Q71RY9 (Q71RY9_AZOVI) Azotobacter vinelandii

Green fluorescence protein UniProtKBProtein AtlasInterProInteractive Modelling

238 aa; Sequence (Fasta) ; 1 identical sequence: Aequorea victoria: P42212

Available Structures

490 Experimental Structures

DescriptionPDB IDOligo-stateRangeSeq id (%)Ligands
Crystal Structure of a Designed Protein Heterocatenane Heteromer
P04637; P42212;
1-238
94.96
C-terminal domain of EcoR124I HsdR subunit fused with the pH-sensitive GFP variant ratiometric pHlu… Heteromer
P10486; P42212;
2-238
100
GFP-40/GFPuv complex, Form I Heteromer
P42212;
3-238
98.41
Secretagogin (mouse) in complex with its target peptide from Syntaxin-4 Heteromer
P42212; P70452; Q91WD9;
2-236
98.41CA;CAC;
Crystal structure of GFPuv complexed with the nanobody LaG16 at 1.67 Angstron resolution Heteromer
P42212;
4-237
98.39
Structure of the GFP:GFP-nanobody complex at 2.8 A resolution in spacegroup P21212 Heteromer
P42212;
2-235
98.41IPA;
DARPin eGFP complex DP4 (2G71) Heteromer
P42212;
2-234
98.41
GFP-binding DARPin 3G61 Heteromer
P42212;
2-233
98.41PEG;
Secretagogin (human) in complex with its target peptide from SNAP-25 Heteromer
O76038; P42212; P60880;
2-233
98.41ACT;CA;144;
Cryo-EM structure of the Ceru+32/GFP-17 protomer Heteromer
P42212;
2-232
83.04
Green Fluorescence Protein imaged on a cryo-EM imaging scaffold Heteromer
P42212;
1-231
93.85
DARPin-based Crystallization Chaperones exploit Molecular Geometry as a Screening Dimension in Prot… Heteromer
P42212;
2-231
100
GFP-binding DARPin fusion gc_K7 Heteromer
P42212;
2-231
98.41
High affinity nanobodies to GFP Heteromer
P42212;
2-231
100GOL;SO4; 11×NA;
GFP-binding DARPin fusion gc_K11 Heteromer
P42212;
2-231
98.41EDO;CIT;IPA;NA;
High Affinity nanobodies against GFP Heteromer
P42212;
2-231
98.44NA;K;
Bright fluorescent protein BrUSLEE with subnanosecond fluorescence lifetime Heteromer
P42212;
2-231
98.41GOL;
Crystal structure of GFP-Wrnip1 UBZ domain fusion protein in complex with ubiquitin Heteromer
P42212; P62983; Q96S55;
1-230
98.46ZN;
GFP-binding DARPin fusion gc_R7 Heteromer
P42212;
2-231
96.88CIT;
Crystal structure of vsfGFP-0 Heteromer
P42212;
2-231
93.75
High Affinity nanobodies against GFP Heteromer
P42212;
2-231
100GOL;CL;NA;
X-ray structure of bGFP-C / EGFP complex Heteromer
P42212;
2-231
98.41
GFP-binding DARPin fusion gc_R11 Heteromer
P42212;
2-230
98.41EDO;
DARPin eGFP complex DP2 (2G156) Heteromer
P42212;
2-230
98.41A1H87;EDO;NA;TRS;
Crystal Structure of LaG16 Nanobody bound to eGFP Heteromer
P42212;
3-231
98.39
Green fluorescent protein bound to minimizer nanobody Heteromer
P42212;
2-230
96.88
GFP nuclear transport receptor mimic 3B8 Heteromer
P42212;
2-230
90.16NA;IMD;
GFP-binding DARPin fusion gc_R11 Heteromer
P42212;
2-230
96.88EDO;
High Affinity nanobodies against GFP Heteromer
P42212;
2-230
98.44GOL;MLT;NA;PO4;
GFP-40/GFPuv complex, Form II Heteromer
P42212;
3-231
100
X-ray structure of bGFP-A / EGFP complex Heteromer
P42212;
3-231
98.39
Crystal Structure of Lag30 Nanobody bound to eGFP Heteromer
P42212;
3-231
98.39GOL;MES;PO4;
GFP-binding DARPin 3G124nc Heteromer
P42212;
2-230
96.88PO4;EDO;
Crystal structure of a well-folded variant of green fluorescent protein Heteromer
P42212;
3-231
96.83MG;
Crystal structure of DARPin-DARPin rigid fusion, variant DD_Off7_11_3G124 in complex with Maltose-b… Heteromer
P0AEX9; P42212;
2-230
100
Crystal structure of DARPin-DARPin rigid fusion, variant DD_Off7_10_3G124 in complex with Maltose-b… Heteromer
P0AEX9; P42212;
2-230
98.44
High Affinity nanobodies against GFP Heteromer
P42212;
2-230
100
Single particle cryoEM structure of a DARPin-aldolase platform in complex with GFP Heteromer
P00883; P42212;
2-230
98.41
DARPin eGFP complex DP1 (3G190.24) Heteromer
P42212;
2-229
96.88EDO;BR;
GREEN FLUORESCENT PROTEIN FROM AEQUOREA VICTORIA, MUTANT Heteromer
P42212;
4-231
96.77
GFP-binding DARPin 3G124nc Heteromer
P42212;
3-230
98.39
Cryo-EM structure of the PYD filament of AIM2 Heteromer
O14862; P42212;
2-229
100
Green fluorescent protein bound to enhancer nanobody Heteromer
P42212;
3-229
98.41
Secretagogin (mouse) in complex with its target peptide from SNAP-25 Heteromer
P42212; P60880; Q91WD9;
2-228
98.41CA;
High Affinity nanobodies against GFP Heteromer
P42212;
3-229
100NH4;GOL;CL;SO4;
MYOSIN VI (MDinsert2-GFP fusion) PRE-POWERSTROKE STATE (MG.ADP.AlF4) Heteromer
P42212; P62152; Q29122;
2-228
100ADP;MG;ALF;CA;
Structure of a substrate engaged SecA-SecY protein translocation machine Heteromer
A4IJH4; A4IJK8; P0A910; P28366; P42212;
3-229
98.41MG;BEF;ADP;PGV;
Substrate-engaged TOM complex from yeast Heteromer
P23644; P33448; P42212; P49334; P53507; P80967;
4-229
95.16
High Affinity nanobodies against GFP Heteromer
P42212;
4-228
100CL;NA;
Crystal Structure of Split GFP complexed with engineered sfCherry with an insertion of GFP fragment Heteromer
P42212; Q9U6Y8;
3-194
90.32
Crystal structure of green fluorescent protein (GFP); S65T, Y66(3-OMeY); ih circular permutant (50-… Heteromer
P42212;
51-237
85.71
Photoproduct of the Wild-Type Aequorea victoria Green Fluorescent Protein after structural annealin…homo-8-mer2-231
98.44
Filamentous Assembly of Green Fluorescent Protein Supported by a C-terminal fusion of 18-residues, …homo-7-mer2-238
98.44
Filamentous Assembly of Green Fluorescent Protein Supported by a C-terminal fusion of 18-residues, …homo-6-mer4-238
98.39MPD;
Filamentous Assembly of Green Fluorescent Protein Supported by a C-terminal fusion of 18-residues, …homo-5-mer2-238
98.4410×ACT; 10×MPD;
Filamentous Assembly of Green Fluorescent Protein Supported by a C-terminal fusion of 18-residues, …homo-5-mer2-238
