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43 hits found for Trewhella

SASDHE2 – Type 1 insulin-like growth factor receptor ectodomains (IGF-1RΔβ)

Insulin-like growth factor 1 receptor experimental SAS data
BUNCH model
Sample: Insulin-like growth factor 1 receptor dimer, 202 kDa Homo sapiens protein
Buffer: 30 mM Tris, 140 mM NaCl, 0.02% w/v sodium azide,, pH: 7.5
Experiment: SAXS data collected at Bruker Nanostar, Australian Nuclear Science and Technology Organisation on 2008 Apr 22
Solution structure of ectodomains of the insulin receptor family: the ectodomain of the type 1 insulin-like growth factor receptor displays asymmetry of ligand binding accompanied by limited conformat... J Mol Biol 394(5):878-92 (2009)
...Trewhella J, Ward CW, Lawrence MC
RgGuinier 5.1 nm
Dmax 16.0 nm
VolumePorod 357 nm3

SASDHF2 – Insulin receptor ectodomains (IRΔβ)

Insulin receptor experimental SAS data
BUNCH model
Sample: Insulin receptor dimer, 203 kDa Homo sapiens protein
Buffer: 30 mM Tris, 140 mM NaCl, 0.02% w/v sodium azide,, pH: 7.5
Experiment: SAXS data collected at Bruker Nanostar, Australian Nuclear Science and Technology Organisation on 2008 Dec 7
Solution structure of ectodomains of the insulin receptor family: the ectodomain of the type 1 insulin-like growth factor receptor displays asymmetry of ligand binding accompanied by limited conformat... J Mol Biol 394(5):878-92 (2009)
...Trewhella J, Ward CW, Lawrence MC
RgGuinier 5.5 nm
Dmax 17.0 nm
VolumePorod 385 nm3

SASDCK2 – Glucose Isomerase - Streptomyces rubiginosus

Xylose isomerase experimental SAS data
DAMMIN model
Sample: Xylose isomerase tetramer, 173 kDa Streptomyces rubiginosus protein
Buffer: 25 mM MOPS, 250 mM NaCl, 50 mM KCl, 2 mM TCEP, 0.1% NaN3, pH: 7.5
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2017 Mar 9
2017 publication guidelines for structural modelling of small-angle scattering data from biomolecules in solution: an update. Acta Crystallogr D Struct Biol 73(Pt 9):710-728 (2017)
Trewhella J, Duff AP, Durand D, Gabel F, Guss JM, Hendrickson WA, Hura GL, Jacques DA, Kirby NM, Kwan AH, Pérez J, Pollack L, Ryan TM, Sali A, Schneidman-Duhovny D, Schwede T, Svergun DI, Sugiyama M, ...
RgGuinier 3.3 nm
Dmax 9.2 nm
VolumePorod 229 nm3

SASDCQ2 – 4Ca2+-calmodulin - Xenopus laevis

Calmodulin-1 experimental SAS data
4Ca2+-calmodulin - Xenopus laevis Rg histogram
Sample: Calmodulin-1 monomer, 17 kDa Xenopus laevis protein
Buffer: 25 mM MOPS, 250 mM NaCl, 50 mM KCl, 2 mM TCEP, 0.1% NaN3, pH: 7.5
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2017 Mar 9
2017 publication guidelines for structural modelling of small-angle scattering data from biomolecules in solution: an update. Acta Crystallogr D Struct Biol 73(Pt 9):710-728 (2017)
Trewhella J, Duff AP, Durand D, Gabel F, Guss JM, Hendrickson WA, Hura GL, Jacques DA, Kirby NM, Kwan AH, Pérez J, Pollack L, Ryan TM, Sali A, Schneidman-Duhovny D, Schwede T, Svergun DI, Sugiyama M, ...
RgGuinier 2.2 nm
Dmax 7.2 nm
VolumePorod 25 nm3

SASDBR2 – Contactin-associated protein-like 2 (Caspr2) extracellular domains 1-1261.

Contactin-associated protein-like 2 extracellular domains (1-1261) experimental SAS data
DAMMIN model
Sample: Contactin-associated protein-like 2 extracellular domains (1-1261) monomer, 140 kDa Homo sapiens protein
Buffer: 10 mM HEPES 150 mM NaCl, pH: 7.4
Experiment: SAXS data collected at Anton Paar SAXSess, University of Utah on 2010 Oct 4
Structural Characterization of the Extracellular Domain of CASPR2 and Insights into Its Association with the Novel Ligand Contactin1. J Biol Chem 291(11):5788-802 (2016)
...Trewhella J, Comoletti D
RgGuinier 4.4 nm
Dmax 14.5 nm
VolumePorod 282 nm3

SASDH43 – N-terminal domains of the inositol 1,4,5-trisphosphate receptor type 1 (IP3RN)

