General Information of Binding Target of SBP (BTS) (ID: ST00375)
BTS Name
Fluorescein
Synonyms
Fluorescein
BTS Type
Small Molecule
Synthetic Binding Protein (SBP) Targeting This BTS
SBP Name Highest Status Mechanism Affinity Application Details Ref
Anticalin anti-Fluorescein FluA Research Binder Kd: 35.2 nM Tools for payload delivery
SBP Info
[1], [2]
scFv anti-fluorescein 3M Research Binder Kd: 1.2 nM Tools as a reagent with well folding and stable properties
SBP Info
[3]
scFv anti-Fluorescein B5-15 Research Binder N.A. Research tool
SBP Info
[4]
scFv anti-Fluorescein B5-2 Research Binder N.A. Research tool
SBP Info
[4]
scFv anti-Fluorescein B5-8 Research Binder N.A. Research tool
SBP Info
[4]
scFv anti-Fluorescein clone 12 Research Binder Kd: 1.1 nM Tools for tailoring in vitro evolution for protein affinity or stability
SBP Info
[4], [5]
scFv anti-Fluorescein FITC-E2 Research Binder Kd: 0.73 nM Research tool
SBP Info
[6]
scFv anti-fluorescein G1 Research Binder Kd: 3.9 nM Tools as a reagent with well folding and stable
SBP Info
[3]
scFv anti-Fluorescein LLA1 Research Binder Kd: 0.56 nM Research tool
SBP Info
[6]
scFv anti-Fluorescein LLA4 Research Binder Kd: 0.53 nM Research tool
SBP Info
[6]
scFv anti-Fluorescein LLB17 Research Binder Kd: 0.72 nM Research tool
SBP Info
[6]
scFv anti-fluorescein T0 Research Binder Kd: 16 nM Tools as a reagent with well folding and stable
SBP Info
[3]
References
1 Recent advances in the development of novel protein scaffolds based therapeutics. Int J Biol Macromol. 2017 Sep;102:630-641.
2 Small antibody-like proteins with prescribed ligand specificities derived from the lipocalin fold. Proc Natl Acad Sci U S A. 1999 Mar 2;96(5):1898-903.
3 Selection for improved protein stability by phage display. J Mol Biol. 1999 Nov 19;294(1):163-80.
4 Tailoring in vitro evolution for protein affinity or stability. Proc Natl Acad Sci U S A. 2001 Jan 2;98(1):75-80.
5 Comparison of Escherichia coli and rabbit reticulocyte ribosome display systems. FEBS Lett. 1999 Apr 30;450(1-2):105-10.
6 Non-repetitive single-chain Fv linkers selected by selectively infective phage (SIP) technology. Protein Eng. 1998 May;11(5):405-10.