98.44
Wild-Type Aequorea victoria Green Fluorescent Proteinhomo-4-mer2-231
98.44
Photoproduct of the Wild-Type Aequorea victoria Green Fluorescent Protein at 100 Khomo-4-mer2-231
98.44
Crystal structure of mouse Bak BH3-in-groove homodimer (GFP)homo-4-mer1-230
98.46
Photoproduct of the wild-type Aequorea victoria Green Fluorescent Proteinhomo-4-mer3-231
98.41
Bax BH3-in-Groove dimer (GFP)homo-4-mer2-230
98.44
Green Fluorescent Protein Mutant F99S, M153T and V163Ahomo-4-mer4-230
98.39
Crystal structure of the carboxy-terminal domain of a coronavirus M protein fused with a split GFPhomo-4-mer2-227
93.75
Crystal structure of the PS2 assembly factor Psb32 from the cyanobactium Thermosyncechococcus vesti…homo-2-mer1-238
93.85
The Structure of Ultra Stable Green Fluorescent Proteinhomo-2-mer3-238
95.16NO3;EDO;CL;GOL;
sfGFP C148 F206 mutanthomo-2-mer1-233
92.31
SfGFP C148 F206 mutanthomo-2-mer2-233
95.24
Crystal structure of GFP-TAX1BP1 UBZ2 domain fusion proteinhomo-2-mer1-230
98.46ZN;
Bak BH3-in-Groove dimer (GFP)homo-2-mer1-230
98.46CAC;MPD;
Structure of S65G Y66S GFP variant after spontaneous peptide hydrolysishomo-2-mer2-230
96.88MG;
Structure of S65G Y66A GFP variant after spontaneous peptide hydrolysishomo-2-mer2-230
96.88MG;
Super-Folder Green Fluorescent Protein Artificiall dimer linked via 148 positionhomo-2-mer3-231
95.16DB5;GOL;EDO;
CRYSTAL STRUCTURE OF A YELLOW FLUORESCENT PROTEIN WITH IMPROVED MATURATION AND REDUCED ENVIRONMENTA…homo-2-mer2-230
95.31
Crystal structure of GFP-TAX1BP1 UBZ1+2 domain fusion proteinhomo-2-mer2-230
98.44ZN;
Crystal structure of sfGFP-66-HqAlahomo-2-mer4-232
93.55HQY; 10×CS;
Structure of S65A Y66S GFP variant after backbone fragmentationhomo-2-mer3-230
100
sfGFP 204-204 mutant dimerhomo-2-mer3-229
95.16NA;DB5;GOL;
Structure of S65G Y66S GFP variant after spontaneous peptide hydrolysis and decarboxylationhomo-2-mer3-229
100MG;
GREEN FLUORESCENT PROTEIN FROM AEQUOREA VICTORIA, MUTANThomo-2-mer6-230
98.31
GREEN FLUORESCENT PROTEIN FROM AEQUOREA VICTORIA, MUTANThomo-2-mer6-230
98.31
GREEN FLUORESCENT PROTEIN FROM AEQUOREA VICTORIA, MUTANThomo-2-mer6-230
98.31
GREEN FLUORESCENT PROTEIN FROM AEQUOREA VICTORIA, MUTANThomo-2-mer6-229
98.31
GREEN FLUORESCENT PROTEIN FROM AEQUOREA VICTORIA, MUTANThomo-2-mer6-229
98.31
GREEN FLUORESCENT PROTEIN FROM AEQUOREA VICTORIA, MUTANThomo-2-mer6-229
98.31
GREEN FLUORESCENT PROTEIN FROM AEQUOREA VICTORIA, MUTANThomo-2-mer7-229
98.28
GREEN FLUORESCENT PROTEIN FROM AEQUOREA VICTORIA, MUTANThomo-2-mer7-229
96.61
High resolution structure of GCaMP3 dimer form 1 at pH 7.5homo-2-mer2-213
96.88CA;
High resolution structure of GCaMP3 dimer form 2 at pH 7.5homo-2-mer2-213
96.88CA;PEG;
High resolution structure of GCaMP3 at pH 8.5homo-2-mer2-213
96.88CA;
High resolution structure of GCaMP3 at pH 5.0homo-2-mer2-213
96.88CA;
Crystal Structure of Dimeric GCaMP2-LIA(linker 1)homo-2-mer2-192
96.83CA;
Crystal structure of Calcium bound dimeric GCAMP2homo-2-mer2-192
96.88CA;
Calcium-saturated GCaMP2 dimerhomo-2-mer2-192
96.88CA;
Crystal Structure of Dimeric GCaMP3-D380Y, QP(linker 1), LP(linker 2)homo-2-mer2-192
96.88CA;SO4;GOL;
Crystal structure of dimeric GCaMP6mhomo-2-mer2-192
96.88CA;
Crystal structure of green fluorescent protein (GFP); S65T, Y66(2,3,5-F3Y); ih circular permutant (…homo-2-mer51-237
85.71
Crystal structure of green fluorescent protein (GFP); S65T, Y66(3-NO2Y); ih circular permutant (50-…homo-2-mer52-237
85.71
X-ray structure of the iAspSnFR in complex with L-aspartatehomo-2-mer1-162
93.85ASP;ACT;MG;
X-ray structure of the SF-iGluSnFR-S72A in complex with L-aspartatehomo-2-mer1-162
93.85ASP;
Crystal Structure of Calcium bound dimeric GCAMP2 (#2)homo-2-mer2-148
98.41CA;
Functional and structural characterization of redox sensitive superfolder green fluorescent protein…monomer1-238
92.31EOH;
Crystal structure of rsEGFP2 in the fluorescent on-statemonomer1-238
95.39
rsEGFP2 with a chlorinated chromophore in the non-fluorescent off-statemonomer1-238
95.39SO4;
Crystal structure of rsEGFP2 in the non-fluorescent off-statemonomer1-238
95.39
rsEGFP2 with a chlorinated chromophore in the fluorescent on-statemonomer1-238
95.39
VKOR-like from Takifugu rubripesmonomer1-238
93.85OLC;
Takifugu rubripes VKOR-like C138S mutant with vitamin K1monomer1-238
93.85PQN;
Takifugu rubripes VKOR-like with vitamin K1 epoxide at non-catalytic statemonomer1-238
93.85
Takifugu rubripes VKOR-like with vitamin K1 in noncatalytic statemonomer1-238
93.85
High resolution crystal structure of CyPet mutant A167Imonomer1-237
90.77NA;
GFP8 - a stabilized variant of cycle-3 GFPmonomer2-238
95.31
X-ray Structure of the Cyan Fluorescent Protein mTurquoise2 (K206A mutant)monomer2-238
96.88
Crystal structure of yeast enhanced green fluorescent protein-ubiquitin fusion proteinmonomer2-238
98.44EDO;
Crystal structure of rsEGFP2, Y67(3-ClY), Y107(3-ClY)monomer2-238
98.41SO4;
rsEGFP in the green-on statemonomer2-238
98.41SO4;
The 1.62A structure of a FRET-optimized Cerulean Fluorescent Proteinmonomer2-238
96.88GOL;PEG;ACT;
Crystal Structure of rsEGFP2 in the fluorescent on-state determined by SFXmonomer2-238
98.41
Difference-refined excited-state structure of rsEGFP2 1ps following 400nm-laser irradiation of the …monomer2-238
96.88
Composite structure of rsEGFP2 1ps following 400nm-laser irradiation of the off-state.monomer2-238
98.41
Crystal structure of rsEGFP2 mutant V151A in the fluorescent on-state determined by serial femtosec…monomer2-238
98.41
Crystal structure of the YFPnano fusion proteinmonomer2-238
98.44TLA;CA;EDO;GOL;
