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three-dimensional structure of  (VANGL2 LTD)
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Three Dimensional Structure Of, supplied by VANGL2 LTD, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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3-dimensional (3d) structures of three coumarin derivatives (c30, c30-me, and smsm64)  (Chembio Diagnostics)
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Chembio Diagnostics 3-dimensional (3d) structures of three coumarin derivatives (c30, c30-me, and smsm64)
Coumarin <t>derivatives</t> can selectively bind to RNA G 1 × 0 bulges: ( A ) RNA structures of the 1 × 0 RNA bulges used for in vitro binding profiling using the FP assay. N = G , A , U , or C (RNA1-4). ( B ) Heatmap profile of the ΔmP = (FP RNA-ligand – FP ligand ) × 1000 for RNA binders in the presence of [RNA] = 5 or 1 μM (red = high polarization, blue = low polarization). ( C ) ΔmP of RNA-ligand complex for RNA ligands at 5 μM. Each data point represents a measurement of a ligand in the 69-compound collection. **** indicates P < .0001. ( D ) Dose-response curves for compounds (SMSM6, <t>C30)</t> selectively binding to the bulged G RNA (RNA1) compared to an 11-nucleotide GA-rich sequence that would form a double loop-like RNA structure measured by the FP assay.
3 Dimensional (3d) Structures Of Three Coumarin Derivatives (C30, C30 Me, And Smsm64), supplied by Chembio Diagnostics, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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pdb-formatted file of the three-dimensional (3-d) structure of cordycepin  (NovoPro Biosciences Inc)
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NovoPro Biosciences Inc pdb-formatted file of the three-dimensional (3-d) structure of cordycepin
Coumarin <t>derivatives</t> can selectively bind to RNA G 1 × 0 bulges: ( A ) RNA structures of the 1 × 0 RNA bulges used for in vitro binding profiling using the FP assay. N = G , A , U , or C (RNA1-4). ( B ) Heatmap profile of the ΔmP = (FP RNA-ligand – FP ligand ) × 1000 for RNA binders in the presence of [RNA] = 5 or 1 μM (red = high polarization, blue = low polarization). ( C ) ΔmP of RNA-ligand complex for RNA ligands at 5 μM. Each data point represents a measurement of a ligand in the 69-compound collection. **** indicates P < .0001. ( D ) Dose-response curves for compounds (SMSM6, <t>C30)</t> selectively binding to the bulged G RNA (RNA1) compared to an 11-nucleotide GA-rich sequence that would form a double loop-like RNA structure measured by the FP assay.
Pdb Formatted File Of The Three Dimensional (3 D) Structure Of Cordycepin, supplied by NovoPro Biosciences Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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three-dimensional structures  (Thermo Fisher)
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Thermo Fisher three-dimensional structures
Coumarin <t>derivatives</t> can selectively bind to RNA G 1 × 0 bulges: ( A ) RNA structures of the 1 × 0 RNA bulges used for in vitro binding profiling using the FP assay. N = G , A , U , or C (RNA1-4). ( B ) Heatmap profile of the ΔmP = (FP RNA-ligand – FP ligand ) × 1000 for RNA binders in the presence of [RNA] = 5 or 1 μM (red = high polarization, blue = low polarization). ( C ) ΔmP of RNA-ligand complex for RNA ligands at 5 μM. Each data point represents a measurement of a ligand in the 69-compound collection. **** indicates P < .0001. ( D ) Dose-response curves for compounds (SMSM6, <t>C30)</t> selectively binding to the bulged G RNA (RNA1) compared to an 11-nucleotide GA-rich sequence that would form a double loop-like RNA structure measured by the FP assay.
Three Dimensional Structures, supplied by Thermo Fisher, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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three-dimensional structures  (Databank Inc)
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Coumarin <t>derivatives</t> can selectively bind to RNA G 1 × 0 bulges: ( A ) RNA structures of the 1 × 0 RNA bulges used for in vitro binding profiling using the FP assay. N = G , A , U , or C (RNA1-4). ( B ) Heatmap profile of the ΔmP = (FP RNA-ligand – FP ligand ) × 1000 for RNA binders in the presence of [RNA] = 5 or 1 μM (red = high polarization, blue = low polarization). ( C ) ΔmP of RNA-ligand complex for RNA ligands at 5 μM. Each data point represents a measurement of a ligand in the 69-compound collection. **** indicates P < .0001. ( D ) Dose-response curves for compounds (SMSM6, <t>C30)</t> selectively binding to the bulged G RNA (RNA1) compared to an 11-nucleotide GA-rich sequence that would form a double loop-like RNA structure measured by the FP assay.
Three Dimensional Structures, supplied by Databank Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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three-dimensional compound structure library  (Chembridge)
