6WVS
 
 | | Hyperstable de novo TIM barrel variant DeNovoTIM15 | | Descriptor: | DeNovoTIM15 hyperstable de novo TIM barrel | | Authors: | Bick, M.J, Haydon, I.C, Caldwell, S.J, Zeymer, C, Huang, P, Fernandez-Velasco, D.A, Baker, D. | | Deposit date: | 2020-05-06 | | Release date: | 2020-11-25 | | Last modified: | 2024-04-03 | | Method: | X-RAY DIFFRACTION (2.202 Å) | | Cite: | Tight and specific lanthanide binding in a de novo TIM barrel with a large internal cavity designed by symmetric domain fusion.
Proc.Natl.Acad.Sci.USA, 117, 2020
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7UWY
 | | NMR solution structure of the De novo designed small beta-barrel protein 29_bp_sh3 | | Descriptor: | De novo designed small beta-barrel protein 29_bp_sh3 | | Authors: | Peterson, F.C, Kim, D.E, Jensen, D.R, Saleem, A, Chow, C.M, Volkman, B.F, Baker, D. | | Deposit date: | 2022-05-04 | | Release date: | 2023-03-22 | | Last modified: | 2024-05-15 | | Method: | SOLUTION NMR | | Cite: | De novo design of small beta barrel proteins.
Proc.Natl.Acad.Sci.USA, 120, 2023
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7UWZ
 | | NMR solution structure of the De novo designed small beta-barrel protein 33_bp_sh3 | | Descriptor: | De novo designed small beta-barrel protein 33_bp_sh3 | | Authors: | Peterson, F.C, Kim, D.E, Jensen, D.R, Saleem, A, Chow, C.M, Volkman, B.F, Baker, D. | | Deposit date: | 2022-05-04 | | Release date: | 2023-03-22 | | Last modified: | 2024-05-15 | | Method: | SOLUTION NMR | | Cite: | De novo design of small beta barrel proteins.
Proc.Natl.Acad.Sci.USA, 120, 2023
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5IM5
 | | Crystal structure of designed two-component self-assembling icosahedral cage I53-40 | | Descriptor: | Designed Keto-hydroxyglutarate-aldolase/keto-deoxy-phosphogluconate aldolase, Designed Riboflavin synthase | | Authors: | Liu, Y.A, Cascio, D, Sawaya, M.R, Bale, J.B, Collazo, M.J, Thomas, C, Sheffler, W, King, N.P, Baker, D, Yeates, T.O. | | Deposit date: | 2016-03-05 | | Release date: | 2016-07-27 | | Last modified: | 2023-09-27 | | Method: | X-RAY DIFFRACTION (3.699 Å) | | Cite: | Accurate design of megadalton-scale two-component icosahedral protein complexes.
Science, 353, 2016
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5IM4
 | | Crystal structure of designed two-component self-assembling icosahedral cage I52-32 | | Descriptor: | 6,7-dimethyl-8-ribityllumazine synthase, Phosphotransferase system, mannose/fructose-specific component IIA | | Authors: | Liu, Y.A, Cascio, D, Sawaya, M.R, Bale, J.B, Collazo, M.J, Thomas, C, Sheffler, W, King, N.P, Baker, D, Yeates, T.O. | | Deposit date: | 2016-03-05 | | Release date: | 2016-07-27 | | Last modified: | 2023-09-27 | | Method: | X-RAY DIFFRACTION (3.5 Å) | | Cite: | Accurate design of megadalton-scale two-component icosahedral protein complexes.
Science, 353, 2016
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5IM6
 | | Crystal structure of designed two-component self-assembling icosahedral cage I32-28 | | Descriptor: | Designed self-assembling icosahedral cage I32-28 dimeric subunit, Designed self-assembling icosahedral cage I32-28 trimeric subunit | | Authors: | Liu, Y.A, Cascio, D, Sawaya, M.R, Bale, J.B, Collazo, M.J, Thomas, C, Sheffler, W, King, N.P, Baker, D, Yeates, T.O. | | Deposit date: | 2016-03-05 | | Release date: | 2016-07-27 | | Last modified: | 2023-09-27 | | Method: | X-RAY DIFFRACTION (5.588 Å) | | Cite: | Accurate design of megadalton-scale two-component icosahedral protein complexes.
Science, 353, 2016
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6TMS
 | | Crystal structure of a de novo designed hexameric helical-bundle protein | | Descriptor: | SULFATE ION, a novel designed pore protein, affinity purification tag | | Authors: | Xu, C, Pei, X.Y, Luisi, B.F, Baker, D. | | Deposit date: | 2019-12-05 | | Release date: | 2020-04-29 | | Last modified: | 2024-05-01 | | Method: | X-RAY DIFFRACTION (2.7 Å) | | Cite: | Computational design of transmembrane pores.
Nature, 585, 2020
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6TJ1
 | | Crystal structure of a de novo designed hexameric helical-bundle protein | | Descriptor: | De novo designed WSHC6, purification tag | | Authors: | Xu, C, Pei, X.Y, Luisi, B.F, Baker, D. | | Deposit date: | 2019-11-23 | | Release date: | 2020-04-29 | | Last modified: | 2024-05-01 | | Method: | X-RAY DIFFRACTION (2.4 Å) | | Cite: | Computational design of transmembrane pores.