N-terminal domains of the inositol 1,4,5-trisphosphate receptor type 1 experimental SAS data
BUNCH model
Sample: N-terminal domains of the inositol 1,4,5-trisphosphate receptor type 1 monomer, 70 kDa Mus musculus protein
Buffer: 15 mM Tris, 300 mM NaCl, 1 mM TCEP, 5 mM EGTA, pH: 8
Experiment: SAXS data collected at Bruker Nanostar II, Australian Nuclear Science and Technology Organisation/Australian Centre for Neutron Scattering on 2006 Apr 12
Ligand-induced conformational changes via flexible linkers in the amino-terminal region of the inositol 1,4,5-trisphosphate receptor. J Mol Biol 373(5):1269-80 (2007)
...Trewhella J, Ikura M
RgGuinier 3.2 nm
Dmax 10.0 nm
VolumePorod 135 nm3

SASDH53 – N-terminal domains of the inositol 1,4,5-trisphosphate receptor type 1 (IP3RN) with calcium

N-terminal domains of the inositol 1,4,5-trisphosphate receptor type 1 experimental SAS data
BUNCH model
Sample: N-terminal domains of the inositol 1,4,5-trisphosphate receptor type 1 monomer, 70 kDa Mus musculus protein
Buffer: 15 mM Tris, 300 mM NaCl, 1 mM TCEP, 10 mM CaCl2, pH: 8
Experiment: SAXS data collected at Bruker Nanostar II, Australian Nuclear Science and Technology Organisation/Australian Centre for Neutron Scattering on 2006 Apr 12
Ligand-induced conformational changes via flexible linkers in the amino-terminal region of the inositol 1,4,5-trisphosphate receptor. J Mol Biol 373(5):1269-80 (2007)
...Trewhella J, Ikura M
RgGuinier 3.4 nm
Dmax 11.0 nm
VolumePorod 160 nm3

SASDH63 – N-terminal domains of the inositol 1,4,5-trisphosphate receptor type 1 (IP3RN) with bound inositol 1,4,5-trisphosphate (IP3)

N-terminal domains of the inositol 1,4,5-trisphosphate receptor type 1 experimental SAS data
BUNCH model
Sample: N-terminal domains of the inositol 1,4,5-trisphosphate receptor type 1 monomer, 70 kDa Mus musculus protein
Buffer: 15 mM Tris, 300 mM NaCl, 1 mM TCEP, 5 mM EGTA, 0.25 mM IP3, pH: 8
Experiment: SAXS data collected at Bruker Nanostar II, Australian Nuclear Science and Technology Organisation/Australian Centre for Neutron Scattering on 2006 Apr 12
Ligand-induced conformational changes via flexible linkers in the amino-terminal region of the inositol 1,4,5-trisphosphate receptor. J Mol Biol 373(5):1269-80 (2007)
...Trewhella J, Ikura M
RgGuinier 3.1 nm
Dmax 8.8 nm
VolumePorod 115 nm3

SASDH73 – N-terminal domains of the inositol 1,4,5-trisphosphate receptor type 1 (IP3RN) with bound inositol 1,4,5-trisphosphate (IP3) plus calcium

N-terminal domains of the inositol 1,4,5-trisphosphate receptor type 1 experimental SAS data
BUNCH model
Sample: N-terminal domains of the inositol 1,4,5-trisphosphate receptor type 1 monomer, 70 kDa Mus musculus protein
Buffer: 15 mM Tris, 300 mM NaCl, 1 mM TCEP, 10 mM CaCl2, 0.25 mM IP3, pH: 8
Experiment: SAXS data collected at Bruker Nanostar II, Australian Nuclear Science and Technology Organisation/Australian Centre for Neutron Scattering on 2006 Apr 12
Ligand-induced conformational changes via flexible linkers in the amino-terminal region of the inositol 1,4,5-trisphosphate receptor. J Mol Biol 373(5):1269-80 (2007)
...Trewhella J, Ikura M
RgGuinier 3.2 nm
Dmax 9.6 nm
VolumePorod 132 nm3

SASDCA3 – Zinc finger and BTB domain-containing protein 38 (ZBTB38) complexed with methylated C-terminal ZBTB38 binding sequence

Zinc finger and BTB domain-containing protein 38methylated C-terminal ZBTB38 binding sequence experimental SAS data
MONSA model
Sample: Zinc finger and BTB domain-containing protein 38 monomer, 17 kDa Homo sapiens protein
methylated C-terminal ZBTB38 binding sequence monomer, 17 kDa DNA
Buffer: 10 mM Tris, 1 mM tris(2-carboxy-ethyl)phosphine (TCEP), 0.05% NaN3, 10% D2O, pH: 6.8
Experiment: SAXS data collected at Anton Paar SAXSess, Department of Chemistry, University of Utah on 2016 Nov 11
The C-Terminal Zinc Fingers of ZBTB38 are Novel Selective Readers of DNA Methylation. J Mol Biol 430(3):258-271 (2018)
...Trewhella J, Terooatea TW, Miller SA, Buck-Koehntop BA
RgGuinier 2.5 nm
Dmax 8.2 nm
VolumePorod 50 nm3

SASDCB3 – Methylated C-terminal ZBTB38 binding sequence (mCZ38BS)

methylated C-terminal ZBTB38 binding sequence experimental SAS data
DAMMIN model
Sample: methylated C-terminal ZBTB38 binding sequence monomer, 17 kDa DNA
Buffer: 10 mM Tris, 1 mM tris(2-carboxy-ethyl)phosphine (TCEP), 0.05% NaN3, 10% D2O, pH: 6.8
Experiment: SAXS data collected at Anton Paar SAXSess, Department of Chemistry, University of Utah on 2016 Oct 27
The C-Terminal Zinc Fingers of ZBTB38 are Novel Selective Readers of DNA Methylation. J Mol Biol 430(3):258-271 (2018)
...Trewhella J, Terooatea TW, Miller SA, Buck-Koehntop BA
RgGuinier 2.5 nm
Dmax 9.2 nm
VolumePorod 23 nm3