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Coumarin <t>derivatives</t> can selectively bind to RNA G 1 × 0 bulges: ( A ) RNA structures of the 1 × 0 RNA bulges used for in vitro binding profiling using the FP assay. N = G , A , U , or C (RNA1-4). ( B ) Heatmap profile of the ΔmP = (FP RNA-ligand – FP ligand ) × 1000 for RNA binders in the presence of [RNA] = 5 or 1 μM (red = high polarization, blue = low polarization). ( C ) ΔmP of RNA-ligand complex for RNA ligands at 5 μM. Each data point represents a measurement of a ligand in the 69-compound collection. **** indicates P < .0001. ( D ) Dose-response curves for compounds (SMSM6, <t>C30)</t> selectively binding to the bulged G RNA (RNA1) compared to an 11-nucleotide GA-rich sequence that would form a double loop-like RNA structure measured by the FP assay.
Three Dimensional Compound Structure Library, supplied by Chembridge, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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three-dimensional structural model of the objective lens assembly  (COMSOL Inc)
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COMSOL Inc three-dimensional structural model of the objective lens assembly
Coumarin <t>derivatives</t> can selectively bind to RNA G 1 × 0 bulges: ( A ) RNA structures of the 1 × 0 RNA bulges used for in vitro binding profiling using the FP assay. N = G , A , U , or C (RNA1-4). ( B ) Heatmap profile of the ΔmP = (FP RNA-ligand – FP ligand ) × 1000 for RNA binders in the presence of [RNA] = 5 or 1 μM (red = high polarization, blue = low polarization). ( C ) ΔmP of RNA-ligand complex for RNA ligands at 5 μM. Each data point represents a measurement of a ligand in the 69-compound collection. **** indicates P < .0001. ( D ) Dose-response curves for compounds (SMSM6, <t>C30)</t> selectively binding to the bulged G RNA (RNA1) compared to an 11-nucleotide GA-rich sequence that would form a double loop-like RNA structure measured by the FP assay.
Three Dimensional Structural Model Of The Objective Lens Assembly, supplied by COMSOL Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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three-dimensional structure analysis  (National Research Council Canada)
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National Research Council Canada three-dimensional structure analysis
Coumarin <t>derivatives</t> can selectively bind to RNA G 1 × 0 bulges: ( A ) RNA structures of the 1 × 0 RNA bulges used for in vitro binding profiling using the FP assay. N = G , A , U , or C (RNA1-4). ( B ) Heatmap profile of the ΔmP = (FP RNA-ligand – FP ligand ) × 1000 for RNA binders in the presence of [RNA] = 5 or 1 μM (red = high polarization, blue = low polarization). ( C ) ΔmP of RNA-ligand complex for RNA ligands at 5 μM. Each data point represents a measurement of a ligand in the 69-compound collection. **** indicates P < .0001. ( D ) Dose-response curves for compounds (SMSM6, <t>C30)</t> selectively binding to the bulged G RNA (RNA1) compared to an 11-nucleotide GA-rich sequence that would form a double loop-like RNA structure measured by the FP assay.
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stl data for the three-dimensional gyroid structures  (MathWorks Inc)
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MathWorks Inc stl data for the three-dimensional gyroid structures
Coumarin <t>derivatives</t> can selectively bind to RNA G 1 × 0 bulges: ( A ) RNA structures of the 1 × 0 RNA bulges used for in vitro binding profiling using the FP assay. N = G , A , U , or C (RNA1-4). ( B ) Heatmap profile of the ΔmP = (FP RNA-ligand – FP ligand ) × 1000 for RNA binders in the presence of [RNA] = 5 or 1 μM (red = high polarization, blue = low polarization). ( C ) ΔmP of RNA-ligand complex for RNA ligands at 5 μM. Each data point represents a measurement of a ligand in the 69-compound collection. **** indicates P < .0001. ( D ) Dose-response curves for compounds (SMSM6, <t>C30)</t> selectively binding to the bulged G RNA (RNA1) compared to an 11-nucleotide GA-rich sequence that would form a double loop-like RNA structure measured by the FP assay.
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three-dimensional structures of both the wild-type and mutant pigt  (Accelrys)
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Accelrys three-dimensional structures of both the wild-type and mutant pigt
Prediction of protein stability at the alteration site through interaction formation. ( a ) Visualization performed <t>using</t> <t>BIOVIA</t> Discovery Studio Visualizer (Version 21.1.0.20298). ( b ) Conservation of amino acids around position 86 in <t>PIGT</t> across different species. An asterisk ( * ) indicates p.86 of the PIGT protein in each species. ( c , d ) Comparison of intramolecular bonds at the alteration site in wild-type (wt) and mutant (mt) proteins, computed and visualized via DDMut.
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Image Search Results


