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Ranksorted mean squared <t>fluctuations</t> <t>(MSF)</t> from NMR method and three deep learning structure prediction methods (AlphaFold3, AlphaFold2 and RosettaFold). A) Projections of ranksorted MSF onto protein structures for 2lah. Blue-White-Red color palette is used for the projections, where blue indicates low flexibility and red indicates high flexibility. B) <t>2D</t> comparison of the experimental and the computed MSF for 2lah. Black line (with squares) is for the experimental data, blue line (with circles) is for AlphaFold3, orange line (with inverse triangles) is for AlphaFold2 and green line (with stars) is for RosettaFold. C) Cosine similarity of the experimental and the computed MSF for 70 proteins in the NMR dataset. AlphaFold3 bars are blue, AlphaFold2 bars are orange and RosettaFold bars are green. Averages of the cosine similarities over the entire dataset are also provided as horizontal lines for AlphaFold3 (blue dot-dashed line), AlphaFold2 (orange dashed line) and RosettaFold (green dotted line).
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Ranksorted mean squared <t>fluctuations</t> <t>(MSF)</t> from NMR method and three deep learning structure prediction methods (AlphaFold3, AlphaFold2 and RosettaFold). A) Projections of ranksorted MSF onto protein structures for 2lah. Blue-White-Red color palette is used for the projections, where blue indicates low flexibility and red indicates high flexibility. B) <t>2D</t> comparison of the experimental and the computed MSF for 2lah. Black line (with squares) is for the experimental data, blue line (with circles) is for AlphaFold3, orange line (with inverse triangles) is for AlphaFold2 and green line (with stars) is for RosettaFold. C) Cosine similarity of the experimental and the computed MSF for 70 proteins in the NMR dataset. AlphaFold3 bars are blue, AlphaFold2 bars are orange and RosettaFold bars are green. Averages of the cosine similarities over the entire dataset are also provided as horizontal lines for AlphaFold3 (blue dot-dashed line), AlphaFold2 (orange dashed line) and RosettaFold (green dotted line).
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(A) The 3D binding configuration of icotinib (Green) and niraparib (Red). The molecular interaction fingerprints in <t>2D</t> showed that atoms of (B) icotinib and (C) niraparib interacted with amino acid residues important for binding with CD79A.
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(A) The 3D binding configuration of icotinib (Green) and niraparib (Red). The molecular interaction fingerprints in <t>2D</t> showed that atoms of (B) icotinib and (C) niraparib interacted with amino acid residues important for binding with CD79A.
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(A) The 3D binding configuration of icotinib (Green) and niraparib (Red). The molecular interaction fingerprints in <t>2D</t> showed that atoms of (B) icotinib and (C) niraparib interacted with amino acid residues important for binding with CD79A.
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(A) The 3D binding configuration of icotinib (Green) and niraparib (Red). The molecular interaction fingerprints in <t>2D</t> showed that atoms of (B) icotinib and (C) niraparib interacted with amino acid residues important for binding with CD79A.
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Image Search Results


Ranksorted mean squared fluctuations (MSF) from NMR method and three deep learning structure prediction methods (AlphaFold3, AlphaFold2 and RosettaFold). A) Projections of ranksorted MSF onto protein structures for 2lah. Blue-White-Red color palette is used for the projections, where blue indicates low flexibility and red indicates high flexibility. B) 2D comparison of the experimental and the computed MSF for 2lah. Black line (with squares) is for the experimental data, blue line (with circles) is for AlphaFold3, orange line (with inverse triangles) is for AlphaFold2 and green line (with stars) is for RosettaFold. C) Cosine similarity of the experimental and the computed MSF for 70 proteins in the NMR dataset. AlphaFold3 bars are blue, AlphaFold2 bars are orange and RosettaFold bars are green. Averages of the cosine similarities over the entire dataset are also provided as horizontal lines for AlphaFold3 (blue dot-dashed line), AlphaFold2 (orange dashed line) and RosettaFold (green dotted line).

Journal: bioRxiv

Article Title: Deep Learning Structural Ensembles as Proxies for Protein Flexibility

doi: 10.64898/2026.05.16.725658

Figure Lengend Snippet: Ranksorted mean squared fluctuations (MSF) from NMR method and three deep learning structure prediction methods (AlphaFold3, AlphaFold2 and RosettaFold). A) Projections of ranksorted MSF onto protein structures for 2lah. Blue-White-Red color palette is used for the projections, where blue indicates low flexibility and red indicates high flexibility. B) 2D comparison of the experimental and the computed MSF for 2lah. Black line (with squares) is for the experimental data, blue line (with circles) is for AlphaFold3, orange line (with inverse triangles) is for AlphaFold2 and green line (with stars) is for RosettaFold. C) Cosine similarity of the experimental and the computed MSF for 70 proteins in the NMR dataset. AlphaFold3 bars are blue, AlphaFold2 bars are orange and RosettaFold bars are green. Averages of the cosine similarities over the entire dataset are also provided as horizontal lines for AlphaFold3 (blue dot-dashed line), AlphaFold2 (orange dashed line) and RosettaFold (green dotted line).