SASDCJ3 – Bovine Serum Albumin

Serum albumin experimental SAS data
DAMMIN model
Sample: Serum albumin monomer, 66 kDa Bos taurus protein
Buffer: 25 mM MOPS, 250 mM NaCl, 50 mM KCl, 2 mM TCEP, 0.1% NaN3, pH: 7.5
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2017 Mar 9
2017 publication guidelines for structural modelling of small-angle scattering data from biomolecules in solution: an update. Acta Crystallogr D Struct Biol 73(Pt 9):710-728 (2017)
Trewhella J, Duff AP, Durand D, Gabel F, Guss JM, Hendrickson WA, Hura GL, Jacques DA, Kirby NM, Kwan AH, Pérez J, Pollack L, Ryan TM, Sali A, Schneidman-Duhovny D, Schwede T, Svergun DI, Sugiyama M, ...
RgGuinier 2.8 nm
Dmax 8.7 nm
VolumePorod 101 nm3

SASDKR3 – Deuterated calmodulin bound to the HIV-1 MA protein

Calmodulin-1calcium ionsGag-Pol polyprotein experimental SAS data
MONSA model
Sample: Calmodulin-1 monomer, 17 kDa Xenopus laevis protein
calcium ions tetramer, 0 kDa
Gag-Pol polyprotein monomer, 15 kDa Human immunodeficiency virus … protein
Buffer: 50 mM MOPS, 5 mM CaCl2, 2 mM TCEP, pH: 7.4
Experiment: SAXS data collected at Bruker Nanostar, Australian Nuclear Science and Technology Organisation on 2010 Jun 23
Calmodulin binds a highly extended HIV-1 MA protein that refolds upon its release. Biophys J 103(3):541-549 (2012)
...Trewhella J
RgGuinier 3.0 nm
Dmax 11.0 nm
VolumePorod 55 nm3

SASDHY3 – KinA-Sda complex

Sporulation kinase ASporulation inhibitor sda experimental SAS data
SASREF model
Sample: Sporulation kinase A dimer, 51 kDa Bacillus subtilis protein
Sporulation inhibitor sda dimer, 11 kDa Bacillus subtilis protein
Buffer: 50mM Tris, 200mM NaCl, 150mM Imidazole, pH: 8.5
Experiment: SAXS data collected at Bruker Nanostar II, Australian Nuclear Science and Technology Organisation/Australian Centre for Neutron Scattering on 2006 Nov 16
The structure of the KinA-Sda complex suggests an allosteric mechanism of histidine kinase inhibition. J Mol Biol 368(2):407-20 (2007)
...Trewhella J, Langley DB
RgGuinier 2.9 nm
Dmax 8.0 nm
VolumePorod 85 nm3

SASDHZ3 – Sporulation kinase A

Sporulation kinase A experimental SAS data
SASREF model
Sample: Sporulation kinase A dimer, 51 kDa Bacillus subtilis protein
Buffer: 50mM Tris, 200mM NaCl, 150mM Imidazole, pH: 8.5
Experiment: SAXS data collected at Bruker Nanostar II, Australian Nuclear Science and Technology Organisation/Australian Centre for Neutron Scattering on 2006 Mar 18
The structure of the KinA-Sda complex suggests an allosteric mechanism of histidine kinase inhibition. J Mol Biol 368(2):407-20 (2007)
...Trewhella J, Langley DB
RgGuinier 2.9 nm
Dmax 9.5 nm
VolumePorod 76 nm3

SASDPP4 – Consensus SAXS Profile - Ribonuclease A

Ribonuclease pancreatic experimental SAS data
DAMMIN model
Sample: Ribonuclease pancreatic monomer, 14 kDa Bos taurus protein
Buffer: 50 mM Tris, 100 mM NaCl, pH: 7.5
Experiment: SANS data collected at (Consensus SAS), Multi-facility, Multiple countries on 2022 Jun 6
A round-robin approach provides a detailed assessment of biomolecular small-angle scattering data reproducibility and yields consensus curves for benchmarking Acta Crystallographica Section D Structural Biology 78(11) (2022)
Trewhella J, Vachette P, Bierma J, Blanchet C, Brookes E, Chakravarthy S, Chatzimagas L, Cleveland T, Cowieson N, Crossett B, Duff A, Franke D, Gabel F, Gillilan R, Graewert M, Grishaev A, Guss J, Ham...
RgGuinier 1.5 nm
Dmax 4.9 nm
VolumePorod 18 nm3

SASDDQ4 – LIM/homeobox protein Lhx4 LIM domains fused to the LIM interaction domain (LID) of Insulin gene enhancer protein ISL-2

