SASDDF9 – Synechocystis orange carotenoid-binding protein devoid of the NTE (OCP-ΔNTE, orange form)

Orange carotenoid-binding protein experimental SAS data
CORAL model
Sample: Orange carotenoid-binding protein monomer, 34 kDa Synechocystis sp. PCC … protein
Buffer: 20 mM Tris, 150 mM NaCl, 3% glycerol, pH: 7.6
Experiment: SAXS data collected at EMBL P12, PETRA III on 2017 Sep 1
OCP-FRP protein complex topologies suggest a mechanism for controlling high light tolerance in cyanobacteria. Nat Commun 9(1):3869 (2018)
Sluchanko NN, Slonimskiy YB, Shirshin EA, Moldenhauer M, Friedrich T, Maksimov EG
RgGuinier 2.2 nm
Dmax 7.4 nm
VolumePorod 57 nm3

SASDDG9 – The 2:1 complex of Synechocystis disulphide-trapped Fluorescence recovery protein dimer (CC mutant) and orange carotenoid-binding protein-ΔNTE (orange form)

Fluorescence recovery proteinOrange carotenoid-binding protein experimental SAS data
GASBOR model
Sample: Fluorescence recovery protein dimer, 28 kDa Synechocystis sp. PCC … protein
Orange carotenoid-binding protein monomer, 34 kDa Synechocystis sp. PCC … protein
Buffer: 20 mM Tris, 150 mM NaCl, 3% glycerol, pH: 7.6
Experiment: SAXS data collected at EMBL P12, PETRA III on 2017 Sep 1
OCP-FRP protein complex topologies suggest a mechanism for controlling high light tolerance in cyanobacteria. Nat Commun 9(1):3869 (2018)
Sluchanko NN, Slonimskiy YB, Shirshin EA, Moldenhauer M, Friedrich T, Maksimov EG
RgGuinier 3.0 nm
Dmax 13.0 nm
VolumePorod 102 nm3

SASDDR9 – NADPH oxidase (H2O2 producing and [F-actin] oxidizing) MICAL1 (monomer)

[F-actin]-monooxygenase MICAL1 (monomer) experimental SAS data
CORAL model
Sample: [F-actin]-monooxygenase MICAL1 (monomer) monomer, 118 kDa Homo sapiens protein
Buffer: 50 mM sodium phosphate buffer, pH 7.5, 5 % glycerol, 100 mM NaCl, 1 mM EDTA, 1 mM DTT, pH: 7.5
Experiment: SAXS data collected at EMBL P12, PETRA III on 2017 Jun 20
Human MICAL1: activation by the small GTPase Rab8 and small-angle X-ray scattering studies on the oligomerization state of MICAL1 and its complex with Rab8. Protein Sci (2018)
Esposito A, Ventura V, Petoukhov MV, Rai A, Svergun DI, Vanoni MA
RgGuinier 3.7 nm
Dmax 12.1 nm
VolumePorod 212 nm3

SASDDS9 – NADPH oxidase (H2O2 producing and [F-actin] oxidizing) MICAL1 (monomer) (Truncated MOCHLIM construct)

[F-actin]-monooxygenase MICAL1 (MoChLim) experimental SAS data
CORAL model
Sample: [F-actin]-monooxygenase MICAL1 (MoChLim) monomer, 85 kDa Homo sapiens protein
Buffer: 20 mM Hepes/NaOH, pH 7.5, 50 mM NaCl, 2 mM MgCl2, 2 mM DTT, pH: 7.5
Experiment: SAXS data collected at EMBL P12, PETRA III on 2017 Jun 20
Human MICAL1: activation by the small GTPase Rab8 and small-angle X-ray scattering studies on the oligomerization state of MICAL1 and its complex with Rab8. Protein Sci (2018)
Esposito A, Ventura V, Petoukhov MV, Rai A, Svergun DI, Vanoni MA
RgGuinier 4.0 nm
Dmax 18.0 nm
VolumePorod 145 nm3

SASDDT9 – NADPH oxidase (H2O2 producing and [F-actin] oxidizing) MICAL1 (monomer) in complex with Ras-related protein Rab 8 (MICAL1-Rab8 complex)

[F-actin]-monooxygenase MICAL1 (monomer)Ras-related protein 8 experimental SAS data
CORAL model
Sample: [F-actin]-monooxygenase MICAL1 (monomer) monomer, 118 kDa Homo sapiens protein
Ras-related protein 8 monomer, 20 kDa protein
Buffer: 20 mM Hepes/NaOH, pH 7.5, 50 mM NaCl, 2 mM MgCl2, 2 mM DTT, pH: 7.5
Experiment: SAXS data collected at EMBL P12, PETRA III on 2017 Jun 20
Human MICAL1: activation by the small GTPase Rab8 and small-angle X-ray scattering studies on the oligomerization state of MICAL1 and its complex with Rab8. Protein Sci (2018)
Esposito A, Ventura V, Petoukhov MV, Rai A, Svergun DI, Vanoni MA
RgGuinier 3.7 nm
Dmax 11.8 nm
VolumePorod 234 nm3

SASDDU9 – NADPH oxidase (H2O2 producing and [F-actin] oxidizing) MICAL1 (monomer) (Truncated MOCH construct)