Single excitation and two emissions pH sensor protein(SITE-pHorin)_pH7.0monomer2-238
95.31
Yellow fluorescent protein - glutaredoxin fusion proteinmonomer2-238
96.88SO4;
Structure of PfNT1(Y190A)-GFP in complex with GSK4monomer2-238
98.69IRX;
Engineered high-affinity halide-binding protein derived from YFP: halide-freemonomer2-237
100
Structure of S65T Y66F R96A GFP variant in precursor statemonomer2-237
96.97MG;
Reduced enolate chromophore intermediate for GFP variantmonomer3-238
98.39MG;EDO;
Engineered high-affinity halide-binding protein derived from YFP: chloride complexmonomer2-237
100CL;
Structure of S65T Y66F GFP variant after cyclization, carbon-carbon bond cleavage, and oxygen incor…monomer2-237
98.41MG;
Engineered high-affinity halide-binding protein derived from YFP: bromide complexmonomer2-237
100BR;
Engineered high-affinity halide-binding protein derived from YFP: iodide complexmonomer2-237
100IOD;
Spectroscopic and Structural Study of the Heterotropic Linkage between Halide and Proton Ion Bindin…monomer2-237
98.41CL;
Engineered high-affinity halide-binding protein derived from YFP: fluoride complexmonomer2-237
100
Anaerobic precylization intermediate crystal structure for S65G Y66G GFP variantmonomer2-237
97.46
Metal sensitive GFP (mseGFP) complexed with phenylarsine oxide.monomer3-238
96.77SO4;CA;PEG;PA0;
Green fluorescent protein ground states: the influence of a second protonation site near the chromo…monomer2-237
98.41SO4;
Superfolder green fluorescent protein with phosphine unnatural amino acid P3BFmonomer3-238
96.83
roGFP1-R7. Cystal structure analysis of a rate-enhanced variant of redox-sensitive green fluorescen…monomer3-238
96.83IMD;
Takifugu rubripes VKOR-like with warfarinmonomer3-238
93.65SWF;
Superfolder Green Fluorescent Protein with 4-cyano-L-phenylalanine at the chromophore (position 66)monomer4-238
95.08EDO;SO4;NA;
Reduced enolate chromophore intermediate for Y66H GFP variantmonomer3-237
96.83MG;
EGFP(enhanced green fluorescent protein) mutant - L232Hmonomer2-236
98.41AE4;
sfGFP N149 mutated to 4-nitro-L-phenylalaninemonomer4-238
93.55NA;
Green fluorescent protein variant GFPuv with the native lysine residue at the C-terminusmonomer4-238
98.39SO4;
Superfolder Green Fluorescent Protein with 4-nitro-L-phenylalanine at the chromophore (position 66)monomer4-238
95.08CO2;
X-ray structure of the haloalkane dehalogenase HaloTag7 fusion to the green fluorescent protein GFP…monomer4-238
100OEH;CL;GOL;
sfGFP mutant - 133 p-cyano-L-phenylalaninemonomer4-238
93.5510×EDO;NA;
Truncated strand 10-less green fluorescent proteinmonomer3-237
78.57
X-ray structure of the interface optimized haloalkane dehalogenase HaloTag7 fusion to the green flu…monomer4-238
100OEH;CL;
X-ray structure of ReQy1 (reduced form)monomer4-238
93.55
Cyclic Green Fluorescent Proteinmonomer1-235
95.39SO4;
crystal structure of GFP with cuprum bound at the Incorporated metal Chelating Amino Acid PYZ151monomer4-237
95.73CU;CA;
Green fluorescent protein variant GFPuv with the modification to 6-hydroxynorleucine at the C-termi…monomer4-237
100LDO;SO4;MES;
Crystal structure of Green Fluorescent Protein (GFP); S65T, Y66(Cl2Y), H148D; circular permutant ( …monomer4-237
86.67
Crystal structure of Green Fluorescent Protein (GFP); S65T, Y66(Cl1Y), H148D; circular permutant (5…monomer4-237
86.67
Structure of GFPmut2 crystallized at pH 6monomer1-233
100MPD;MRD;
Structure of GFPmut2 crystallized at pH 6 and transferred to pH 7monomer1-233
98.46MPD;MRD;
Crystal structure analysis of single amino acid deletion mutations in EGFPmonomer2-233
100EDO;EPE;NA;ZN;
The Structure of Monomeric Ultra Stable Green Fluorescent Proteinmonomer3-234
93.65CL;
crystal structure of GINKO1monomer2-233
96.88K;
Crystal Structure of an eYFP single mutantmonomer2-233
98.44SO4;
GFP mutant S205Gmonomer4-235
98.39MLT;
Functional and structural characterization of redox sensitive superfolder green fluorescent protein…monomer1-231
90.77GOL;EOH;ARF;
1.10A resolution crystal structure of a superfolder green fluorescent protein (W57A) mutantmonomer2-232
93.65EDO;
Green/cyan WasCFP at pH 8.0monomer2-232
95.31GOL;NA;
Crystal structure of a superfolder green fluorescent proteinmonomer2-232
93.75CD;ACY;
sfGFP mutant with unnatural amino acid 4-azidoethoxy-L-phenylalanine incorporated at the 149 sitemonomer2-232
93.75
Crystal structure of rsFolder in the fluorescent on-statemonomer2-232
95.24
The oxidized state of a redox sensitive variant of green fluorescent proteinmonomer2-232
96.88CL;
Crystal structure of rsEGFP2 mutant V151A in the non-fluorescent off-state determined by synchrotro…monomer2-232
98.41SO4;
Single excitation and two emissions pH sensor protein (SITE-pHorin)_C203E_pH8.0monomer2-232
95.31
Crystal structure of rsEGFP2 in its off-state determined by SFXmonomer2-232
98.41
rsEGFP2 with a chlorinated chromophore in the non-fluorescent off-state in a contracted unit cellmonomer1-231
95.39SO4;
Crystal structure of rsFolder2 in its non-fluorescent off-statemonomer2-232
95.24
Crystal Structure of a Cyclized GFP Variantmonomer1-231
96.92CA;
Crystal structure of rsEGFP2 in the non-fluorescent off-state determined by serial femtosecond crys…monomer2-232
96.88
Blue Fluorescent Protein mKalama1monomer2-232
88.89MES;SO4;CL;
rsEGFP2 photoswitched to its off-state at room temperature and back-switched to its on-state at 100Kmonomer2-232
98.41SO4;
Difference-refined structure of rsEGFP2 10 ns following 400-nm laser irradiation of the off-state d…monomer2-232
98.41
Crystal structure of rsEGFP2 mutant V151L in the non-fluorescent off-state the determined by serial…monomer2-232
