|
24
|
110
|
7cpjS |
Ycbz-stalled 70s ribosome |
|
4
|
38
|
7cpj4 |
Ycbz-stalled 70s ribosome |
|
10
|
103
|
7cpjR |
Ycbz-stalled 70s ribosome |
|
22
|
94
|
7cpjV |
Ycbz-stalled 70s ribosome |
|
13
|
75
|
7cpjW |
Ycbz-stalled 70s ribosome |
|
21
|
127
|
7cpji |
Ycbz-stalled 70s ribosome |
|
41
|
271
|
7cpjC |
Ycbz-stalled 70s ribosome |
|
52
|
206
|
7cpjc |
Ycbz-stalled 70s ribosome |
|
12
|
65
|
7cpju |
Ycbz-stalled 70s ribosome |
|
14
|
123
|
7cpjl |
Ycbz-stalled 70s ribosome |
|
23
|
209
|
7cpjD |
Ycbz-stalled 70s ribosome |
|
30
|
142
|
7cpjJ |
Ycbz-stalled 70s ribosome |
|
13
|
79
|
7cpjs |
Ycbz-stalled 70s ribosome |
|
5
|
56
|
7cpj0 |
Ycbz-stalled 70s ribosome |
|
51
|
168
|
7v4mB |
Unique non-heme hydroxylase in biosynthesis of nucleoside antibiotic pathway uncover mechanism of reaction |
|
19
|
116
|
7cpjk |
Ycbz-stalled 70s ribosome |
|
21
|
101
|
7cpjn |
Ycbz-stalled 70s ribosome |
|
11
|
77
|
7cpjX |
Ycbz-stalled 70s ribosome |
|
53
|
176
|
7v4oA |
Unique non-heme hydroxylase in biosynthesis of nucleoside antibiotic pathway uncover mechanism of reaction |
|
47
|
168
|
7v4pA |
Unique non-heme hydroxylase in biosynthesis of nucleoside antibiotic pathway uncover mechanism of reaction |
|
49
|
168
|
7v4nA |
Unique non-heme hydroxylase in biosynthesis of nucleoside antibiotic pathway uncover mechanism of reaction |
|
43
|
167
|
7v4fA |
Unique non-heme hydroxylase in biosynthesis of nucleoside antibiotic pathway uncover mechanism of reaction |
|
15
|
82
|
7cpjp |
Ycbz-stalled 70s ribosome |
|
41
|
201
|
7cpjE |
Ycbz-stalled 70s ribosome |
|
29
|
120
|
7cpjN |
Ycbz-stalled 70s ribosome |
|
18
|
141
|
7cpjI |
Ycbz-stalled 70s ribosome |
|
25
|
129
|
7cpjh |
Ycbz-stalled 70s ribosome |
|
24
|
114
|
7cpjm |
Ycbz-stalled 70s ribosome |
|
38
|
151
|
7cpjg |
Ycbz-stalled 70s ribosome |
|
6
|
80
|
7cpjq |
Ycbz-stalled 70s ribosome |
|
48
|
205
|
7cpjd |
Ycbz-stalled 70s ribosome |
|
21
|
100
|
7cpjf |
Ycbz-stalled 70s ribosome |
|
9
|
64
|
7cpj3 |
Ycbz-stalled 70s ribosome |
|
44
|
117
|
7cpjQ |
Ycbz-stalled 70s ribosome |
|
0
|
11
|
7ag5A |
Structure of the laspartomycin c double mutant g4d d-allo-thr9d-dap in complex with geranyl phosphate |
|
2
|
27
|
7tv7A |
Heterogeneous-backbone proteomimetic analogue of the disulfide-rich venom peptide lasiocepsin: beta-3-lys modified loop |
|
54
|
260
|
7vwkA |
The product template domain of avim |
|
2
|
27
|
7tv8A |
Heterogeneous-backbone proteomimetic analogue of the disulfide-rich venom peptide lasiocepsin: d-ala modified loop |
|
1
|
27
|
7tv6A |
Heterogeneous-backbone proteomimetic analogue of the disulfide-rich venom peptide lasiocepsin: native loop |
|
8
|
27
|
7tv5A |
Disulfide-rich venom peptide lasiocepsin: p20a mutant |
|
1
|
27
|
7rapA |
Heterogeneous-backbone proteomimetic analogue of the disulfide-rich venom peptide lasiocepsin |
|
103
|
271
|
7eukA |
Crystal structure of n(omega)-hydroxy-l-arginine hydrolase in complex with l-orn |
|
100
|
270
|
7eulA |
Crystal structure of c86h-h196s mutant of n(omega)-hydroxy-l-arginine hydrolase |
|
97
|
271
|
7eunA |
Crystal structure of n(omega)-hydroxy-l-arginine hydrolase in complex with abh |
|
42
|
159
|
7f3bA |
Cocrystallization of escherichia coli dihydrofolate reductase (dhfr) and its pyrrolo[3,2-f]quinazoline inhibitor. |
|
99
|
271
|
7euqA |
Crystal structure of c86h-y124n-g126h-h196s mutant of n(omega)-hydroxy-l-arginine hydrolase |
|
5
|
30
|
8svbA |
Antimicrobial lasso peptide achromonodin-1 |
|
1
|
10
|
8hvsA |
Solution structure of the antimicrobial peptide ht-2 |
|
179
|
640
|
8f3wA |
Crystal structure of penicillin binding protein 5 (pbp5) papapap variant penicillin bound form from enterococcus faecium |
|
180
|
640
|
8f3yA |
Crystal structure of penicillin binding protein 5 (pbp5) poly-gly variant penicillin bound form from enterococcus faecium |
