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41 hits found for Smith

SASDC52 – Bruton tyrosine kinase

Tyrosine-protein kinase BTK (R28C mutant) experimental SAS data
GASBOR model
Sample: Tyrosine-protein kinase BTK (R28C mutant) monomer, 76 kDa Homo sapiens protein
Buffer: 20 mM HEPES 200 mM NaCl, 2 mM DTT and 1 mM MgCl2, pH: 7.5
Experiment: SAXS data collected at EMBL X33, DORIS III, DESY on 2002 Apr 2
Conformation of full-length Bruton tyrosine kinase (Btk) from synchrotron X-ray solution scattering. EMBO J 22(18):4616-24 (2003)
...Smith CI, Petoukhov MV, Lo Surdo P, Mattsson PT, Knekt M, Westlund A, Scheffzek K, Saraste M, Svergun DI
RgGuinier 5.0 nm
Dmax 20.0 nm
VolumePorod 130 nm3

SASDK92 – Interferon-activable protein 204 from Mus musculus (Mouse) amino-acids 215-619

Interferon-activable protein 204 experimental SAS data
CHIMERA model
Sample: Interferon-activable protein 204 monomer, 47 kDa Mus musculus protein
Buffer: 20 mM HEPES, 100 mM KCl, pH: 7.4
Experiment: SAXS data collected at X9A, National Synchrotron Light Source (NSLS) on 2013 Mar 14
Structural mechanism of DNA recognition by the p204 HIN domain. Nucleic Acids Res (2021)
...Smith P, Unterholzner L, Xiao TS, Jin T
RgGuinier 3.1 nm
Dmax 9.5 nm
VolumePorod 28 nm3

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)
...Smith BJ, Menting JG, Margetts MB, McKern NM, Lovrecz GO, Adams TE, Richards K, Bentley JD, 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)
...Smith BJ, Menting JG, Margetts MB, McKern NM, Lovrecz GO, Adams TE, Richards K, Bentley JD, Trewhella J, Ward CW, Lawrence MC
RgGuinier 5.5 nm
Dmax 17.0 nm
VolumePorod 385 nm3

SASDJ63 – Streptococcus pneumoniae NADPH oxidase - Tag-free SpNOX

FAD-binding FR-type domain-containing protein experimental SAS data
OTHER model
Sample: FAD-binding FR-type domain-containing protein monomer, 47 kDa Streptococcus pneumoniae protein
Buffer: 50 mM Tris-HCl pH 7, 300 mM NaCl, 5 mM LMNG, 10 µM FAD, 21.4% D₂O, pH: 7
Experiment: SANS data collected at D22, Institut Laue-Langevin (ILL) on 2018 Jun 26
Interdomain Flexibility within NADPH Oxidase Suggested by SANS Using LMNG Stealth Carrier. Biophys J 119(3):605-618 (2020)
...Smith SME, Ebel C, Martel A, Fieschi F
RgGuinier 3.0 nm
Dmax 10.0 nm
VolumePorod 89 nm3

SASDJV3 – GTPase-Activation Protein (GAP) domain (73-204) of Vibrio cholerae Outer Protein E (VopE)

Outer membrane virulence protein yopE experimental SAS data
Outer membrane virulence protein yopE Kratky plot
Sample: Outer membrane virulence protein yopE monomer, 15 kDa Vibrio cholerae protein
Buffer: 10 mM HEPES-HCl, pH 7.4, 150 mM NaCl, 0.5 mM TCEP, pH: 7.4
Experiment: SAXS data collected at BioCAT 18ID, Advanced Photon Source (APS), Argonne National Laboratory on 2016 Jun 29
Solution structure and dynamics of the mitochondrial‐targeted GTPase ‐activating protein ( GAP ) VopE by an integrated NMR / SAXS ... Protein Science (2022)
Smith K, Lee W, Tonelli M, Lee Y, Light S, Cornilescu G, Chakravarthy S
RgGuinier 2.0 nm
Dmax 8.0 nm
VolumePorod 28 nm3