98.41
Human JAGN1monomer1-231
93.85OLC;
rsEGFP2 photoswitched to its off-state at 100Kmonomer2-232
98.41SO4;
Crystal structure of citrate Biosensormonomer1-231
92.31CIT;
Crystal structure of the F99S/M153T/V163A/E222Q variant of GFP at 0.78 Amonomer2-231
100MG;
Crystal structure of the S65T/F99S/M153T/V163A variant of perdeuterated GFP at pD 7.0monomer2-231
100
Crystal structure of the S65T/F99S/M153T/V163A variant of GFP at 0.85 Amonomer2-231
98.44
Crystal structure of the S65T/F99S/M153T/V163A variant of non-deuterated GFP at pD 8.5monomer2-231
100
Atomic resolution structure of GFP measured on a rotating anodemonomer3-232
96.83IPA;EOH;
Crystal structure of the S65T/F99S/M153T/V163A variant of perdeuterated GFP at pD 8.5monomer2-231
98.44
Crystal structure of the F99S/M153T/V163A/T203I variant of GFP at 0.94 Amonomer2-231
98.44CL;
Structure of Cerulean Fluorescent Protein at 1.02 Angstrom resolutionmonomer2-231
98.41
Green/cyan WasCFP-pH5.5 at pH 5.5monomer2-231
95.31GOL;NA;
Green/cyan WasCFP at pH 10.0monomer2-231
95.31GOL;NA;
Crystal structure of the F99S/M153T/V163A/T203V variant of GFP at pH 7.5monomer2-231
100MG;
Structure of rsGreen0.7 in the green-off-statemonomer2-231
93.75
Crystal structure of the F99S/M153T/V163A/T203V/E222Q variant of GFP at pH 8.5monomer2-231
100MG;
Crystal structure of the F99S/M153T/V163A/T203V/E222Q variant of GFP at pH 5.0monomer2-231
100CL;
crystal structure of GFP-TYR151PYZ with an unnatural amino acid incorporationmonomer2-231
98.26
Green/cyan WasCFP at pH 2.0monomer2-231
95.31
Structure of cyclized F64L S65A Y66S GFP variantmonomer2-231
98.41MG;
Engineered medium-affinity halide-binding protein derived from YFP: chloride complexmonomer2-231
100EDO;CL;
Development of a family of redox-sensitive green fluorescent protein indicators for use in relative…monomer2-231
95.31MG;
1.4 Angstrom Crystal Structure of Fluorescent Protein Cypetmonomer1-230
90.77
X-ray structure of the cyan fluorescent protein mTurquoise-GL (K206A mutant) in space group C222(1)monomer2-231
96.88
Crystal structure of the F99S/M153T/V163A/T203I/E222Q variant of GFP at pH 8.5monomer2-231
100MG;
Crystal structure of the F99S/M153T/V163A variant of GFP at pH 8.5monomer2-231
100MG;
superfolder GFP Tyr74pCNPhe mutantmonomer3-232
95.16CO2;EDO;PEG;MG;
1.6 angstrom crystal structure of fluorescent protein Cypetmonomer1-230
90.77
Crystal structure of yeast enhanced green fluorescent protein - mouse polymerase iota ubiquitin bin…monomer1-230
98.46SO4;
Crystal structure of rsFolder2 in its fluorescent on-statemonomer2-231
95.24GOL;
Crystal structure of redox-sensitive green fluorescent protein Clover mutant roClover1monomer2-231
95.31
Crystal structure of rsEGFP2 T204A in its fluorescent on-statemonomer2-231
98.41GOL;SO4;
Room temperature structure of the fluorescent protein Cerulean recorded after an accumulated dose o…monomer2-231
98.41
Crystal structure of rsEGFP2 mutant V151L in the non-fluorescent off-state determined by synchrotro…monomer2-231
98.41
Crystal Structure of Green Fluorescent Proteinmonomer2-231
96.88
rsEGFP2 with a chlorinated chromophore in the fluorescent on-state in a contracted unit cellmonomer1-230
95.39SO4;
Engineered medium-affinity halide-binding protein derived from YFP: bromide complexmonomer2-231
98.44EDO;BR;
Structure of GFPmut2 crystallized at pH 8.5monomer1-230
98.46CA;
Crystal structure of rsEGFP2 mutant V151A in the non-fluorescent off-state determined by serial fem…monomer2-231
98.41
Human VKOR with Brodifacoummonomer2-231
93.75UA7;OLC;
Functional and structural characterization of redox sensitive superfolder green fluorescent protein…monomer4-233
93.55PGE;PEG;
sfGFP D133 mutated to 4-nitro-L-phenylalaninemonomer2-231
93.75EDO;NA;
Dark-state structure of sfGFP containing the unnatural amino acid p-azido-phenylalanine at residue …monomer2-231
95.24SO4; 19×EDO;TRS;
Different photochemical events of a genetically encoded aryl azide define and modulate GFP fluoresc…monomer2-231
93.75SO4; 13×EDO;TRS;
CRYSTAL STRUCTURE OF CITRINE, AN IMPROVED YELLOW VARIANT OF GREEN FLUORESCENT PROTEINmonomer1-230
96.92
Crystal structure of rsFolder in the non-fluorescent off-statemonomer2-231
95.24
Room temperature structure of the fluorescent protein Cerulean recorded after an accumulated dose o…monomer2-231
98.41
Human VKOR with Chlorophacinonemonomer2-231
95.24UAJ;
Human VKOR with phenindionemonomer2-231
93.75OLC;UAS;
X-ray structure of the cyan fluorescent protein Cerulean cryoprotected with ethylene glycolmonomer2-230
96.8811×EDO;MG;
GFP/KKK. A redesigned GFP with improved solubilitymonomer2-230
95.24
Structure of the S205A mutant of the Cyan Fluorescent Protein Cerulean at pH 7.0monomer2-230
98.41
Crystal structure of L42H design intermediate for GFP metal ion reportermonomer2-230
95.31MG;EDO;
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1920 Atmospheres Number 1: Structure …monomer2-230
100
Structure of rsGreen0.7 in the green-on-statemonomer3-231
93.65
Irradiated-state structure of sfGFP containing the unnatural amino acid p-azido-phenylalanine at re…monomer2-230
95.24SO4; 30×EDO;TRS;
Structure of a pressure sensitive YFP variant YFP-G1monomer2-230
98.44
Cyclized-Dehydrated Intermediate of GFP Variant Q183E in Chromophore Maturationmonomer1-229
96.92EDO;
Crystal structure of enhanced Green Fluorescent Protein to 1.35A resolution reveals alternative con…monomer3-231
96.83CA;PEG;SO4;
S65T Q80R Y145C Green Fluorescent Protein (GFP) pH 8.5monomer2-230
98.44
Crystal structure of rsEGFP2 mutant V151A in the fluorescent on-state determined by synchrotron rad…monomer2-230
