnoid hemorrhage
- loop mediated isothermal amplification