[F-actin]-monooxygenase MICAL1 (MoCh) experimental SAS data
PDB (PROTEIN DATA BANK) model
Sample: [F-actin]-monooxygenase MICAL1 (MoCh) monomer, 67 kDa Homo sapiens protein
Buffer: 50 mM sodium phosphate buffer, 5 % glycerol, 100 mM NaCl, 1 mM EDTA, 1 mM DTT, pH: 7.5
Experiment: SAXS data collected at EMBL P12, PETRA III on 2016 Jun 6
Human MICAL1: activation by the small GTPase Rab8 and small-angle X-ray scattering studies on the oligomerization state of MICAL1 and its complex with Rab8. Protein Sci (2018)
Esposito A, Ventura V, Petoukhov MV, Rai A, Svergun DI, Vanoni MA
RgGuinier 3.4 nm
Dmax 12.0 nm
VolumePorod 100 nm3

SASDDS8 – Neural/ectodermal development factor IMP-L2

Neural/ectodermal development factor IMP-L2 experimental SAS data
Neural/ectodermal development factor IMP-L2 Kratky plot
Sample: Neural/ectodermal development factor IMP-L2 dimer, 60 kDa Drosophila melanogaster protein
Buffer: phosphate buffered saline, pH: 7.4
Experiment: SAXS data collected at ID14-3, ESRF on 2011 Nov 20
Structures of insect Imp-L2 suggest an alternative strategy for regulating the bioavailability of insulin-like hormones. Nat Commun 9(1):3860 (2018)
Roed NK, Viola CM, Kristensen O, Schluckebier G, Norrman M, Sajid W, Wade JD, Andersen AS, Kristensen C, Ganderton TR, Turkenburg JP, De Meyts P, Brzozowski AM
RgGuinier 3.1 nm
Dmax 12.0 nm
VolumePorod 93 nm3

SASDDT8 – Neural/ectodermal development factor IMP-L2 in complex with insulin-like peptide 5 (DILP5)

Insulin-like peptide 5Neural/ectodermal development factor IMP-L2 experimental SAS data
Insulin-like peptide 5 Neural/ectodermal development factor IMP-L2 Kratky plot
Sample: Insulin-like peptide 5 monomer, 5 kDa Drosophila melanogaster protein
Neural/ectodermal development factor IMP-L2 monomer, 30 kDa Drosophila melanogaster protein
Buffer: phosphate buffered saline, pH: 7.4
Experiment: SAXS data collected at ID14-3, ESRF on 2011 Nov 20
Structures of insect Imp-L2 suggest an alternative strategy for regulating the bioavailability of insulin-like hormones. Nat Commun 9(1):3860 (2018)
Roed NK, Viola CM, Kristensen O, Schluckebier G, Norrman M, Sajid W, Wade JD, Andersen AS, Kristensen C, Ganderton TR, Turkenburg JP, De Meyts P, Brzozowski AM
RgGuinier 2.6 nm
Dmax 9.0 nm
VolumePorod 55 nm3

SASDD66 – Phox homologue (PX) - C2 domains of human phosphatidylinositol 4-phosphate 3-kinase C2 domain-containing subunit alpha (PI3KC2α)

Phox Homology (PX) - C2 domains of human Phosphatidylinositol 4-phosphate 3-kinase C2 domain-containing subunit alpha experimental SAS data
DAMFILT model
Sample: Phox Homology (PX) - C2 domains of human Phosphatidylinositol 4-phosphate 3-kinase C2 domain-containing subunit alpha monomer, 33 kDa Homo sapiens protein
Buffer: 25 mM Tris 200 mM NaCl 5% Glycerol 0.5 mM TCEP, pH: 8.5
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2017 Oct 20
Molecular Basis for Membrane Recruitment by the PX and C2 Domains of Class II Phosphoinositide 3-Kinase-C2α. Structure (2018)
Chen KE, Tillu VA, Chandra M, Collins BM
RgGuinier 2.6 nm
Dmax 9.3 nm
VolumePorod 43 nm3

SASDD76 – Phox Homologue (PX) - C2 domains of human phosphatidylinositol 4-phosphate 3-kinase C2 domain-containing subunit alpha (PI3KC2α) in complex with inositol-hexaphosphate (IP6)

Phox Homology (PX) - C2 domains of human Phosphatidylinositol 4-phosphate 3-kinase C2 domain-containing subunit alpha experimental SAS data
DAMFILT model
Sample: Phox Homology (PX) - C2 domains of human Phosphatidylinositol 4-phosphate 3-kinase C2 domain-containing subunit alpha monomer, 33 kDa Homo sapiens protein
Buffer: 25 mM Tris 200 mM NaCl 5% Glycerol 0.5 mM TCEP 4 mM InsP6, pH: 8.5
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2017 Oct 20
Molecular Basis for Membrane Recruitment by the PX and C2 Domains of Class II Phosphoinositide 3-Kinase-C2α. Structure (2018)
Chen KE, Tillu VA, Chandra M, Collins BM
RgGuinier 2.6 nm
Dmax 9.3 nm
VolumePorod 48 nm3

4135 hits found.