96.88
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1250 Atmospheres Number 2: Structure …monomer2-230
100
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1500 Atmospheres Number 1: Structure …monomer2-230
100
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1000 Atmospheres Number 2: Structure …monomer2-230
100
Engineered low-affinity halide-binding protein derived from YFP: chloride complexmonomer2-230
98.44CL;
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1000 Atmospheres Number 4: Structure …monomer2-230
98.44
Structure of the Yellow Fluorescent Protein Citrine Frozen at 2000 Atmospheres Number 1: Structure …monomer2-230
98.44
mVenus released from fusion protein.monomer2-230
96.83CL;
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1250 Atmospheres Number 1: Structure …monomer2-230
100
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1250 Atmospheres Number 4: Structure …monomer2-230
100
Structure of the Yellow Fluorescent Protein Citrine Frozen at 500 Atmospheres: Structure 3 in a Ser…monomer2-230
100
Structure of the Yellow Fluorescent Protein Citrine Frozen at 750 Atmospheres: Structure 4 in a Ser…monomer2-230
98.44
1.45 angstrom CyPet Structure at pH7.0monomer1-229
90.77TRS;
S65T Q80R Green Fluorescent Protein (GFP) pH 8.5monomer2-230
98.44
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1000 Atmospheres Number 5: Structure …monomer2-230
100
Room temperature rsEGFP2 in its OFF-state obtained with SFXmonomer2-230
98.41
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1000 Atmospheres Number 6: Structure …monomer2-230
98.44
Spectroscopic and structural study of the heterotropic linkage between halide and proton ion bindin…monomer2-230
98.41NA;
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1000 Atmospheres Number 1: Structure …monomer2-230
100
Structure of the Yellow Fluorescent Protein Citrine Frozen at 2000 Atmospheres Number 2: Structure …monomer2-230
98.44
S65T Q80R Green Fluorescent Protein (GFP) pH 5.5monomer2-230
98.44
Development of a family of redox-sensitive green fluorescent protein indicators for use in relative…monomer2-230
95.31MG;
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1250 Atmospheres Number 3: Structure …monomer2-230
98.44
Engineered low-affinity halide-binding protein derived from YFP: bromide complexmonomer2-230
100BR;
Uncyclized precursor structure of S65A Y66S G67A GFP variantmonomer2-230
96.94
Y66L Variant of Enhanced Green Fluorescent Protein with 374-nm Absorbing Chromophoremonomer2-230
96.88NA;
GHK tagged GFP variant crystal form II at 1.34A wavelengthmonomer2-230
87.1MPD;CU;CA;
GREEN FLUORESCENT PROTEIN E222H VARIANTmonomer3-231
100NA;
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1960 Atmospheres: Structure 19 in a S…monomer2-230
100
Structure of the Yellow Fluorescent Protein Citrine Frozen at 5000 Atmospheres: Structure 26 in a S…monomer2-230
98.44
Structure of a pressure sensitive YFP variant YFP-G3monomer2-230
100
Enhanced Green Fluorescent Protein Containing the Y66L Substitutionmonomer2-230
96.88CL;
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1 Atmosphere Number 2: Structure 2 in…monomer2-230
98.44
Structure of GFP variantmonomer4-232
93.55
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1000 Atmospheres Number 3: Structure …monomer2-230
100
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1500 Atmospheres Number 2: Structure …monomer2-230
98.44
Engineered medium-affinity halide-binding protein derived from YFP: iodide complexmonomer2-230
100EDO;IOD;FMT;
Structure of analogue of superfolded GFPmonomer4-232
93.55
S65T Q80R T203C Green Fluorescent Protein (GFP) pH 8.5monomer2-230
98.44
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1 Atmosphere Number 1: Structure 1 in…monomer2-230
100
cyan fluorescence protein soaked with selenourea for 5 minmonomer2-230
98.4113×SEY;PO4;
Structure of the Yellow Fluorescent Protein Citrine Frozen at 4000 Atmospheres Number 1: Structure …monomer2-230
100
S65T Q80R Y145C T203C Green Fluorescent Protein (GFP) pH 8.5monomer2-230
98.44
Structure of the Yellow Fluorescent Protein Citrine Frozen at 1920 Atmospheres Number 2: Structure …monomer2-230
100
Engineered low-affinity halide-binding protein derived from YFP: halide-freemonomer2-230
98.44
Room temperature rsEGFP2 with a chlorinated chromophore 600 fs after Photoexcitationmonomer2-230
98.41
Room temperature rsEGFP2 with a chlorinated chromophore in the non-fluorescent OFF-statemonomer2-230
98.41
Room temperature rsEGFP2 with a chlorinated chromophore 100 ps after Photoexcitationmonomer2-230
98.41
Room temperature rsEGFP2 with a chlorinated chromophore 900 fs after photoexcitationmonomer2-230
96.88
Room temperature rsEGFP2 with a chlorinated chromophore 5 ps after photoexcitationmonomer2-230
98.41
Room temperature rsEGFP2 with a chlorinated chromophore 1 microsecond after Photoexcitationmonomer2-230
98.41
Room temperature rsEGFP2 with a chlorinated chromophore 300 fs after Photoexcitationmonomer2-230
98.41
Crystal structure of Ligand Free EGFP-based Calcium Sensor CatchERmonomer2-230
98.41ACY;
GHK tagged GFP variantmonomer2-230
87.1CU;SO4;
Structure of the Yellow Fluorescent Protein Citrine Frozen at 4000 Atmospheres Number 3: Structure …monomer2-230
100
Structure of the Yellow Fluorescent Protein Citrine Frozen at 4000 Atmospheres Number 2: Structure …monomer2-230
100
Structure of the Yellow Fluorescent Protein Citrine Frozen at 2500 Atmospheres: Structure 22 in a S…monomer2-230
100
Engineered low-affinity halide-binding protein derived from YFP: iodide complexmonomer2-230