SASDG97 – Trypanosoma brucei Membrane Occupation and Recognition Nexus MORN1 repeats 2-15

Trypanosoma brucei Membrane Occupation and Recognition Nexus MORN repeats 2-15 experimental SAS data
DAMMIF model
Sample: Trypanosoma brucei Membrane Occupation and Recognition Nexus MORN repeats 2-15 dimer, 78 kDa Trypanosoma brucei protein
Buffer: 20 mM Tris-HCl, 100 mM NaCl, pH: 7.5
Experiment: SAXS data collected at BM29, ESRF on 2017 Jan 27
Structures of three MORN repeat proteins and a re-evaluation of the proposed lipid-binding properties of MORN repeats. PLoS One 15(12):e0242677 (2020)
...Smith TK, Morriswood B, Djinovic-Carugo K
RgGuinier 6.5 nm
Dmax 26.0 nm
VolumePorod 187 nm3

SASDGA7 – Trypanosoma brucei Membrane Occupation and Recognition Nexus MORN1 repeats 7-15

Trypanosoma brucei Membrane Occupation and Recognition Nexus MORN (7-15) experimental SAS data
CUSTOM IN-HOUSE model
Sample: Trypanosoma brucei Membrane Occupation and Recognition Nexus MORN (7-15) dimer, 52 kDa Trypanosoma brucei protein
Buffer: 20 mM Tris-HCl, 200 mM NaCl, 2% (w/v) glycerol, 0.5 mM DTT, pH: 8.5
Experiment: SAXS data collected at EMBL P12, PETRA III on 2016 Jun 11
Structures of three MORN repeat proteins and a re-evaluation of the proposed lipid-binding properties of MORN repeats. PLoS One 15(12):e0242677 (2020)
...Smith TK, Morriswood B, Djinovic-Carugo K
RgGuinier 4.1 nm
Dmax 15.5 nm
VolumePorod 56 nm3

SASDGB7 – Toxoplasma gondii Membrane Occupation and Recognition Nexus (MORN1) repeats 7-15

Toxoplasma gondii Membrane Occupation and Recognition Nexus (MORN1) repeats 7-15 experimental SAS data
DAMMIF model
Sample: Toxoplasma gondii Membrane Occupation and Recognition Nexus (MORN1) repeats 7-15 dimer, 49 kDa Toxoplasma gondii protein
Buffer: 20 mM Tris-HCl, 100 mM NaCl, pH: 7.5
Experiment: SAXS data collected at EMBL P12, PETRA III on 2016 Jun 10
Structures of three MORN repeat proteins and a re-evaluation of the proposed lipid-binding properties of MORN repeats. PLoS One 15(12):e0242677 (2020)
...Smith TK, Morriswood B, Djinovic-Carugo K
RgGuinier 4.0 nm
Dmax 17.0 nm
VolumePorod 55 nm3

SASDGC7 – Plasmodium falciparum Membrane Occupation and Recognition Nexus (MORN1) repeats 7-15

MORN repeat-containing protein 1 experimental SAS data
DAMMIN model
Sample: MORN repeat-containing protein 1 dimer, 46 kDa Plasmodium falciparum protein
Buffer: 20 mM Tris-HCl, 100 mM NaCl, pH: 7.5
Experiment: SAXS data collected at EMBL P12, PETRA III on 2017 Dec 2
Structures of three MORN repeat proteins and a re-evaluation of the proposed lipid-binding properties of MORN repeats. PLoS One 15(12):e0242677 (2020)
...Smith TK, Morriswood B, Djinovic-Carugo K
RgGuinier 3.8 nm
Dmax 16.0 nm
VolumePorod 52 nm3

SASDCH7 – N-terminal domain of DsbD from N. meningitidis

N-terminus of disulfide interchange protein DsbD experimental SAS data
DAMMIN model
Sample: N-terminus of disulfide interchange protein DsbD monomer, 14 kDa Neisseria meningitidis protein
Buffer: 25mM HEPES 150mM NaCl, pH: 6.7
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2013 May 4
Production, biophysical characterization and initial crystallization studies of the N- and C-terminal domains of DsbD, an essential enzyme in Neisseria meningitidis. Acta Crystallogr F Struct Biol Commun 74(Pt 1):31-38 (2018)
Smith RP, Whitten AE, Paxman JJ, Kahler CM, Scanlon MJ, Heras B
RgGuinier 1.8 nm
Dmax 5.7 nm
VolumePorod 17 nm3