LIM/homeobox protein Lhx4Insulin gene enhancer protein ISL-2 experimental SAS data
DAMMIN model
Sample: LIM/homeobox protein Lhx4 monomer, 15 kDa Mus musculus protein
Insulin gene enhancer protein ISL-2 monomer, 4 kDa Mus musculus protein
Buffer: 20 mM Tris, 150 mM NaCl, 1 mM TCEP, pH: 8
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2015 Nov 19
Mutation in a flexible linker modulates binding affinity for modular complexes. Proteins (2019)
...Trewhella J, Guss JM, Matthews JM
RgGuinier 2.2 nm
Dmax 8.0 nm
VolumePorod 20 nm3

SASDPQ4 – Consensus SAXS Profile - Urate Oxidase

Uricase experimental SAS data
DAMMIN model
Sample: Uricase tetramer, 136 kDa Aspergillus flavus protein
Buffer: 100 mM Tris, 150 mM NaCl, pH: 8
Experiment: SANS data collected at (Consensus SAS), Multi-facility, Multiple countries on 2022 Jun 6
A round-robin approach provides a detailed assessment of biomolecular small-angle scattering data reproducibility and yields consensus curves for benchmarking Acta Crystallographica Section D Structural Biology 78(11) (2022)
Trewhella J, Vachette P, Bierma J, Blanchet C, Brookes E, Chakravarthy S, Chatzimagas L, Cleveland T, Cowieson N, Crossett B, Duff A, Franke D, Gabel F, Gillilan R, Graewert M, Grishaev A, Guss J, Ham...
RgGuinier 3.2 nm
Dmax 9.2 nm
VolumePorod 220 nm3

SASDDR4 – LIM/homeobox protein Lhx4 LIM domains fused to the LIM interaction domain (LID) R282G mutant of Insulin gene enhancer protein ISL-2

LIM/homeobox protein Lhx4Insulin gene enhancer protein ISL-2 (R282G) experimental SAS data
DAMMIN model
Sample: LIM/homeobox protein Lhx4 monomer, 15 kDa Mus musculus protein
Insulin gene enhancer protein ISL-2 (R282G) monomer, 4 kDa Mus musculus protein
Buffer: 20 mM Tris, 150 mM NaCl, 1 mM TCEP, pH: 8
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2015 Nov 19
Mutation in a flexible linker modulates binding affinity for modular complexes. Proteins (2019)
...Trewhella J, Guss JM, Matthews JM
RgGuinier 2.3 nm
Dmax 8.5 nm
VolumePorod 21 nm3

SASDPR4 – Consensus SAXS Profile - Xylose Isomerase

Xylose isomerase experimental SAS data
DAMMIN model
Sample: Xylose isomerase tetramer, 173 kDa Streptomyces rubiginosus protein
Buffer: ConsensusBuffer_50 mM Tris, 100 mM NaCl, 1 mM MgCl2, pH: 7.5
Experiment: SANS data collected at (Consensus SAS), Multi-facility, Multiple countries on 2022 Jun 6
A round-robin approach provides a detailed assessment of biomolecular small-angle scattering data reproducibility and yields consensus curves for benchmarking Acta Crystallographica Section D Structural Biology 78(11) (2022)
Trewhella J, Vachette P, Bierma J, Blanchet C, Brookes E, Chakravarthy S, Chatzimagas L, Cleveland T, Cowieson N, Crossett B, Duff A, Franke D, Gabel F, Gillilan R, Graewert M, Grishaev A, Guss J, Ham...
RgGuinier 3.3 nm
Dmax 10.1 nm
VolumePorod 243 nm3

SASDPS4 – Consensus SAXS Profile - Xylanase

Endo-1,4-beta-xylanase experimental SAS data
DAMMIN model
Sample: Endo-1,4-beta-xylanase monomer, 21 kDa Trichoderma longibrachiatum protein
Buffer: 50 mM Tris, 100 mM NaCl, pH: 7.5
Experiment: SANS data collected at (Consensus SAS), Multi-facility, Multiple countries on 2022 Jun 6
A round-robin approach provides a detailed assessment of biomolecular small-angle scattering data reproducibility and yields consensus curves for benchmarking Acta Crystallographica Section D Structural Biology 78(11) (2022)
Trewhella J, Vachette P, Bierma J, Blanchet C, Brookes E, Chakravarthy S, Chatzimagas L, Cleveland T, Cowieson N, Crossett B, Duff A, Franke D, Gabel F, Gillilan R, Graewert M, Grishaev A, Guss J, Ham...
RgGuinier 1.6 nm
Dmax 5.1 nm
VolumePorod 27 nm3

SASDPT4 – Consensus SAXS Profile - Lysozyme

Lysozyme C experimental SAS data
DAMMIN model
Sample: Lysozyme C monomer, 14 kDa Gallus gallus protein
Buffer: 50 mM sodium citrate, 150 mM NaCl, pH: 4.5
Experiment: SANS data collected at (Consensus SAS), Multi-facility, Multiple countries on 2022 Jun 6
A round-robin approach provides a detailed assessment of biomolecular small-angle scattering data reproducibility and yields consensus curves for benchmarking Acta Crystallographica Section D Structural Biology 78(11) (2022)
Trewhella J, Vachette P, Bierma J, Blanchet C, Brookes E, Chakravarthy S, Chatzimagas L, Cleveland T, Cowieson N, Crossett B, Duff A, Franke D, Gabel F, Gillilan R, Graewert M, Grishaev A, Guss J, Ham...
RgGuinier 1.5 nm
Dmax 4.8 nm
VolumePorod 19 nm3