100.0IOD;
Crystal structure of EGFP-based Calcium Sensor CatchER complexed with Gdmonomer2-230
98.41GD;
Non photoactivated state of PA-GFPmonomer2-230
98.44SO4;CL;
Spectroscopic and Structural Study of the Heterotropic Linkage between Halide and Proton Ion Bindin…monomer2-230
98.41BR;
Crystal Structure of Green Fluorescent Proteinmonomer2-230
98.41ZN;CL;
Crystal structure of rsEGFP2 mutant V151L in the fluorescent on-state determined by synchrotron rad…monomer2-230
96.88
Cryogenic temperature structure of the fluorescent protein Cerulean recorded after an accumulated d…monomer2-230
98.41CO2;
Engineered low-affinity halide-binding protein derived from YFP: fluoride complexmonomer2-230
100F;
Photoactivated state of PA-GFPmonomer2-230
98.44CL;
STRUCTURE OF GREEN FLUORESCENT PROTEINmonomer2-230
99.56
1.9 angstrom CyPet structure at pH5.2monomer1-229
90.77SO4;ACT;
CRYSTAL STRUCTURE ANALYSIS OF A REDOX-SENSITIVE GREEN FLUORESCENT PROTEIN VARIANT IN A OXIDIZED FORMmonomer1-229
95.39
Venus 66 p-Azido-L-Phenylalanin (azF) variant, dark grownmonomer2-230
95.31OXY;ZN;SO4;
GHK tagged GFP variant at 17Kevmonomer2-230
87.1CU;SO4;
Spectroscopic and Structural Study of the Heterotropic Linkage between Halide and Proton Ion Bindin…monomer2-230
96.88IOD;
Y66L variant of Enhanced Green Fluorescent Protein with 412-nm Absorbing Chromophoremonomer2-230
96.88
X-ray structure of Cerulean GFP: A tryptophan-based chromophore useful for fluorescence lifetime im…monomer1-229
96.92
Structure Of A Malarial Protein Involved in Proteostasismonomer2-230
95.24SO4;
BLUE VARIANT OF GREEN FLUORESCENT PROTEINmonomer1-229
98.46
Crystal Structure of a Physical Mixture of C148 mGFP and scDNA-1monomer1-229
93.85
Human VKOR with warfarinmonomer3-231
93.65OLC;SWF;
Structure of GFPmut2 crystallized at pH 8.5 and transferred to pH 6monomer1-229
98.46CA;
Structure of Cockroach Allergen Bla g 1 Tandem Repeat as a EGFP fusionmonomer1-229
98.46CL;PGT;D12;
sfGFP double mutant - 133/149 p-ethynyl-L-phenylalaninemonomer3-231
93.65
Application of the superfolder YFP bimolecular fluorescence complementation for studying protein-pr…monomer2-230
93.75
Cytochrome b562 integral fusion with EGFPmonomer3-231
100HEM;
Human VKOR C43S mutant with vitamin K1 epoxidemonomer3-231
93.65UAV;
Crystal Structure of C148 mGFP-cDNA-3monomer1-229
93.85UNL;
human CD53monomer2-230
93.75OLC;NAG;
E.coli DsbB C104S with ubiquinonemonomer3-231
93.65UQ1;
Crystal structure of eYFP His148Sermonomer2-230
100
X-ray crystal structure of the mutant green fluorescent proteinmonomer4-231
95.16
Crystal structure analysis of a single amino acid deletion mutation in EGFPmonomer3-230
98.3916×EDO;SO4;TRS;
Crystal structure of EGFP-based Calcium Sensor CatchER complexed with Camonomer2-229
98.41CA;
crystal structure of a green fluorescent protein variant S65T/H148N at pH 9.5monomer2-229
98.44
crystal structure of a green fluorescent protein variant S65T/H148D at pH 10monomer2-229
98.44
rsEGFP in the green-off statemonomer3-230
98.39PG4;
Development of a family of redox-sensitive green fluorescent protein indicators for use in relative…monomer3-230
95.24
Crystal structure of the dimeric variant EGFP-K162Q in P61 space groupmonomer3-230
96.83PO4;K;GOL;
Crystal Structure of an Apo Green Fluorescent Protein Zn Biosensormonomer2-229
98.41MG;
Cyclized post-translational product for S65A Y66S (GFPhal) green fluorescent protein variantmonomer4-231
100MG;
crystal structure of a green fluorescent protein variant H148D at pH 9monomer2-229
98.44
Structure of blue-light irradiated Ceruleanmonomer3-230
98.39
Crystal structure of L42H V224H design intermediate for GFP metal ion reportermonomer3-230
95.24MG;EDO;
X-ray structure of the cyan fluorescent protein mTurquoise (K206A mutant)monomer3-230
96.83
crystal structure of a green fluorescent protein variant S65T/H148D at pH 5.6monomer2-229
98.44
X-ray structure of Enhanced Green Fluorescent Protein (EGFP)monomer3-230
98.39
Crystal structure of the cyan fluorescence protein Cerulean S175G mutantmonomer3-230
98.39
X-ray Structure of C148 mGFPmonomer3-230
96.77
Green Fluorescent Protein: Cyclized-only Intermediate of Chromophore Maturation in the Q183E variantmonomer3-230
96.83MG;EDO;
Development of a family of redox-sensitive green fluorescent protein indicators for use in relative…monomer3-230
95.24
S65T Q80R T203C Green Fluorescent Protein (GFP) pH 5.5monomer2-229
98.44
X-ray structure of the cyan fluorescent protein SCFP3A (K206A mutant)monomer3-230
98.39
Crystal structure analysis of a single amino acid deletion mutation in EGFPmonomer4-231
98.36
Structure of S65A Y66F GFP variant with an oxidized chromophoremonomer3-230
98.41
X-ray structure of the cyan fluorescent proteinmTurquoise-GL (K206A mutant)monomer3-230
98.39MG;
Single excitation and two emissions pH sensor protein (SITE-pHorin)_C203E_pH5.0monomer2-229
96.83
An ester mutant of SfGFPmonomer4-231
93.55
SPECTROSCOPIC AND STRUCTURAL STUDY OF QW, A EGFP MUTANT SHOWING PHOTOSWITCHING PROPERTIESmonomer3-230
100
Nanobody in complex with eGFPmonomer2-229
96.88
Crystal structure of a Trp-less green fluorescent protein translated by the universal genetic codemonomer2-229
95.24
Structure of sfYFP48S95C66BPAmonomer3-230
93.55
Crystal Structure of C176 mGFPmonomer3-230
95.24
GREEN FLUORESCENT PROTEIN FROM AEQUOREA VICTORIAmonomer2-229
98.44
Probing the Role of Tryptophans in Aequorea Victoria Green Fluorescent Proteins with an Expanded Ge…monomer2-229
96.83
Crystal Structure of C148 mGFP-cDNA-2monomer2-229
95.31UNL;