SASDCJ7 – C-terminal domain of DsbD from N. meningitidis

DsbA-like disulfide oxidoreductase (thiol-disulfide exchange protein) experimental SAS data
DAMMIN model
Sample: DsbA-like disulfide oxidoreductase (thiol-disulfide exchange protein) monomer, 21 kDa Wolbachia endosymbiont of … protein
Buffer: 25mM HEPES 150mM NaCl, pH: 6.7
Experiment: SAXS data collected at SAXS/WAXS, Australian Synchrotron on 2013 May 4
Production, biophysical characterization and initial crystallization studies of the N- and C-terminal domains of DsbD, an essential enzyme in Neisseria meningitidis. Acta Crystallogr F Struct Biol Commun 74(Pt 1):31-38 (2018)
Smith RP, Whitten AE, Paxman JJ, Kahler CM, Scanlon MJ, Heras B
RgGuinier 1.5 nm
Dmax 4.5 nm
VolumePorod 15 nm3

SASDBK7 – Vaccinia virus A46 protein (full-length)

Protein A46 experimental SAS data
CORAL model
Sample: Protein A46 tetramer, 112 kDa Vaccinia virus protein
Buffer: 20 mM Tris-HCl, 10 mM DTT, pH: 8.5
Experiment: SAXS data collected at BM29, ESRF on 2015 Jun 25
Vaccinia Virus Immunomodulator A46: A Lipid and Protein-Binding Scaffold for Sequestering Host TIR-Domain Proteins. PLoS Pathog 12(12):e1006079 (2016)
...Smith TK, Sammito M, Bobik N, Round A, Ten Eyck LF, Djinović-Carugo K, Usón I, Skern T
RgGuinier 4.3 nm
Dmax 14.0 nm
VolumePorod 199 nm3

SASDBL7 – N-terminal domain of Vaccinia virus A46 protein (1-83)

Protein A46 experimental SAS data
CORAL model
Sample: Protein A46 tetramer, 40 kDa Vaccinia virus protein
Buffer: 20 mM Tris-HCl, 10 mM DTT, pH: 8.5
Experiment: SAXS data collected at BM29, ESRF on 2015 Jun 25
Vaccinia Virus Immunomodulator A46: A Lipid and Protein-Binding Scaffold for Sequestering Host TIR-Domain Proteins. PLoS Pathog 12(12):e1006079 (2016)
...Smith TK, Sammito M, Bobik N, Round A, Ten Eyck LF, Djinović-Carugo K, Usón I, Skern T
RgGuinier 2.6 nm
Dmax 9.0 nm
VolumePorod 68 nm3

SASDP39 – apo Saccharomyces cerevisiae Arginyltransferase-1

Arginyl-tRNA--protein transferase 1 experimental SAS data
ALPHAFOLD model
Sample: Arginyl-tRNA--protein transferase 1 monomer, 60 kDa Saccharomyces cerevisiae (strain … protein
Buffer: 2% glycerol, 100 mM KCl, 50 mM Tris-HCl, 1mM DTT, pH: 7.5
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2021 May 12
The Structure of Saccharomyces cerevisiae Arginyltransferase 1 (ATE1). J Mol Biol 434(21):167816 (2022)
...Smith AT
RgGuinier 2.8 nm
Dmax 8.3 nm
VolumePorod 105 nm3