SASDPU4 – Consensus SANS Profile - Ribonuclease A in 100% v/v D2O buffer

Ribonuclease pancreatic experimental SAS data
PDB (PROTEIN DATA BANK) model
Sample: Ribonuclease pancreatic monomer, 14 kDa Bos taurus protein
Buffer: 50 mM Tris, 100 mM NaCl, pH: 7.5
Experiment: SANS data collected at (Consensus SAS), Multi-facility, Multiple countries on 2022 Jun 6
A round-robin approach provides a detailed assessment of biomolecular small-angle scattering data reproducibility and yields consensus curves for benchmarking Acta Crystallographica Section D Structural Biology 78(11) (2022)
Trewhella J, Vachette P, Bierma J, Blanchet C, Brookes E, Chakravarthy S, Chatzimagas L, Cleveland T, Cowieson N, Crossett B, Duff A, Franke D, Gabel F, Gillilan R, Graewert M, Grishaev A, Guss J, Ham...
RgGuinier 1.4 nm
Dmax 4.4 nm

SASDPV4 – Consensus SANS Profile - Lysozyme in 100% v/v D2O buffer

Lysozyme C experimental SAS data
PDB (PROTEIN DATA BANK) model
Sample: Lysozyme C monomer, 14 kDa Gallus gallus protein
Buffer: 50 mM sodium citrate, 150 mM NaCl, pH: 4.5
Experiment: SANS data collected at (Consensus SAS), Multi-facility, Multiple countries on 2022 Jun 6
A round-robin approach provides a detailed assessment of biomolecular small-angle scattering data reproducibility and yields consensus curves for benchmarking Acta Crystallographica Section D Structural Biology 78(11) (2022)
Trewhella J, Vachette P, Bierma J, Blanchet C, Brookes E, Chakravarthy S, Chatzimagas L, Cleveland T, Cowieson N, Crossett B, Duff A, Franke D, Gabel F, Gillilan R, Graewert M, Grishaev A, Guss J, Ham...
RgGuinier 1.2 nm
Dmax 3.8 nm

SASDPW4 – Consensus SANS Profile - Xylanase in 100% v/v D2O buffer

Endo-1,4-beta-xylanase experimental SAS data
PDB (PROTEIN DATA BANK) model
Sample: Endo-1,4-beta-xylanase monomer, 21 kDa Trichoderma longibrachiatum protein
Buffer: 50 mM Tris, 100 mM NaCl, pH: 7.5
Experiment: SANS data collected at (Consensus SAS), Multi-facility, Multiple countries on 2022 Jun 6
A round-robin approach provides a detailed assessment of biomolecular small-angle scattering data reproducibility and yields consensus curves for benchmarking Acta Crystallographica Section D Structural Biology 78(11) (2022)
Trewhella J, Vachette P, Bierma J, Blanchet C, Brookes E, Chakravarthy S, Chatzimagas L, Cleveland T, Cowieson N, Crossett B, Duff A, Franke D, Gabel F, Gillilan R, Graewert M, Grishaev A, Guss J, Ham...
RgGuinier 1.5 nm
Dmax 4.4 nm

SASDPX4 – Consensus SANS Profile - Urate oxidase in 100% v/v D2O buffer

Uricase experimental SAS data
PDB (PROTEIN DATA BANK) model
Sample: Uricase tetramer, 136 kDa Aspergillus flavus protein
Buffer: 100 mM Tris, 150 mM NaCl, pH: 8
Experiment: SANS data collected at (Consensus SAS), Multi-facility, Multiple countries on 2022 Jun 6
A round-robin approach provides a detailed assessment of biomolecular small-angle scattering data reproducibility and yields consensus curves for benchmarking Acta Crystallographica Section D Structural Biology 78(11) (2022)
Trewhella J, Vachette P, Bierma J, Blanchet C, Brookes E, Chakravarthy S, Chatzimagas L, Cleveland T, Cowieson N, Crossett B, Duff A, Franke D, Gabel F, Gillilan R, Graewert M, Grishaev A, Guss J, Ham...
RgGuinier 3.1 nm
Dmax 9.3 nm

SASDPY4 – Consensus SANS Profile - Xylose isomerase in 100% v/v D2O buffer

Xylose isomerase experimental SAS data
PDB (PROTEIN DATA BANK) model
Sample: Xylose isomerase tetramer, 173 kDa Streptomyces rubiginosus protein
Buffer: 50 mM Tris, 100 mM NaCl, 1 mM MgCl2, pH: 7.5
Experiment: SANS data collected at (Consensus SAS), Multi-facility, Multiple countries on 2022 Jun 6
A round-robin approach provides a detailed assessment of biomolecular small-angle scattering data reproducibility and yields consensus curves for benchmarking Acta Crystallographica Section D Structural Biology 78(11) (2022)
Trewhella J, Vachette P, Bierma J, Blanchet C, Brookes E, Chakravarthy S, Chatzimagas L, Cleveland T, Cowieson N, Crossett B, Duff A, Franke D, Gabel F, Gillilan R, Graewert M, Grishaev A, Guss J, Ham...
RgGuinier 3.1 nm
Dmax 9.5 nm