Crystal structure analysis of a rate-enhanced variant of redox-sensitive green fluorescent protein …monomer2-229
95.31SO4;
CRYSTAL STRUCTURE ANALYSIS OF A REDOX-SENSITIVE GREEN FLUORESCENT PROTEIN VARIANT IN A REDUCED FORMmonomer1-228
95.39
genetically encoded pH sensor Lime at pH10monomer2-229
92.19
GREEN FLUORESCENT PROTEIN (65-67 REPLACED BY CRO, S65T SUBSTITUTION, Q80R)monomer2-229
98.44
Structure of S65A Y66F E222A GFP variant after cyclization and carbon-carbon bond cleavagemonomer3-230
100
Crystal structure of a Trp-less green fluorescent protein translated by the simplified genetic codemonomer2-229
93.75
mTurquoise2 W66Ymonomer2-229
98.41
Crystallographic Evidence for Isomeric Chromophores in 3-Fluorotyrosyl-Green Fluorescent Proteinmonomer2-229
98.41
CRYSTAL STRUCTURE OF THE GREEN FLUORESCENT PROTEIN (GFP) VARIANT YFP-H148Qmonomer3-230
98.41
GREEN FLUORESCENT PROTEIN (GFP) FROM AEQUOREA VICTORIA, GLN 80 REPLACED WITH ARGmonomer2-229
98.44
CRYSTAL STRUCTURE OF THE GREEN FLUORESCENT PROTEIN (GFP) VARIANT YFP-H148Q WITH TWO BOUND IODIDESmonomer2-229
98.44IOD;
Crystal structure of GFP S205A/T203V at 2.2 A resolutionmonomer3-230
98.41
Crystal structure of the green fluorescent protein Clovermonomer2-229
96.83
Crystal structure of enhanced cyan-emission variant of GFPmonomer1-228
95.39
sfGFP double mutant - 133/149 p-cyano-L-phenylalaninemonomer4-231
93.55
STRUCTURE OF YELLOW-EMISSION VARIANT OF GFPmonomer2-229
98.44
Human VKOR C43S with warfarinmonomer2-229
95.16SWF;
Structure of Cerulean Fluorescent Protein at physiological pHmonomer4-230
96.77
GFP R96M mature chromophoremonomer3-229
96.83MG;
Engineered medium-affinity halide-binding protein derived from YFP: halide-freemonomer2-228
100EDO;FMT;
Mature Q183E variant of Green Fluorescent Protein Chromophoremonomer3-229
98.39MG;
X-ray structure of the cyan fluorescent protein mTurquoisemonomer4-230
96.77
Structure of Enhanced Cyan Fluorescent Protein at pH 5.0monomer4-230
98.36CL;
Engineered medium-affinity halide-binding protein derived from YFP: fluoride complexmonomer2-228
100EDO;
Crystal structure of green fluorescent protein Clover mutant S147C/Q204Cmonomer3-229
95.24
Structure of Enhanced Cyan Fluorescent Protein at physiological pHmonomer4-230
96.77
Crystal structure of sfGFP Y182TMSiPhemonomer3-229
93.65GOL;CL;NA;
sfGFP mutant - 149 p-cyano-L-phenylalaninemonomer4-230
95.08CO2;MG;
Crystal Structure of a Zn-bound Green Fluorescent Protein Biosensormonomer4-230
98.36ZN;
Crystal structure of the Green fluorescent protein SET203EF223DA227 variant at pH 6.0monomer3-229
96.83
Cryogenic temperature structure of the fluorescent protein Cerulean recorded after an accumulated d…monomer4-230
98.36
Crystal Structure of a Cu-bound Green Fluorescent Protein Zn Biosensormonomer4-230
98.36CU;MG;
Crystal structure of matured green fluorescent protein R96A variantmonomer3-229
96.83MG;EDO;
superfolder Green Fluorescent Protein with meta-nitro-tyrosine incorporated at position 66monomer5-231
93.44NA;
Structure of the Cyan Fluorescent Protein SCFP3A at pH 4.5monomer2-228
98.41CL;
GFP R96M pre-cyclized intermediate in chromophore formationmonomer3-229
97.36MG;
1.60A resolution crystal structure of a superfolder green fluorescent protein (W57G) mutantmonomer2-228
92.19
GFP R96A chromophore maturation recovery mutant R96A Q183Rmonomer3-229
96.83MG;
Crystal structure of the Green fluorescent protein SE_A277 variant at pH 9.5monomer3-229
96.83
Crystal Structure of the cyclized S65G Y66G GFP variantmonomer2-228
98.41
Structure of a Circular Permutant of Green Fluorescent Proteinmonomer3-229
92.31
rsEGFP2 with a chlorinated chromophore in the fluorescent ON-state in a crystal dehydrated after il…monomer4-230
96.77SO4;
Crystal structure of the Green fluorescent protein SET203EF223DA227 variant at pH 4.5monomer3-229
96.83
Mature R96K GFP mutantmonomer3-229
96.83MG;
Structure of Sda1 nuclease apoprotein as an EGFP fixed-arm fusionmonomer3-229
98.41SO4;EDO;ACT;
Uncyclized precursor structure of S65A Y66S R96A GFP variantmonomer2-228
97.36
Crystal Structure of C148 mGFP-scDNA-1monomer3-229
95.24UNL;
Crystal Structure of C148 mGFP-cDNA-1monomer3-229
95.24UNL;
Crystal structure of the Green fluorescent protein SET203EF223DA227 variant at pH 7.0monomer3-229
96.83
Crystal structure of the Green fluorescent protein SE_A277 variant at pH 4.5monomer3-229
96.83
mTurquoise2 S65Tmonomer3-229
98.39
Crystal structure of precyclized intermediate for the green fluorescent protein R96A variant (B)monomer3-229
97.36
Cl-rsEGFP2 Long Wavelength Structuremonomer2-228
98.39
Crystal structure of the Green fluorescent protein SET203EF223DA227 variant at pH 8.5monomer3-229
96.83
Crystal structure of the Green fluorescent protein SE_A277 variant at pH 7.5monomer3-229
96.83
Single excitation and two emissions pH sensor protein(SITE-pHorin)_pH5.5monomer2-228
96.83
Crystal structure of the Green fluorescent protein SE_A277 variant at pH 5.5monomer3-229
96.83
GREEN FLUORESCENT PROTEIN S65T AT PH 4.6monomer3-229
98.41
Structure of GFPmut2 crystallized at pH 6 and transferred to pH 9monomer1-227
98.46
Chicken SPCS1monomer4-230
93.55
STRUCTURE OF YELLOW-EMISSION VARIANT OF GFPmonomer3-229
98.41
genetically encoded pH sensor Lime at pH6monomer3-229
92.06
Probing the Role of Tryptophans in Aequorea Victoria Green Fluorescent Proteins with an Expanded Ge…monomer3-229
96.83
Crystal Structure of C148 mGFP-ncDNA-1monomer3-229
95.24
Crystal Structure of C148 mGFP-scDNA-2monomer3-229
95.24
Crystal structure of V224H design intermediate for GFP metal ion reportermonomer4-229
96.77MG;EDO;
crystal structure of a green fluorescent protein S65T/H148N at pH 5monomer4-229