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)
Smith N, Wilkinson-White L, Kwan A, 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)
Smith N, Wilkinson-White L, Kwan A, Trewhella J, Matthews J
RgGuinier 3.3 nm
Dmax 12.0 nm
VolumePorod 39 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)
Smith N, Wilkinson-White L, Kwan A, 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)
Smith N, Wilkinson-White L, Kwan A, 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)
Smith N, Wilkinson-White L, Kwan A, 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)
Smith N, Wilkinson-White L, Kwan A, 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)
Smith N, Wilkinson-White L, Kwan A, 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)
Smith N, Wilkinson-White L, Kwan A, 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)
Smith N, Wilkinson-White L, Kwan A, Trewhella J, Matthews J
RgGuinier 1.9 nm
Dmax 6.8 nm
VolumePorod 15 nm3

SASDKH7 – Bromodomain testis-specific protein, BRDT, tandem bromodomains (10 mg/ml)

Bromodomain testis-specific protein experimental SAS data
Bromodomain testis-specific protein Kratky plot
Sample: Bromodomain testis-specific protein monomer, 42 kDa Homo sapiens protein
Buffer: 25 mM HEPES, 150 mM NaCl, and 2% glycerol, pH: 7.5
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2018 Sep 25
Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization (2019)
...Smith B
RgGuinier 5.7 nm
Dmax 18.6 nm
VolumePorod 120 nm3

SASDME9 – 7SK stem-loop 1 with HEXIM Arginine Rich Motif

Homo sapiens RNA component of 7SK nuclear ribonucleoprotein (RN7SK), small nuclear RNAProtein HEXIM1 experimental SAS data
Homo sapiens RNA component of 7SK nuclear ribonucleoprotein (RN7SK), small nuclear RNA Protein HEXIM1 Kratky plot
Sample: Homo sapiens RNA component of 7SK nuclear ribonucleoprotein (RN7SK), small nuclear RNA monomer, 18 kDa Homo sapiens RNA
Protein HEXIM1 monomer, 2 kDa Homo sapiens protein
Buffer: 10 mM phosphate, 70 mM NaCl, 0.1 mM EDTA, pH: 5.6
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2018 Nov 27
A structure-based mechanism for displacement of the HEXIM adapter from 7SK small nuclear RNA. Commun Biol 5(1):819 (2022)
...Smith JL, D'Souza VM
RgGuinier 2.2 nm
Dmax 8.2 nm
VolumePorod 26 nm3

SASDKJ7 – Bromodomain testis-specific protein, BRDT, tandem bromodomains (5 mg/ml)

Bromodomain testis-specific protein experimental SAS data
Bromodomain testis-specific protein Kratky plot
Sample: Bromodomain testis-specific protein monomer, 42 kDa Homo sapiens protein
Buffer: 25 mM HEPES, 150 mM NaCl, and 2% glycerol, pH: 7.5
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2018 Sep 25
Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization (2019)
...Smith B
RgGuinier 5.0 nm
Dmax 19.2 nm
VolumePorod 120 nm3

SASDMF9 – 7SK small nuclear RNA stem loop-1 bound to the arginine rich motif of HIV-1 Tat Group M, Subtype B (Isolate A18188)

Protein TatHomo sapiens RNA component of 7SK nuclear ribonucleoprotein (RN7SK), small nuclear RNA experimental SAS data
Protein Tat Homo sapiens RNA component of 7SK nuclear ribonucleoprotein (RN7SK), small nuclear RNA Kratky plot
Sample: Protein Tat monomer, 2 kDa Human immunodeficiency virus … protein
Homo sapiens RNA component of 7SK nuclear ribonucleoprotein (RN7SK), small nuclear RNA monomer, 18 kDa Homo sapiens RNA
Buffer: 10 mM phosphate, 70 mM NaCl, 0.1 mM EDTA, pH: 5.6
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2019 Sep 9
A structure-based mechanism for displacement of the HEXIM adapter from 7SK small nuclear RNA. Commun Biol 5(1):819 (2022)
...Smith JL, D'Souza VM
RgGuinier 2.3 nm
Dmax 9.7 nm
VolumePorod 28 nm3

SASDK77 – Bromodomain-containing protein 2, BRD2, tandem bromodomains (10 mg/ml)

