|
35
|
155
|
1rchA |
Solution nmr structure of ribonuclease hi from escherichia coli, 8 structures |
|
50
|
155
|
1rdaA |
Crystal structures of ribonuclease hi active site mutants from escherichia coli |
|
8
|
47
|
1qhkA |
N-terminal domain of saccharomyces cerevisiae rnase hi reveals a fold with a resemblance to the n-terminal domain of ribosomal protein l9 |
|
71
|
251
|
1nndA |
Arginine 116 is essential for nucleic acid recognition by the fingers domain of moloney murine leukemia virus reverse transcriptase |
|
73
|
251
|
1mmlA |
Mechanistic implications from the structure of a catalytic fragment of mmlv reverse transcriptase |
|
52
|
155
|
1lavA |
Stabilization of escherichia coli ribonuclease hi by cavity-filling mutations within a hydrophobic core |
|
50
|
155
|
1lawA |
Stabilization of escherichia coli ribonuclease hi by cavity-filling mutations within a hydrophobic core |
|
51
|
155
|
1kvaA |
E. coli ribonuclease hi d134a mutant |
|
54
|
155
|
1kvbA |
E. coli ribonuclease hi d134h mutant |
|
53
|
155
|
1kvcA |
E. coli ribonuclease hi d134n mutant |
|
48
|
152
|
1jxbA |
I53a, a point mutant of the cysteine-free variant of e. coli rnase hi |
|
70
|
200
|
1i3aA |
Rnase hii from archaeoglobus fulgidus with cobalt hexammine chloride |
|
70
|
200
|
1i39A |
Rnase hii from archaeoglobus fulgidus |
|
48
|
156
|
1gocA |
Cooperative stabilization of escherichia coli ribonuclease hi by insertion of gly-80b and gly-77-> ala substitution |
|
50
|
155
|
1gobA |
Cooperative stabilization of escherichia coli ribonuclease hi by insertion of gly-80b and gly-77-> ala substitution |
|
48
|
156
|
1goaA |
Cooperative stabilization of escherichia coli ribonuclease hi by insertion of gly-80b and gly-77-> ala substitution |
|
47
|
150
|
1g15A |
Co-crystal of e. coli rnase hi with two mn2+ ions bound in the the active site |
|
44
|
152
|
1f21A |
Divalent metal cofactor binding in the kinetic folding trajectory of e. coli ribonuclease hi |
|
49
|
152
|
1jl1A |
D10a e. coli ribonuclease hi |
|
42
|
150
|
1jl2A |
Crystal structure of tceo rnase h-a chimera combining the folding core from t. thermophilus rnase h and the remaining region of e. coli rnase h |
|
79
|
225
|
1ekeA |
Crystal structure of class ii ribonuclease h (rnase hii) with mes ligand |
|
10
|
36
|
1dmlB |
Crystal structure of herpes simplex ul42 bound to the c-terminus of hsv pol |
|
52
|
147
|
1cxqA |
Atomic resolution asv integrase core domain from ammonium sulfate |
|
51
|
139
|
1cz9A |
Atomic resolution asv integrase core domain (d64n) from citrate |
|
55
|
147
|
1czbA |
Atomic resolution asv integrase core domain from hepes |
|
54
|
143
|
1cxuA |
1.42a resolution asv integrase core domain from citrate |
|
59
|
221
|
1c1aA |
Crystal structure of rsv two-domain integrase |
|
64
|
221
|
1c0mA |
Crystal structure of rsv two-domain integrase |
|
49
|
146
|
1asvA |
Avian sarcoma virus integrase catalytic core domain |
|
53
|
152
|
1aswA |
Avian sarcoma virus integrase catalytic core domain crystallized from 20% peg 4000, 10% isopropanol, hepes ph 7.5 using selenomethionine substituted protein; data collected at-165 degrees c |
|
55
|
162
|
1asuA |
Avian sarcoma virus integrase catalytic core domain crystallized from 2% peg 400, 2m ammonium sulfate, hepes ph 7.5 |
|
69
|
213
|
1io2A |
Crystal structure of type 2 ribonuclease h from hyperthermophilic archaeon, thermococcus kodakaraensis kod1 |
|
51
|
146
|
1a5vA |
Asv integrase core domain with hiv-1 integrase inhibitor y3 and mn cation |
|
50
|
146
|
1a5wA |
Asv integrase core domain with hiv-1 integrase inhibitor y3 |
|
51
|
146
|
1a5xA |
Asv integrase core domain with hiv-1 integrase inhibitor y3 |