SASDPZ4 – Consensus SANS Profile - Lysozyme in H2O buffer

Lysozyme C experimental SAS data
PDB (PROTEIN DATA BANK) model
Sample: Lysozyme C monomer, 14 kDa Gallus gallus protein
Buffer: 50 mM sodium citrate, 150 mM NaCl, pH: 4.5
Experiment: SANS data collected at (Consensus SAS), Multi-facility, Multiple countries on 2022 Jun 22
A round-robin approach provides a detailed assessment of biomolecular small-angle scattering data reproducibility and yields consensus curves for benchmarking Acta Crystallographica Section D Structural Biology 78(11) (2022)
Trewhella J, Vachette P, Bierma J, Blanchet C, Brookes E, Chakravarthy S, Chatzimagas L, Cleveland T, Cowieson N, Crossett B, Duff A, Franke D, Gabel F, Gillilan R, Graewert M, Grishaev A, Guss J, Ham...
RgGuinier 1.4 nm
Dmax 4.8 nm

SASDB25 – Cardiac myosin binding protein-C: domains C5-C6-C7

Cardiac myosin binding protein-C: domains C5-C6-C7 experimental SAS data
Cardiac myosin binding protein-C: domains C5-C6-C7 Kratky plot
Sample: Cardiac myosin binding protein-C: domains C5-C6-C7 monomer, 36 kDa Homo sapiens protein
Buffer: 25 mM Tris-HCl, 250 mM NaCl, 2 mM TCEP, 0.02% sodium azide, pH: 7.5
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2015 Apr 18
Clinically Linked Mutations in the Central Domains of Cardiac Myosin-Binding Protein C with Distinct Phenotypes Show Differential Structural Effects. Structure 24(1):105-115 (2016)
...Trewhella J
RgGuinier 3.8 nm
Dmax 14.1 nm
VolumePorod 55 nm3

SASDP25 – Consensus SANS Profile - Ribonuclease A in H2O buffer

Ribonuclease pancreatic experimental SAS data
PDB (PROTEIN DATA BANK) model
Sample: Ribonuclease pancreatic monomer, 14 kDa Bos taurus protein
Buffer: 50 mM Tris, 100 mM NaCl, pH: 7.5
Experiment: SANS data collected at (Consensus SAS), Multi-facility, Multiple countries on 2022 Jun 22
A round-robin approach provides a detailed assessment of biomolecular small-angle scattering data reproducibility and yields consensus curves for benchmarking Acta Crystallographica Section D Structural Biology 78(11) (2022)
Trewhella J, Vachette P, Bierma J, Blanchet C, Brookes E, Chakravarthy S, Chatzimagas L, Cleveland T, Cowieson N, Crossett B, Duff A, Franke D, Gabel F, Gillilan R, Graewert M, Grishaev A, Guss J, Ham...
RgGuinier 1.5 nm
Dmax 4.1 nm

SASDP35 – Consensus SANS Profile - Xylanase in H2O buffer

Endo-1,4-beta-xylanase experimental SAS data
PDB (PROTEIN DATA BANK) model
Sample: Endo-1,4-beta-xylanase monomer, 21 kDa Trichoderma longibrachiatum protein
Buffer: 50 mM Tris, 100 mM NaCl, pH: 7.5
Experiment: SANS data collected at (Consensus SAS), Multi-facility, Multiple countries on 2022 Jun 22
A round-robin approach provides a detailed assessment of biomolecular small-angle scattering data reproducibility and yields consensus curves for benchmarking Acta Crystallographica Section D Structural Biology 78(11) (2022)
Trewhella J, Vachette P, Bierma J, Blanchet C, Brookes E, Chakravarthy S, Chatzimagas L, Cleveland T, Cowieson N, Crossett B, Duff A, Franke D, Gabel F, Gillilan R, Graewert M, Grishaev A, Guss J, Ham...
RgGuinier 1.6 nm
Dmax 4.3 nm

SASDP45 – Consensus SANS Profile - Urate oxidase in H2O buffer

Uricase experimental SAS data
PDB (PROTEIN DATA BANK) model
Sample: Uricase tetramer, 136 kDa Aspergillus flavus protein
Buffer: 100 mM Tris, 150 mM NaCl, pH: 8
Experiment: SANS data collected at (Consensus SAS), Multi-facility, Multiple countries on 2022 Jun 24
A round-robin approach provides a detailed assessment of biomolecular small-angle scattering data reproducibility and yields consensus curves for benchmarking Acta Crystallographica Section D Structural Biology 78(11) (2022)
Trewhella J, Vachette P, Bierma J, Blanchet C, Brookes E, Chakravarthy S, Chatzimagas L, Cleveland T, Cowieson N, Crossett B, Duff A, Franke D, Gabel F, Gillilan R, Graewert M, Grishaev A, Guss J, Ham...
RgGuinier 3.2 nm
Dmax 9.1 nm