Bromodomain-containing protein 2 experimental SAS data
Bromodomain-containing protein 2 Kratky plot
Sample: Bromodomain-containing protein 2 monomer, 43 kDa Homo sapiens protein
Buffer: 25 mM HEPES, 150 mM NaCl, and 2% glycerol, pH: 7.5
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2018 Sep 25
Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization (2019)
...Smith B
RgGuinier 5.2 nm
Dmax 18.3 nm
VolumePorod 100 nm3

SASDMD9 – 7SK small nuclear RNA stem loop-1 bound to the arginine rich motif of HIV-1 Tat Group M, Subtype G

Homo sapiens RNA component of 7SK nuclear ribonucleoprotein (RN7SK), small nuclear RNAProtein Tat experimental SAS data
Homo sapiens RNA component of 7SK nuclear ribonucleoprotein (RN7SK), small nuclear RNA Protein Tat Kratky plot
Sample: Homo sapiens RNA component of 7SK nuclear ribonucleoprotein (RN7SK), small nuclear RNA monomer, 18 kDa Homo sapiens RNA
Protein Tat monomer, 2 kDa Human immunodeficiency virus … protein
Buffer: 10 mM phosphate, 70 mM NaCl, 0.1 mM EDTA, pH: 5.6
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2018 Nov 27
A structure-based mechanism for displacement of the HEXIM adapter from 7SK small nuclear RNA. Commun Biol 5(1):819 (2022)
...Smith JL, D'Souza VM
RgGuinier 2.5 nm
Dmax 9.9 nm
VolumePorod 28 nm3

SASDK87 – Bromodomain-containing protein 2, BRD2, tandem bromodomains (5 mg/ml)

Bromodomain-containing protein 2 experimental SAS data
Bromodomain-containing protein 2 Kratky plot
Sample: Bromodomain-containing protein 2 monomer, 43 kDa Homo sapiens protein
Buffer: 25 mM HEPES, 150 mM NaCl, and 2% glycerol, pH: 7.5
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2018 Sep 25
Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization (2019)
...Smith B
RgGuinier 4.9 nm
Dmax 18.5 nm
VolumePorod 100 nm3

SASDK97 – Bromodomain-containing protein 2, BRD2, tandem bromodomains (2 mg/ml)

Bromodomain-containing protein 2 experimental SAS data
Bromodomain-containing protein 2 Kratky plot
Sample: Bromodomain-containing protein 2 monomer, 43 kDa Homo sapiens protein
Buffer: 25 mM HEPES, 150 mM NaCl, and 2% glycerol, pH: 7.5
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2018 Sep 25
Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization (2019)
...Smith B
RgGuinier 4.6 nm
Dmax 17.0 nm
VolumePorod 100 nm3

SASDKA7 – Bromodomain-containing protein 2, BRD2, tandem bromodomains (1 mg/ml)

Bromodomain-containing protein 2 experimental SAS data
Bromodomain-containing protein 2 Kratky plot
Sample: Bromodomain-containing protein 2 monomer, 43 kDa Homo sapiens protein
Buffer: 25 mM HEPES, 150 mM NaCl, and 2% glycerol, pH: 7.5
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2018 Sep 25
Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization (2019)
...Smith B
RgGuinier 4.7 nm
Dmax 18.8 nm
VolumePorod 80 nm3

SASDKB7 – Bromodomain-containing protein 3, BRD3, tandem bromodomains (10 mg/ml)

Bromodomain-containing protein 3 experimental SAS data
Bromodomain-containing protein 3 Kratky plot
Sample: Bromodomain-containing protein 3 monomer, 44 kDa Homo sapiens protein
Buffer: 25 mM HEPES, 150 mM NaCl, and 2% glycerol, pH: 7.5
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2018 Sep 25
Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization (2019)
...Smith B
RgGuinier 5.2 nm
Dmax 18.6 nm
VolumePorod 100 nm3

SASDKC7 – Bromodomain-containing protein 3, BRD3, tandem bromodomains (2 mg/ml)