Article Snippet: An interactive 2D plot of the MSF is generated with Plotly Python library .

Techniques: Comparison

Ranksorted mean squared fluctuations (MSF) from dual conformations of X-Ray structures and three deep learning structure prediction methods (AlphaFold3, AlphaFold2 and RosettaFold). A) Projections of the ranksorted MSF onto protein structures for 3fweB and 4hzfA. Blue-White-Red color palette is used for the projections, where blue indicates low flexibility and red indicates high flexibility. B) 2D comparison of the experimental and the computed MSF for 3fweB and 4hzfA. Black line (with squares) is for the experimental data, blue line (with circles) is for AlphaFold3, orange line (with inverse triangles) is for AlphaFold2 and green line (with stars) is for RosettaFold. C) Cosine similarity of the experimental and the computed MSF for 43 proteins in the X-Ray dataset. AlphaFold3 bars are blue, AlphaFold2 bars are orange and RosettaFold bars are green. Averages of the cosine similarities over the entire dataset are also provided as horizontal lines for AlphaFold3 (blue dot-dashed line), AlphaFold2 (orange dashed line) and RosettaFold (green dotted line).

Journal: bioRxiv

Article Title: Deep Learning Structural Ensembles as Proxies for Protein Flexibility

doi: 10.64898/2026.05.16.725658

Figure Lengend Snippet: Ranksorted mean squared fluctuations (MSF) from dual conformations of X-Ray structures and three deep learning structure prediction methods (AlphaFold3, AlphaFold2 and RosettaFold). A) Projections of the ranksorted MSF onto protein structures for 3fweB and 4hzfA. Blue-White-Red color palette is used for the projections, where blue indicates low flexibility and red indicates high flexibility. B) 2D comparison of the experimental and the computed MSF for 3fweB and 4hzfA. Black line (with squares) is for the experimental data, blue line (with circles) is for AlphaFold3, orange line (with inverse triangles) is for AlphaFold2 and green line (with stars) is for RosettaFold. C) Cosine similarity of the experimental and the computed MSF for 43 proteins in the X-Ray dataset. AlphaFold3 bars are blue, AlphaFold2 bars are orange and RosettaFold bars are green. Averages of the cosine similarities over the entire dataset are also provided as horizontal lines for AlphaFold3 (blue dot-dashed line), AlphaFold2 (orange dashed line) and RosettaFold (green dotted line).

Article Snippet: An interactive 2D plot of the MSF is generated with Plotly Python library .

Techniques: Comparison

Ranksorted mean squared fluctuations (MSF) from all normal modes of cryo-EM structures and three deep learning structure prediction methods (AlphaFold3, AlphaFold2 and RosettaFold). A) Projections of the ranksorted MSF onto protein structures for 9yin. Blue-White-Red color palette is used for the projections, where blue indicates low flexibility and red indicates high flexibility. B) 2D comparison of the experimental and the computed MSF for 9yin. Black line (with squares) is for the experimental data, blue line (with circles) is for AlphaFold3, orange line (with inverse triangles) is for AlphaFold2 and green line (with stars) is for RosettaFold. C) Cosine similarity of the experimental and the computed MSF for 82 proteins in the cryo-EM dataset. AlphaFold3 bars are blue, AlphaFold2 bars are orange and RosettaFold bars are green. Averages of the cosine similarities over the entire dataset are also provided as horizontal lines for AlphaFold3 (blue dot-dashed line), AlphaFold2 (orange dashed line) and RosettaFold (green dotted line).

Journal: bioRxiv

Article Title: Deep Learning Structural Ensembles as Proxies for Protein Flexibility

doi: 10.64898/2026.05.16.725658

Figure Lengend Snippet: Ranksorted mean squared fluctuations (MSF) from all normal modes of cryo-EM structures and three deep learning structure prediction methods (AlphaFold3, AlphaFold2 and RosettaFold). A) Projections of the ranksorted MSF onto protein structures for 9yin. Blue-White-Red color palette is used for the projections, where blue indicates low flexibility and red indicates high flexibility. B) 2D comparison of the experimental and the computed MSF for 9yin. Black line (with squares) is for the experimental data, blue line (with circles) is for AlphaFold3, orange line (with inverse triangles) is for AlphaFold2 and green line (with stars) is for RosettaFold. C) Cosine similarity of the experimental and the computed MSF for 82 proteins in the cryo-EM dataset. AlphaFold3 bars are blue, AlphaFold2 bars are orange and RosettaFold bars are green. Averages of the cosine similarities over the entire dataset are also provided as horizontal lines for AlphaFold3 (blue dot-dashed line), AlphaFold2 (orange dashed line) and RosettaFold (green dotted line).