Coumarin derivatives can selectively bind to RNA G 1 × 0 bulges: ( A ) RNA structures of the 1 × 0 RNA bulges used for in vitro binding profiling using the FP assay. N = G , A , U , or C (RNA1-4). ( B ) Heatmap profile of the ΔmP = (FP RNA-ligand – FP ligand ) × 1000 for RNA binders in the presence of [RNA] = 5 or 1 μM (red = high polarization, blue = low polarization). ( C ) ΔmP of RNA-ligand complex for RNA ligands at 5 μM. Each data point represents a measurement of a ligand in the 69-compound collection. **** indicates P < .0001. ( D ) Dose-response curves for compounds (SMSM6, C30) selectively binding to the bulged G RNA (RNA1) compared to an 11-nucleotide GA-rich sequence that would form a double loop-like RNA structure measured by the FP assay.

Journal: Nucleic Acids Research

Article Title: Mechanistic studies of small molecule ligands selective to RNA single G bulges

doi: 10.1093/nar/gkaf559

Figure Lengend Snippet: Coumarin derivatives can selectively bind to RNA G 1 × 0 bulges: ( A ) RNA structures of the 1 × 0 RNA bulges used for in vitro binding profiling using the FP assay. N = G , A , U , or C (RNA1-4). ( B ) Heatmap profile of the ΔmP = (FP RNA-ligand – FP ligand ) × 1000 for RNA binders in the presence of [RNA] = 5 or 1 μM (red = high polarization, blue = low polarization). ( C ) ΔmP of RNA-ligand complex for RNA ligands at 5 μM. Each data point represents a measurement of a ligand in the 69-compound collection. **** indicates P < .0001. ( D ) Dose-response curves for compounds (SMSM6, C30) selectively binding to the bulged G RNA (RNA1) compared to an 11-nucleotide GA-rich sequence that would form a double loop-like RNA structure measured by the FP assay.

Article Snippet: 3-Dimensional (3D) structures of three coumarin derivatives (C30, C30-Me, and SMSM64) were prepared using ChemBio Tool.

Techniques: In Vitro, Binding Assay, FP Assay, Sequencing

Protonation state of the ligands contributes to the RNA binding. ( A ) Equilibria for the protonation reactions of four coumarin derivatives. ( B ) Protonation energy (relative to C29) was calculated using DFT with B3LYP 6–31G(d) basis set. ( C ) Observed binding affinity of the four compounds.

Journal: Nucleic Acids Research

Article Title: Mechanistic studies of small molecule ligands selective to RNA single G bulges

doi: 10.1093/nar/gkaf559

Figure Lengend Snippet: Protonation state of the ligands contributes to the RNA binding. ( A ) Equilibria for the protonation reactions of four coumarin derivatives. ( B ) Protonation energy (relative to C29) was calculated using DFT with B3LYP 6–31G(d) basis set. ( C ) Observed binding affinity of the four compounds.

Article Snippet: 3-Dimensional (3D) structures of three coumarin derivatives (C30, C30-Me, and SMSM64) were prepared using ChemBio Tool.

Techniques: RNA Binding Assay, Binding Assay

Prediction of protein stability at the alteration site through interaction formation. ( a ) Visualization performed using BIOVIA Discovery Studio Visualizer (Version 21.1.0.20298). ( b ) Conservation of amino acids around position 86 in PIGT across different species. An asterisk ( * ) indicates p.86 of the PIGT protein in each species. ( c , d ) Comparison of intramolecular bonds at the alteration site in wild-type (wt) and mutant (mt) proteins, computed and visualized via DDMut.

Journal: International Journal of Molecular Sciences

Article Title: A Novel Homozygous Missense Variant of PIGT Related to Multiple Congenital Anomalies-Hypotonia Seizures Syndrome 3 with Elevated of Serum ALP Level in a Thai Newborn Patient

doi: 10.3390/ijms26062790

Figure Lengend Snippet: Prediction of protein stability at the alteration site through interaction formation. ( a ) Visualization performed using BIOVIA Discovery Studio Visualizer (Version 21.1.0.20298). ( b ) Conservation of amino acids around position 86 in PIGT across different species. An asterisk ( * ) indicates p.86 of the PIGT protein in each species. ( c , d ) Comparison of intramolecular bonds at the alteration site in wild-type (wt) and mutant (mt) proteins, computed and visualized via DDMut.

Article Snippet: The three-dimensional structures of both the wild-type and mutant PIGT (PDB: 7wld) were visualized using BIOVIA software [ ].

Techniques: Comparison, Mutagenesis