98.39
CRYSTAL STRUCTURE ANALYSIS OF A DUAL-WAVELENGTH EMISSION GREEN FLUORESCENT PROTEIN VARIANT AT HIGH …monomer4-229
98.39MG;EDO;
Cyclized, non-dehydrated post-translational product for S65A Y66S H148G GFP variantmonomer4-229
98.39MG;EDO;
CRYSTAL STRUCTURE ANALYSIS OF A DUAL-WAVELENGTH EMISSION GREEN FLUORESCENT PROTEIN VARIANT AT LOW PHmonomer4-229
98.39
Probing the Role of Tryptophans in Aequorea Victoria Green Fluorescent Proteins with an Expanded Ge…monomer4-229
95.16
Crystal structure of the Green fluorescent protein SEA227D variant at pH 4.5monomer3-228
96.83
Crystal structure of precyclized intermediate for the green fluorescent protein R96A variant (A)monomer4-229
97.34
The Chemical Control of Protein Folding: Engineering a Superfolder Green Fluorescent Proteinmonomer4-229
96.77
Uncyclized precursor structure of S65G Y66S V68G GFP variantmonomer4-229
96.9
Crystal structure of all-trans green fluorescent proteinmonomer5-230
93.44
Probing the Role of Tryptophans in Aequorea Victoria Green Fluorescent Proteins with an Expanded Ge…monomer4-229
96.72
Structure of Human beta-Cardiac Myosin Motor Domain::GFP chimeramonomer5-230
98.36SO4;
Crystal structure of the Green fluorescent protein SEA227D variant at pH 8.0monomer3-227
96.83
X-ray structure of ReQy1 (oxidized form)monomer5-229
93.44
Crystal Structure of Green Fluorescent Proteinmonomer4-228
96.77NI;
Crystal structure of the Green fluorescent protein SEA227D variant at pH 9.5monomer3-227
96.83
Crystal structure of the Green fluorescent protein SEA227D variant at pH 5.5monomer3-227
96.83
THE STRUCTURE OF TWITCH-2B N532Fmonomer4-227
98.36CA;FMT;
The structure of TWITCH-2Bmonomer4-227
98.36CA;GOL;PG4;FMT;
A non-invasive GFP-based biosensor for mercury ionsmonomer7-229
96.61
Omecamtiv Mercarbil binding site on the Human Beta-Cardiac Myosin Motor Domainmonomer5-227
98.362OW;
A non-invasive GFP-based biosensor for mercury ionsmonomer7-229
96.61
Crystal Structure of Oxidized Version of Redox-Sensitive Superfolder Green Fluorescent Proteinmonomer5-226
91.8
Extra-superfolder GFPmonomer8-229
89.19
Crystal structure of rsGCaMP double mutant Ile80His/Val116Ile in the ON state (non-illuminated)monomer2-214
100CA; 14×FMT;EDO;
Crystal structure of rsGCaMP double mutant Ile80His/Val116Ile in the OFF state (illuminated)monomer2-214
100FMT;CA;NA;
High resolution structure of GCaMPJ at pH 8.5monomer2-213
96.88CA;
High resolution structure of Delta-REST-GCaMP3monomer2-213
96.88CA;
Truncated strand 11-less green fluorescent proteinmonomer2-208
93.65NHE;
Crystal Structure of GCaMP3-KF(linker 1)monomer2-192
96.88CA;
Crystal Structure of GCaMP2-T116V,D381Ymonomer2-192
96.88CA;
Calcium-saturated GCaMP2 T116V/K378W mutant monomermonomer2-192
96.88GOL;CA;
Crystal structure of Calcium bound monomeric GCAMP2monomer2-192
96.88CA;
Crystal Structure of GCaMP3-D380Ymonomer2-192
96.88CA;
The structure of Ca2+ Sensor (Case-16)monomer2-192
95.31CA;SO4;CL;
Crystal Structure of GCaMP3-D380Y, LP(linker 2)monomer2-192
96.88CA;
Integral fusion of the HtaA CR2 domain from Corynebacterium diphtheriae within EGFPmonomer40-230
92.31HEM;GOL;1PE;CL;
The structure of Ca2+ Sensor (Case-12)monomer2-192
96.83CA;
Calcium-saturated GCaMP2 Monomermonomer2-192
96.88CA;
Crystal structure of monomeric GCaMP6mmonomer2-192
96.88CA;
Calcium-saturated GCaMP2 T116V/G87R mutant monomermonomer2-192
98.41CA;
Calcium-free GCaMP2 (calcium binding deficient mutant)monomer2-192
96.88
Crystal structure of Green Fluorescent Protein (GFP); S65T, Y66(3-I1Y), H148D; circular permutant (…monomer50-237
81.25ACT;GOL;
Crystal structure of split green fluorescent protein (GFP); s10 circular permutant (194-195)monomer2-189
90.62
Crystal structure of Green Fluorescent Protein (GFP); S65T, Y66(2,3-F2Y), H148D; circular permutant…monomer51-237
92.86
Crystal structure of green fluorescent protein (GFP); S65T, Y66(3-ClY); ih circular permutant (50-5…monomer51-237
86.67
Crystal structure of green fluorescent protein (GFP); S65T, Y66(3-CH3Y); ih circular permutant (50-…monomer51-237
86.67
Crystal structure of Green Fluorescent Protein (GFP); S65T, H148D with globally incorporated 3-F1Y;…monomer51-237
86.67
Crystal structure of Green Fluorescent Protein (GFP); S65T, Y66(3-Br1Y), H148D; circular permutant …monomer51-237
86.67ACT;GOL;
Crystal structure of Green Fluorescent Protein (GFP); S65T, Y66(3,5-F2Y), H148D; circular permutant…monomer51-237
92.86
Crystal structure of green fluorescent protein (GFP); S65T; ih circular permutant (50-51)monomer52-237
92.31
Crystal structure of green fluorescent protein (GFP); S65T, T203(3-OMeY); ih circular permutant (50…monomer52-237
85.71
Structure of mCLIFY: a circularly permuted yellow fluorescent proteinmonomer4-173
93.55
X-ray structure of the SF-iGluSnFR-S72Amonomer1-162
93.75CIT;
Maltose-bound maltose sensor engineered by insertion of circularly permuted green fluorescent prote…monomer2-146
96.88GLC;SO4;
Maltose-bound maltose sensor engineered by insertion of circularly permuted green fluorescent prote…monomer2-146
96.83GLC;
Crystal Structure of iNicSnFR 1.0monomer1-145
95.31
Crystal structure of the Cys-Ser mutant of the cpYFP-based biosensor for hypochlorous acidmonomer2-144
95.31
pnGFP1.5-Y.Cro: circularly permuted green fluorescent protein (with a tyrosine-derived chromophore)monomer2-144
92.19
Crystal structure of a cAMP sensor G-Flamp1.monomer3-144
95.16CMP;
crystal structure of circular-permutated EGFPmonomer4-144
96.77

1 SWISS-MODEL model

TemplateOligo-stateQMEANDisCoRangeLigandsTrg-Tpl Seq id (%)
1qyo.1.Amonomer0.922-237
97.48