Nature, 585, 2020
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6U1S
 | | Cryo-EM structure of a de novo designed 16-helix transmembrane nanopore, TMHC8_R. | | Descriptor: | de novo designed 16-helix transmembrane nanopore, TMHC8_R | | Authors: | Johnson, M.J, Reggiano, G, Xu, C, Lu, P, Hsia, Y, Brunette, T.J, DiMaio, F, Baker, D, Kollman, J. | | Deposit date: | 2019-08-16 | | Release date: | 2020-08-19 | | Last modified: | 2024-03-20 | | Method: | ELECTRON MICROSCOPY (7.6 Å) | | Cite: | Computational Design of Transmembrane Channels
To Be Published
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2XYZ
 | | De Novo model of Bacteriophage P22 virion coat protein | | Descriptor: | COAT PROTEIN | | Authors: | Chen, D.-H, Baker, M.L, Hryc, C.F, DiMaio, F, Jakana, J, Wu, W, Dougherty, M, Haase-Pettingell, C, Schmid, M.F, Jiang, W, Baker, D, King, J.A, Chiu, W. | | Deposit date: | 2010-11-19 | | Release date: | 2011-02-02 | | Last modified: | 2024-05-08 | | Method: | ELECTRON MICROSCOPY (4 Å) | | Cite: | Structural Basis for Scaffolding-Mediated Assembly and Maturation of a DsDNA Virus.
Proc.Natl.Acad.Sci.USA, 108, 2011
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2XYY
 | | De Novo model of Bacteriophage P22 procapsid coat protein | | Descriptor: | COAT PROTEIN | | Authors: | Chen, D.-H, Baker, M.L, Hryc, C.F, DiMaio, F, Jakana, J, Wu, W, Dougherty, M, Haase-Pettingell, C, Schmid, M.F, Jiang, W, Baker, D, King, J.A, Chiu, W. | | Deposit date: | 2010-11-19 | | Release date: | 2011-02-02 | | Last modified: | 2024-05-08 | | Method: | ELECTRON MICROSCOPY (3.8 Å) | | Cite: | Structural Basis for Scaffolding-Mediated Assembly and Maturation of a DsDNA Virus.
Proc.Natl.Acad.Sci.USA, 108, 2011
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6M6Z
 | | A de novo designed transmembrane nanopore, TMH4C4 | | Descriptor: | TMH4C4 | | Authors: | Lu, P, Xu, C, Reggiano, G, Xu, Q, DiMaio, F, Baker, D. | | Deposit date: | 2020-03-16 | | Release date: | 2020-06-24 | | Last modified: | 2024-03-27 | | Method: | ELECTRON MICROSCOPY (5.9 Å) | | Cite: | Computational design of transmembrane pores.
Nature, 585, 2020
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6O35
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7UCP
 | | computationally designed macrocycle | | Descriptor: | computationally designed cyclic peptide D8.3.p2 | | Authors: | Bhardwaj, G, Baker, D, Rettie, S, Glynn, C, Sawaya, M. | | Deposit date: | 2022-03-17 | | Release date: | 2022-09-14 | | Last modified: | 2022-09-28 | | Method: | X-RAY DIFFRACTION (0.85 Å) | | Cite: | Accurate de novo design of membrane-traversing macrocycles.
Cell, 185, 2022
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7S5B
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6DMP
 | | De Novo Design of a Protein Heterodimer with Specificity Mediated by Hydrogen Bond Networks | | Descriptor: | Designed orthogonal protein DHD13_XAAA_A, Designed orthogonal protein DHD13_XAAA_B | | Authors: | Chen, Z, Flores-Solis, D, Sgourakis, N.G, Baker, D. | | Deposit date: | 2018-06-05 | | Release date: | 2018-12-19 | | Last modified: | 2024-05-15 | | Method: | SOLUTION NMR | | Cite: | Programmable design of orthogonal protein heterodimers.
Nature, 565, 2019
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5HRY
 | | Computationally Designed Cyclic Dimer ank3C2_1 | | Descriptor: | ank3C2_1 | | Authors: | Cascio, D, McNamara, D.E, Fallas, J.A, Baker, D, Yeates, T.O. | | Deposit date: | 2016-01-24 | | Release date: | 2017-04-12 | | Last modified: | 2023-09-27 | | Method: | X-RAY DIFFRACTION (2 Å) | | Cite: | Computational design of self-assembling cyclic protein homo-oligomers.
Nat Chem, 9, 2017
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5HS0
 | | Computationally Designed Cyclic Tetramer ank1C4_7 | | Descriptor: | Ankyrin domain protein ank1C4_7, GLYCEROL, SULFATE ION | | Authors: | McNamara, D.E, Cascio, D, Fallas, J.A, Baker, D, Yeates, T.O. | | Deposit date: | 2016-01-24 | | Release date: | 2017-04-12 | | Last modified: | 2023-09-27 | | Method: | X-RAY DIFFRACTION (2.4 Å) | | Cite: | Computational design of self-assembling cyclic protein homo-oligomers.
Nat Chem, 9, 2017
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5HRZ
 | | Computationally Designed Trimer 1na0C3_3 | | Descriptor: | TPR domain protein 1na0C3_3 | | Authors: | Cascio, D, McNamara, D.E, Fallas, J.A, Baker, D, Yeates, T.O. | | Deposit date: | 2016-01-24 | | Release date: | 2017-04-12 | | Last modified: | 2023-09-27 | | Method: | X-RAY DIFFRACTION (2.15 Å) | | Cite: | Computational design of self-assembling cyclic protein homo-oligomers.
Nat Chem, 9, 2017
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8CUX
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8CUT
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8CUV
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8CUS
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8CUU
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8CWS
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