Bromodomain-containing protein 3 experimental SAS data
Bromodomain-containing protein 3 Kratky plot
Sample: Bromodomain-containing protein 3 monomer, 44 kDa Homo sapiens protein
Buffer: 25 mM HEPES, 150 mM NaCl, and 2% glycerol, pH: 7.5
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2018 Sep 25
Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization (2019)
...Smith B
RgGuinier 4.5 nm
Dmax 18.7 nm
VolumePorod 90 nm3

SASDKD7 – Bromodomain-containing protein 3, BRD3, tandem bromodomains (1 mg/ml)

Bromodomain-containing protein 3 experimental SAS data
Bromodomain-containing protein 3 Kratky plot
Sample: Bromodomain-containing protein 3 monomer, 44 kDa Homo sapiens protein
Buffer: 25 mM HEPES, 150 mM NaCl, and 2% glycerol, pH: 7.5
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2018 Sep 25
Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization (2019)
...Smith B
RgGuinier 4.7 nm
Dmax 17.8 nm
VolumePorod 85 nm3

SASDKE7 – Bromodomain-containing protein 4, BRD4, tandem bromodomains (10 mg/ml)

Bromodomain-containing protein 4 experimental SAS data
Bromodomain-containing protein 4 Kratky plot
Sample: Bromodomain-containing protein 4 monomer, 48 kDa Homo sapiens protein
Buffer: 25 mM HEPES, 150 mM NaCl, and 2% glycerol, pH: 7.5
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2018 Sep 25
Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization (2019)
...Smith B
RgGuinier 7.3 nm
Dmax 20.2 nm
VolumePorod 150 nm3

SASDKF7 – Bromodomain-containing protein 4, BRD4, tandem bromodomains (5 mg/ml)

Bromodomain-containing protein 4 experimental SAS data
Bromodomain-containing protein 4 Kratky plot
Sample: Bromodomain-containing protein 4 monomer, 48 kDa Homo sapiens protein
Buffer: 25 mM HEPES, 150 mM NaCl, and 2% glycerol, pH: 7.5
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2018 Sep 25
Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization (2019)
...Smith B
RgGuinier 5.5 nm
Dmax 20.2 nm
VolumePorod 145 nm3

SASDKG7 – Bromodomain-containing protein 4, BRD4, tandem bromodomains (2 mg/ml)

Bromodomain-containing protein 4 experimental SAS data
Bromodomain-containing protein 4 Kratky plot
Sample: Bromodomain-containing protein 4 monomer, 48 kDa Homo sapiens protein
Buffer: 25 mM HEPES, 150 mM NaCl, and 2% glycerol, pH: 7.5
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2018 Sep 25
Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization (2019)
...Smith B
RgGuinier 5.2 nm
Dmax 20.1 nm
VolumePorod 100 nm3

SASDKK7 – Transcription initiation factor TFIID subunit 1, TAF1, tandem bromodomains (2 mg/ml)

Transcription initiation factor TFIID subunit 1 experimental SAS data
Transcription initiation factor TFIID subunit 1 Kratky plot
Sample: Transcription initiation factor TFIID subunit 1 monomer, 31 kDa Homo sapiens protein
Buffer: 25 mM HEPES, 150 mM NaCl, and 2% glycerol, pH: 7.5
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2018 Sep 25
Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization (2019)
...Smith B
RgGuinier 3.2 nm
Dmax 9.9 nm
VolumePorod 80 nm3

SASDKL7 – Transcription initiation factor TFIID subunit 1, TAF1, tandem bromodomains (1 mg/ml)

Transcription initiation factor TFIID subunit 1 experimental SAS data
Transcription initiation factor TFIID subunit 1 Kratky plot
Sample: Transcription initiation factor TFIID subunit 1 monomer, 31 kDa Homo sapiens protein
Buffer: 25 mM HEPES, 150 mM NaCl, and 2% glycerol, pH: 7.5
Experiment: SAXS data collected at 12.3.1 (SIBYLS), Advanced Light Source (ALS) on 2018 Sep 25
Nucleosome scaffolding by Brd4 tandem bromodomains in acetylation-dependent chromatin compartmentalization (2019)
...Smith B
RgGuinier 2.9 nm
Dmax 10.6 nm
VolumePorod 65 nm3