Article Snippet: An interactive 2D plot of the MSF is generated with Plotly Python library .

Techniques: Cryo-EM Sample Prep, Comparison

Ranksorted mean squared fluctuations (MSF) from molecular dynamics (MD) simulations and two deep learning structure prediction methods (AlphaFold3 and AlphaFold2). A) Projections of the ranksorted MSF onto protein structures for 6crk chain G. Blue-White-Red color palette is used for the projections, where blue indicates low flexibility and red indicates high flexibility. B) 2D comparison of the MD and the deep learning MSF for 6crk chain G. Blue (simulation 1), green (simulation 2) and orange (simulation 3) lines (with squares) are for the MD simulation data, black line (with circles) is for AlphaFold3, gray line (with inverse triangles) is for AlphaFold2. C) Cosine similarities of the first set of MD simulations and the deep learning ensemble MSF of 10 proteins in the MD dataset. D) Cosine similarities of the second set of MD simulations and the deep learning ensemble MSF of 10 proteins in the MD dataset. E) Cosine similarities of the third set of MD simulations and the deep learning ensemble MSF 10 proteins in the MD dataset. AlphaFold3 bars are black, AlphaFold2 bars are gray. Averages of the cosine similarities over the entire dataset are also provided as horizontal lines for AlphaFold3 (black dot-dashed line), AlphaFold2 (gray dashed line).

Journal: bioRxiv

Article Title: Deep Learning Structural Ensembles as Proxies for Protein Flexibility

doi: 10.64898/2026.05.16.725658

Figure Lengend Snippet: Ranksorted mean squared fluctuations (MSF) from molecular dynamics (MD) simulations and two deep learning structure prediction methods (AlphaFold3 and AlphaFold2). A) Projections of the ranksorted MSF onto protein structures for 6crk chain G. Blue-White-Red color palette is used for the projections, where blue indicates low flexibility and red indicates high flexibility. B) 2D comparison of the MD and the deep learning MSF for 6crk chain G. Blue (simulation 1), green (simulation 2) and orange (simulation 3) lines (with squares) are for the MD simulation data, black line (with circles) is for AlphaFold3, gray line (with inverse triangles) is for AlphaFold2. C) Cosine similarities of the first set of MD simulations and the deep learning ensemble MSF of 10 proteins in the MD dataset. D) Cosine similarities of the second set of MD simulations and the deep learning ensemble MSF of 10 proteins in the MD dataset. E) Cosine similarities of the third set of MD simulations and the deep learning ensemble MSF 10 proteins in the MD dataset. AlphaFold3 bars are black, AlphaFold2 bars are gray. Averages of the cosine similarities over the entire dataset are also provided as horizontal lines for AlphaFold3 (black dot-dashed line), AlphaFold2 (gray dashed line).

Article Snippet: An interactive 2D plot of the MSF is generated with Plotly Python library .

Techniques: Comparison

(A) The 3D binding configuration of icotinib (Green) and niraparib (Red). The molecular interaction fingerprints in 2D showed that atoms of (B) icotinib and (C) niraparib interacted with amino acid residues important for binding with CD79A.

Journal: bioRxiv

Article Title: Integrated Blood–Brain Transcriptomics Reveals CD79A and GRIA2 as Drug Repurposing Targets in Multiple Sclerosis

doi: 10.1101/2025.09.02.673787

Figure Lengend Snippet: (A) The 3D binding configuration of icotinib (Green) and niraparib (Red). The molecular interaction fingerprints in 2D showed that atoms of (B) icotinib and (C) niraparib interacted with amino acid residues important for binding with CD79A.

Article Snippet: BIOVIA was used to generate 2D interaction plots ( https://www.3ds.com/products/biovia/discovery-studio ).

Techniques: Binding Assay

(A) The 3D binding configuration of icotinib (Green) and niraparib (Red). The molecular interaction fingerprints in 2D showed that atoms of (B) icotinib and (C) niraparib interacted with amino acid residues important for binding with GRIA2.

Journal: bioRxiv

Article Title: Integrated Blood–Brain Transcriptomics Reveals CD79A and GRIA2 as Drug Repurposing Targets in Multiple Sclerosis

doi: 10.1101/2025.09.02.673787

Figure Lengend Snippet: (A) The 3D binding configuration of icotinib (Green) and niraparib (Red). The molecular interaction fingerprints in 2D showed that atoms of (B) icotinib and (C) niraparib interacted with amino acid residues important for binding with GRIA2.

Article Snippet: BIOVIA was used to generate 2D interaction plots ( https://www.3ds.com/products/biovia/discovery-studio ).

Techniques: Binding Assay