72
|
204
|
7mwqB |
Structure of de novo designed beta sheet heterodimer lhd29a53/b53 |
13
|
30
|
7nfgA |
A hexameric barrel state of a de novo coiled-coil assembly: cc-type2-(laid)4-l14a. |
21
|
65
|
6wmkA |
Crystal structure of beta sheet heterodimer lhd29 |
13
|
30
|
7nfhA |
A heptameric barrel state of a de novo coiled-coil assembly: cc-type2-(maid)4. |
13
|
30
|
7nfoA |
A hexameric barrel state of a de novo coiled-coil assembly: cc-type2-(laid)4-i17c. |
75
|
204
|
7mwrA |
Structure of de novo designed beta sheet heterodimer lhd101a53/b4 |
75
|
204
|
7mwqA |
Structure of de novo designed beta sheet heterodimer lhd29a53/b53 |
109
|
359
|
7lz3A |
Computational design of constitutively active cgas |
21
|
62
|
7kuwA |
High-throughput design and refinement of stable proteins using sequence-only models |
42
|
104
|
7k3hA |
Crystal structure of deep network hallucinated protein 0217 |
2
|
16
|
7dnfB |
Darpin 63_b7 in complex with v3-iy (mn) crown mimetic |
43
|
99
|
7dgyA |
De novo designed protein h4c2r |
22
|
90
|
7dkoA |
De novo design protein am2m |
43
|
128
|
7b4vA |
Broadly neutralizing darpin bnd.2 in complex with the hiv-1 envelope variable loop 3 crown mimetic peptide v3-if (bg505) |
0
|
15
|
7b4tB |
Broadly neutralizing darpin bnd.1 in complex with the hiv-1 envelope variable loop 3 crown mimetic peptide v3-if (bg505) |
2
|
15
|
7b4vB |
Broadly neutralizing darpin bnd.2 in complex with the hiv-1 envelope variable loop 3 crown mimetic peptide v3-if (bg505) |
54
|
162
|
7b4tA |
Broadly neutralizing darpin bnd.1 in complex with the hiv-1 envelope variable loop 3 crown mimetic peptide v3-if (bg505) |
59
|
136
|
8bu0A |
Crystal structure of an 8 repeat consensus tpr superhelix with calcium |
1
|
15
|
7b4uB |
Broadly neutralizing darpin bnd.2 in complex with the hiv-1 envelope variable loop 3 crown mimetic peptide v3-if (bg505) |
88
|
219
|
8f6rA |
Cryoem structure of designed modular protein oligomer c6-79 |
85
|
199
|
8f6qA |
Cryoem structure of designed modular protein oligomer c8-71 |
62
|
136
|
8tnmA |
Unc_079 from chroma generative model |
106
|
277
|
8tnoA |
Unc_239 from chroma generative model |
45
|
106
|
8denA |
Heme-free cytochrome variant apocyt |
45
|
106
|
8delA |
Trimeric heme-free cytochrome variant apocyt-tricyt3 |
7
|
25
|
7zbsX |
Solution nmr structure of the hth_8cm consensus miniprotein in 30% tfe at 278k |
34
|
115
|
7vqlA |
De novo designed based on 1r26 |
32
|
115
|
7vqvA |
De novo design based on 1r26 |
1
|
9
|
7tmiA |
Porous framework formed by assembly of a bipyridyl-conjugated helical peptide |
1
|
9
|
7tmhA |
Porous framework formed by assembly of a bipyridyl-conjugated helical peptide |
0
|
9
|
7tmjA |
Porous framework formed by assembly of a bipyridyl-conjugated helical peptide |
1
|
9
|
7tlsA |
Porous framework formed by assembly of a bipyridyl-conjugated helical peptide |
1
|
9
|
7tmlA |
Porous framework formed by assembly of a bipyridyl-conjugated helical peptide |
1
|
9
|
7tluA |
Porous framework formed by assembly of a bipyridyl-conjugated helical peptide |
1
|
9
|
7tm2A |
Porous framework formed by assembly of a bipyridyl-conjugated helical peptide |
1
|
9
|
7tmkA |
Porous framework formed by assembly of a bipyridyl-conjugated helical peptide |
30
|
90
|
7vtyA |
De novo designed protein |
34
|
117
|
7vu4A |
De novo design based on 1r26 |
34
|
116
|
7vqwA |
De novo designed protein based on 1r26 |
38
|
85
|
7tjlA |
Crystal structure of de novo designed protein, sewn0.1 |
64
|
146
|
7sq3A |
Designed trefoil knot protein, variant 1 |
20
|
48
|
7sq4A |
Designed trefoil knot protein, variant 2 |
87
|
225
|
7rkcA |
Computationally designed tunable c2 symmetric tandem repeat homodimer, d_3_633 |
22
|
55
|
7s5bA |
Unbound state of a de novo designed protein binder to the human interleukin-7 receptor |
0
|
19
|
7qdjA |
Racemic structure of pk-10 and pk-11 |
11
|
30
|
7qdkA |
A trimeric de novo coiled-coil assembly: cc-typen-lald |
21
|
93
|
7mn2A |
Rules for designing protein fold switches and their implications for the folding code |
25
|
95
|
7mq4A |
Rules for designing protein fold switches and their implications for the folding code |
12
|
87
|
7mp7A |
Rules for designing protein fold switches and their implications for the folding code |
21
|
95
|
7mn1A |
Rules for designing protein fold switches and their implications for the folding code |