SASDP55 – Consensus SANS Profile - Xylose isomerase in H2O buffer

Xylose isomerase experimental SAS data
PDB (PROTEIN DATA BANK) model
Sample: Xylose isomerase tetramer, 173 kDa Streptomyces rubiginosus protein
Buffer: 50 mM Tris, 100 mM NaCl, 1 mM MgCl2, pH: 7.5
Experiment: SANS data collected at (Consensus SAS), Multi-facility, Multiple countries on 2022 Jun 24
A round-robin approach provides a detailed assessment of biomolecular small-angle scattering data reproducibility and yields consensus curves for benchmarking Acta Crystallographica Section D Structural Biology 78(11) (2022)
Trewhella J, Vachette P, Bierma J, Blanchet C, Brookes E, Chakravarthy S, Chatzimagas L, Cleveland T, Cowieson N, Crossett B, Duff A, Franke D, Gabel F, Gillilan R, Graewert M, Grishaev A, Guss J, Ham...
RgGuinier 3.3 nm
Dmax 9.7 nm

SASDJB9 – LIM/homeobox protein Lhx3 homeodomain (Lhx3-HD): HD3

LIM/homeobox protein Lhx3 experimental SAS data
MONSA model
Sample: LIM/homeobox protein Lhx3 monomer, 10 kDa Mus musculus protein
Buffer: 20 mM sodium phosphate monobasic/dibasic, 100 mM NaCl, 1 mM DTT, pH: 7.4
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2018 Nov 2
Contrasting DNA-binding behaviour by ISL1 and LHX3 underpins differential gene targeting in neuronal cell specification Journal of Structural Biology: X :100043 (2020)
...Trewhella J, Matthews J
RgGuinier 2.1 nm
Dmax 7.0 nm
VolumePorod 18 nm3

SASDJC9 – Insulin gene enhancer protein Isl-1 LIM-interaction domain (Isl1-LID) fused to the LIM/homeobox protein Lhx3 LIM-homeodomain (Lhx3-LIMHD): LLHD3

LIM/homeobox protein Lhx3Insulin gene enhancer protein ISL-1 experimental SAS data
MONSA model
Sample: LIM/homeobox protein Lhx3 monomer, 23 kDa Mus musculus protein
Insulin gene enhancer protein ISL-1 monomer, 4 kDa Mus musculus protein
Buffer: 20 mM sodium phosphate monobasic/dibasic, 100 mM NaCl, 1 mM DTT, pH: 7.4
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2018 Nov 2
Contrasting DNA-binding behaviour by ISL1 and LHX3 underpins differential gene targeting in neuronal cell specification Journal of Structural Biology: X :100043 (2020)
...Trewhella J, Matthews J
RgGuinier 3.3 nm
Dmax 12.0 nm
VolumePorod 39 nm3

SASDDD9 – Cardiac myosin binding protein C: tri-helix bundle from the motif with C2 domain

cardiac myosin binding protein C: tri-helix bundle-C2 experimental SAS data
Cardiac myosin binding protein C: tri-helix bundle from the motif with C2 domain Rg histogram
Sample: cardiac myosin binding protein C: tri-helix bundle-C2 monomer, 15 kDa human sequence obtained … protein
Buffer: 150 mM NaCl, 10 mM MES, 2 mM TCEP, 1 mM NaN3 at 4°C, pH: 6.5
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2015 Apr 18
A Highly Conserved Yet Flexible Linker Is Part of a Polymorphic Protein-Binding Domain in Myosin-Binding Protein C. Structure 24(11):2000-2007 (2016)
...Trewhella J
RgGuinier 1.9 nm
Dmax 8.0 nm
VolumePorod 20 nm3

SASDJD9 – Insulin gene enhancer protein Isl-1 homeodomain (Isl1-HD) fused to the LIM/homeobox protein Lhx3 homeodomain (Lhx3-HD): 2HD

Insulin gene enhancer protein ISL-1LIM/homeobox protein Lhx3 experimental SAS data
MONSA model
Sample: Insulin gene enhancer protein ISL-1 monomer, 12 kDa Mus musculus protein
LIM/homeobox protein Lhx3 monomer, 9 kDa Mus musculus protein
Buffer: 20 mM sodium phosphate monobasic/dibasic, 100 mM NaCl, 1 mM DTT, pH: 7.4
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2018 Nov 2
Contrasting DNA-binding behaviour by ISL1 and LHX3 underpins differential gene targeting in neuronal cell specification Journal of Structural Biology: X :100043 (2020)
...Trewhella J, Matthews J
RgGuinier 3.4 nm
Dmax 12.7 nm
VolumePorod 40 nm3

SASDJE9 – Insulin gene enhancer protein Isl-1 homeodomain/LIM-interaction domain (Isl1-HDLID) fused to the LIM/homeobox protein Lhx3 LIM-homeodomain (Lhx3-LIMHD): 2HDLL

Insulin gene enhancer protein ISL-1LIM/homeobox protein Lhx3 experimental SAS data
MONSA model
Sample: Insulin gene enhancer protein ISL-1 monomer, 14 kDa Mus musculus protein
LIM/homeobox protein Lhx3 monomer, 23 kDa Mus musculus protein
Buffer: 20 mM sodium phosphate monobasic/dibasic, 100 mM NaCl, 1 mM DTT, pH: 7.4
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2018 Nov 2
Contrasting DNA-binding behaviour by ISL1 and LHX3 underpins differential gene targeting in neuronal cell specification Journal of Structural Biology: X :100043 (2020)
...Trewhella J, Matthews J
RgGuinier 3.4 nm
Dmax 13.0 nm
VolumePorod 76 nm3

