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8CWZ
Accurate computational design of genetically encoded 3D protein crystals
Descriptor:
I432-1-X3 Chain A, I432-1-X3 Chain B
Authors:
Bera, A.K
,
Li, Z
,
Baker, D.
Deposit date:
2022-05-19
Release date:
2023-11-01
Last modified:
2023-12-20
Method:
X-RAY DIFFRACTION (5.53 Å)
Cite:
Accurate computational design of three-dimensional protein crystals.
Nat Mater, 22, 2023
8CUV
Accurate computational design of genetically encoded 3D protein crystals
Descriptor:
F4132-1 chain A, F4132-1 chain B
Authors:
Bera, A.K
,
Li, Z
,
Baker, D.
Deposit date:
2022-05-17
Release date:
2023-11-01
Last modified:
2023-12-20
Method:
X-RAY DIFFRACTION (2.8 Å)
Cite:
Accurate computational design of three-dimensional protein crystals.
Nat Mater, 22, 2023
8CUX
Accurate computational design of genetically encoded 3D protein crystals
Descriptor:
R3-1 Chain B
Authors:
Bera, A.K
,
Natterman, U
,
Baker, D.
Deposit date:
2022-05-17
Release date:
2023-11-01
Last modified:
2023-12-20
Method:
X-RAY DIFFRACTION (1.85 Å)
Cite:
Accurate computational design of three-dimensional protein crystals.
Nat Mater, 22, 2023
8CUT
Accurate computational design of genetically encoded 3D protein crystals
Descriptor:
I432-1(Imd) Chain A, I432-1(Imd) Chain B
Authors:
Bera, A.K
,
Li, Z
,
Baker, D.
Deposit date:
2022-05-17
Release date:
2023-11-01
Last modified:
2023-12-20
Method:
X-RAY DIFFRACTION (4 Å)
Cite:
Accurate computational design of three-dimensional protein crystals.
Nat Mater, 22, 2023
8CUW
Accurate computational design of genetically encoded 3D protein crystals
Descriptor:
F4132-1-3 Chain A, F4132-1-3 Chain B
Authors:
Bera, A.K
,
Li, Z
,
Baker, D.
Deposit date:
2022-05-17
Release date:
2023-11-01
Last modified:
2023-12-20
Method:
X-RAY DIFFRACTION (3.55 Å)
Cite:
Accurate computational design of three-dimensional protein crystals.
Nat Mater, 22, 2023
8G9J
Geometrically programmable nanomaterial construction using regularized protein building blocks
Descriptor:
THR1
Authors:
Huddy, T
,
Bera, A.K
,
Baker, D.
Deposit date:
2023-02-21
Release date:
2024-03-13
Last modified:
2024-04-10
Method:
X-RAY DIFFRACTION (2.5 Å)
Cite:
Blueprinting extendable nanomaterials with standardized protein blocks.
Nature, 627, 2024
8G9K
Geometrically programmable nanomaterial construction using regularized protein building blocks
Descriptor:
THR2
Authors:
Bera, A.K
,
Huddy, T
,
Baker, D
,
Kang, A.
Deposit date:
2023-02-21
Release date:
2024-03-13
Last modified:
2024-04-10
Method:
X-RAY DIFFRACTION (2.48 Å)
Cite:
Blueprinting extendable nanomaterials with standardized protein blocks.
Nature, 627, 2024
8GA6
Geometrically programmable nanomaterial construction using regularized protein building blocks
Descriptor:
THR6
Authors:
Huddy, T
,
Bera, A.K
,
Baker, D
,
Kang, A.
Deposit date:
2023-02-22
Release date:
2024-03-13
Last modified:
2024-04-10
Method:
X-RAY DIFFRACTION (2.5 Å)
Cite:
Blueprinting extendable nanomaterials with standardized protein blocks.
Nature, 627, 2024
8GA7
Geometrically programmable nanomaterial construction using regularized protein building blocks
Descriptor:
THR5
Authors:
Huddy, T
,
Bera, A.K
,
Baker, D
,
Kang, A.
