|
146
|
454
|
5a0tA |
Catalysis and 5' end sensing by ribonuclease rnase j of the metallo- beta-lactamase family |
|
149
|
454
|
5a0vA |
Catalysis and 5' end sensing by ribonuclease rnase j of the metallo- beta-lactamase family |
|
97
|
307
|
4gcwA |
Crystal structure of rnase z in complex with precursor trna(thr) |
|
162
|
553
|
3t3oA |
Molecular basis for the recognition and cleavage of rna (cugg) by the bifunctional 5'-3' exo/endoribonuclease rnase j |
|
89
|
307
|
2fk6A |
Crystal structure of rnase z/trna(thr) complex |
|
160
|
550
|
3t3nA |
Molecular basis for the recognition and cleavage of rna (uuccgu) by the bifunctional 5'-3' exo/endoribonuclease rnase j |
|
134
|
431
|
3ie1A |
Crystal structure of h380a mutant ttha0252 from thermus thermophilus hb8 complexed with rna |
|
196
|
643
|
3af6A |
The crystal structure of an archaeal cpsf subunit, ph1404 from pyrococcus horikoshii complexed with rna-analog |
|
137
|
431
|
3iemA |
Crystal structure of ttha0252 from thermus thermophilus hb8 complexed with rna analog |
|
182
|
545
|
4xwwA |
Crystal structure of rnase j complexed with rna |
|
63
|
205
|
3sw3A |
Edta-free crystal structure of the mutant c221d of carbapenemase cpha from aeromonas hydrophila |
|
36
|
224
|
3s0zA |
Crystal structure of new delhi metallo-beta-lactamase (ndm-1) |
|
68
|
222
|
3i15A |
Cobalt-substituted metallo-beta-lactamase from bacillus cereus: residue cys168 fully oxidized |
|
76
|
231
|
5lm6A |
Vim-2 metallo-beta-lactamase in complex with 2-(3-fluoro-4-hydroxyphenyl)-3-oxoisoindoline-4-carboxylic acid (compound 35) |
|
152
|
399
|
5lmcA |
Oxidized flavodiiron core of escherichia coli flavorubredoxin, including the fe-4sg atoms from its rubredoxin domain |
|
72
|
235
|
5lscA |
The structure of the metallo-beta-lactamase vim-2 in complex with a triazolylthioacetamide inhibitor |
|
77
|
230
|
5le1A |
Vim-2 metallo-beta-lactamase in complex with 2-(2-chloro-6-fluorobenzyl)-3-oxoisoindoline-4-carboxylic acid (compound 16) |
|
151
|
398
|
5lldA |
Flavodiiron core of escherichia coli flavorubredoxin in the reduced form. |
|
80
|
245
|
5ls3A |
Crystal structure of metallo-beta-lactamase spm-1 with y58c mutation |
|
72
|
230
|
5lchA |
Vim-2 metallo-beta-lactamase in complex with (s)-1-allyl-2-(3-methoxyphenyl)-3-oxoisoindoline-4-carboxylic acid (compound 42) |
|
163
|
533
|
5kikA |
Cmla beta-hydroxylase in chemically reduced diferrous state |
|
154
|
531
|
5kilA |
Cmla beta-hydroxylase e377d mutant |
|
96
|
270
|
5k0wA |
Crystal structure of the metallo-beta-lactamase gob-18 from elizabethkingia meningoseptica |
|
90
|
269
|
5iqkA |
Rm3 metallo-beta-lactamase |
|
99
|
298
|
5hisA |
Crystal structure of pqs response protein pqse in complex with 3-methylthiophene-2-carboxylic acid |
|
77
|
233
|
5acxA |
Vim-2-2, discovery of novel inhibitor scaffolds against the metallo- beta-lactamase vim-2 by spr based fragment screening |
|
73
|
233
|
5acwA |
Vim-2-1, discovery of novel inhibitor scaffolds against the metallo- beta-lactamase vim-2 by spr based fragment screening |
|
61
|
218
|
5acsA |
Y233a-investigation of the impact from residues w228 and y233 in the metallo-beta-lactamase gim-1 |
|
66
|
219
|
5acpA |
W228r-investigation of the impact from residues w228 and y233 in the metallo-beta-lactamase gim-1 |
|
70
|
233
|
5acvA |
Vim-2-ox, discovery of novel inhibitor scaffolds against the metallo- beta-lactamase vim-2 by spr based fragment screening |
|
234
|
635
|
5aijA |
P. aeruginosa sdsa hexagonal polymorph |
|
67
|
217
|
5acrA |
W228y-investigation of the impact from residues w228 and y233 in the metallo-beta-lactamase gim-1 |
|
62
|
219
|
5actA |
W228s-investigation of the impact from residues w228 and y233 in the metallo-beta-lactamase gim-1 |
|
64
|
231
|
5acuA |
Vim-2-nat, discovery of novel inhibitor scaffolds against the metallo- beta-lactamase vim-2 by spr based fragment screening |
|
85
|
264
|
5aebA |
Crystal structure of the class b3 di-zinc metallo-beta-lactamase lra- 12 from an alaskan soil metagenome. |
|
219
|
635
|
5a23A |
Sdsa sulfatase triclinic form |
|
71
|
230
|
5a87A |
Crystal structure of the metallo-beta-lactamase vim-5 |
|
80
|
236
|
5a5zA |
Approved drugs containing thiols as inhibitors of metallo-beta- lactamases: strategy to combat multidrug-resistant bacteria |
|
65
|
218
|
5acqA |
W228a-investigation of the impact from residues w228 and y233 in the metallo-beta-lactamase gim-1 |
|
94
|
299
|
4z7rA |
The 1.98-angstrom crystal structure of zn(2+)-bound pqqb from methylobacterium extorquens |
|
72
|
229
|
4znbA |
Metallo-beta-lactamase (c181s mutant) |
|
100
|
308
|
4z60A |
The 2.5-angstrom of crystal structure of zn(2+)-bound pqqb from pseudomonas putida |
|
101
|
309
|
4z6xA |
The 1.68-angstrom crystal structure of acitive-site metal-free pqqb from pseudomonas putida |
|
72
|
219
|
4zejA |
Crystal structure of dim-1 metallo-beta-lactamase exposed to ceftazidime |
|
103
|
308
|
4z5zA |
The 2.5-angstrom crystal structure of mg(2+)-bound pqqb from pseudomonas putida |
|
81
|
241
|
4eybA |
Crystal structure of ndm-1 bound to hydrolyzed oxacillin |
|
74
|
231
|
4exyA |
Crystal structure of ndm-1 bound to ethylene glycol |
|
57
|
233
|
4f6hA |
Mutagenesis of zinc ligand residue cys221 reveals plasticity in the imp-1 metallo-b-lactamase active site |
|
85
|
241
|
4ey2A |
Crystal structure of ndm-1 bound to hydrolyzed methicillin |
|
77
|
239
|
4exsA |
Crystal structure of ndm-1 bound to l-captopril |