SASDJF9 – M100 DNA oligonucleotide bound to the LIM/homeobox protein Lhx3 homeodomain (Lhx3-HD): M100 + HD3

M100 oligonucleotideLIM/homeobox protein Lhx3 experimental SAS data
MONSA model
Sample: M100 oligonucleotide monomer, 12 kDa DNA
LIM/homeobox protein Lhx3 monomer, 10 kDa Mus musculus protein
Buffer: 20 mM sodium phosphate monobasic/dibasic, 100 mM NaCl, 1 mM DTT, pH: 7.4
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2018 Nov 2
Contrasting DNA-binding behaviour by ISL1 and LHX3 underpins differential gene targeting in neuronal cell specification Journal of Structural Biology: X :100043 (2020)
...Trewhella J, Matthews J
RgGuinier 2.1 nm
Dmax 7.0 nm
VolumePorod 27 nm3

SASDJG9 – M100 DNA oligonucleotide bound to the protein fusion of Insulin gene enhancer protein Isl-1 LIM-interaction domain (Isl1-LID) and LIM/homeobox protein Lhx3 LIM-homeodomain (Lhx3-LIMHD): M100 + LLHD3

M100 oligonucleotideLIM/homeobox protein Lhx3Insulin gene enhancer protein ISL-1 experimental SAS data
MONSA model
Sample: M100 oligonucleotide monomer, 12 kDa DNA
LIM/homeobox protein Lhx3 monomer, 23 kDa Mus musculus protein
Insulin gene enhancer protein ISL-1 monomer, 4 kDa Mus musculus protein
Buffer: 20 mM sodium phosphate monobasic/dibasic, 100 mM NaCl, 1 mM DTT, pH: 7.4
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2018 Nov 2
Contrasting DNA-binding behaviour by ISL1 and LHX3 underpins differential gene targeting in neuronal cell specification Journal of Structural Biology: X :100043 (2020)
...Trewhella J, Matthews J
RgGuinier 3.6 nm
Dmax 13.0 nm
VolumePorod 49 nm3

SASDJH9 – M100 DNA oligonucleotide bound to the protein fusion of Insulin gene enhancer protein Isl-1 homeodomain (Isl1-HD) and LIM/homeobox protein Lhx3 homeodomain (Lhx3-HD): M100 + 2HD

M100 oligonucleotideInsulin gene enhancer protein ISL-1LIM/homeobox protein Lhx3 experimental SAS data
MONSA model
Sample: M100 oligonucleotide monomer, 12 kDa DNA
Insulin gene enhancer protein ISL-1 monomer, 12 kDa Mus musculus protein
LIM/homeobox protein Lhx3 monomer, 9 kDa Mus musculus protein
Buffer: 20 mM sodium phosphate monobasic/dibasic, 100 mM NaCl, 1 mM DTT, pH: 7.4
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2018 Nov 2
Contrasting DNA-binding behaviour by ISL1 and LHX3 underpins differential gene targeting in neuronal cell specification Journal of Structural Biology: X :100043 (2020)
...Trewhella J, Matthews J
RgGuinier 2.4 nm
Dmax 7.5 nm
VolumePorod 41 nm3

SASDJJ9 – M100 DNA oligonucleotide bound to the protein fusion of Insulin gene enhancer protein Isl-1 homeodomain/LIM-interaction domain (Isl1-HDLID) and LIM/homeobox protein Lhx3 LIM-homeodomain (Lhx3-LIMHD): ...

M100 oligonucleotideInsulin gene enhancer protein ISL-1LIM/homeobox protein Lhx3 experimental SAS data
MONSA model
Sample: M100 oligonucleotide monomer, 12 kDa DNA
Insulin gene enhancer protein ISL-1 monomer, 14 kDa Mus musculus protein
LIM/homeobox protein Lhx3 monomer, 23 kDa Mus musculus protein
Buffer: 20 mM sodium phosphate monobasic/dibasic, 100 mM NaCl, 1 mM DTT, pH: 7.4
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2018 Nov 2
Contrasting DNA-binding behaviour by ISL1 and LHX3 underpins differential gene targeting in neuronal cell specification Journal of Structural Biology: X :100043 (2020)
...Trewhella J, Matthews J
RgGuinier 3.6 nm
Dmax 14.0 nm
VolumePorod 70 nm3

SASDJK9 – M100 DNA oligonucleotide

M100 oligonucleotide experimental SAS data
MONSA model
Sample: M100 oligonucleotide monomer, 12 kDa DNA
Buffer: 20 mM sodium phosphate monobasic/dibasic, 100 mM NaCl, 1 mM DTT, pH: 7.4
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2018 Nov 2
Contrasting DNA-binding behaviour by ISL1 and LHX3 underpins differential gene targeting in neuronal cell specification Journal of Structural Biology: X :100043 (2020)
...Trewhella J, Matthews J
RgGuinier 1.9 nm
Dmax 6.8 nm
VolumePorod 15 nm3