Deposit date:
2023-02-22
Release date:
2024-03-13
Last modified:
2024-04-10
Method:
X-RAY DIFFRACTION (2.93 Å)
Cite:
Blueprinting extendable nanomaterials with standardized protein blocks.
Nature, 627, 2024
8FBI
Improving the secretion of designed protein assemblies through negative design of cryptic transmembrane domains
Descriptor:
KWOCA_39
Authors:
Wang, J.Y
,
Khmelinskaia, A
,
Bera, A.K
,
King, N.P.
Deposit date:
2022-11-29
Release date:
2023-03-22
Method:
X-RAY DIFFRACTION (3.61 Å)
Cite:
Improving the secretion of designed protein assemblies through negative design of cryptic transmembrane domains.
Proc.Natl.Acad.Sci.USA, 120, 2023
8FBJ
Improving the secretion of designed protein assemblies through negative design of cryptic transmembrane domains
Descriptor:
KWOCA_60
Authors:
Wang, J.Y
,
Khmelinskaia, A
,
Bera, A.K
,
King, N.P.
Deposit date:
2022-11-29
Release date:
2023-03-22
Method:
X-RAY DIFFRACTION (3.25 Å)
Cite:
Improving the secretion of designed protein assemblies through negative design of cryptic transmembrane domains.
Proc.Natl.Acad.Sci.USA, 120, 2023
8FBN
Improving the secretion of designed protein assemblies through negative design of cryptic transmembrane domains
Descriptor:
KWOCA_73
Authors:
Wang, J.Y
,
Khmelinskaia, A
,
Bera, A.K
,
King, N.P.
Deposit date:
2022-11-29
Release date:
2023-03-22
Method:
X-RAY DIFFRACTION (3.04 Å)
Cite:
Improving the secretion of designed protein assemblies through negative design of cryptic transmembrane domains.
Proc.Natl.Acad.Sci.USA, 120, 2023
8FBO
Improving the secretion of designed protein assemblies through negative design of cryptic transmembrane domains
Descriptor:
KWOCA_102
Authors:
Wang, J.Y
,
Khmelinskaia, A
,
Bera, A.K
,
King, N.P.
Deposit date:
2022-11-29
Release date:
2023-03-22
Method:
X-RAY DIFFRACTION (3.4 Å)
Cite:
Improving the secretion of designed protein assemblies through negative design of cryptic transmembrane domains.
Proc.Natl.Acad.Sci.USA, 120, 2023
8FBK
Improving the secretion of designed protein assemblies through negative design of cryptic transmembrane domains
Descriptor:
KWOCA_65
Authors:
Wang, J.Y
,
Khmelinskaia, A
,
Bera, A.K
,
King, N.P.
Deposit date:
2022-11-29
Release date:
2023-03-22
Method:
X-RAY DIFFRACTION (3.15 Å)
Cite:
Improving the secretion of designed protein assemblies through negative design of cryptic transmembrane domains.
Proc.Natl.Acad.Sci.USA, 120, 2023
8FAR
Accurate computational design of genetically encoded 3D protein crystals
Descriptor:
I432-1-CC
Authors:
Bera, A.K
,
Li, Z
,
Baker, D.
Deposit date:
2022-11-28
Release date:
2023-11-01
Last modified:
2023-12-20
Method:
X-RAY DIFFRACTION (3.66 Å)
Cite:
Accurate computational design of three-dimensional protein crystals.
Nat Mater, 22, 2023
8FWD
Fast and versatile sequence- independent protein docking for nanomaterials design using RPXDock
Descriptor:
O43-rpxdoc-EK1_A, O43-rpxdoc-EK1_B
Authors:
Skotheim, R
,
Borst, A.J
,
Baker, D.
Deposit date:
2023-01-20
Release date:
2023-05-10
Last modified:
2023-06-14
Method:
ELECTRON MICROSCOPY (3.67 Å)
Cite:
Fast and versatile sequence-independent protein docking for nanomaterials design using RPXDock.
Plos Comput.Biol., 19, 2023
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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PDB entries from 2024-04-24