1AII | A:18-90; A:165-250; A:251-322; A:91-164 | ANNEXIN III |
1ANW | A:87-160; A:161-246; B:161-246; B:87-160; A:14-86; B:14-86; A:247-318; B:247-318 | THE EFFECT OF METAL BINDING ON THE STRUCTURE OF ANNEXIN V AND IMPLICATIONS FOR MEMBRANE BINDING |
1ANX | A:87-160; A:161-246; B:161-246; C:161-246; A:14-86; B:14-86; C:14-86; B:87-160; C:87-160; A:247-318; B:247-318; C:247-318 | THE CRYSTAL STRUCTURE OF A NEW HIGH-CALCIUM FORM OF ANNEXIN V |
1AVH | A:87-160; A:161-246; B:161-246; A:14-86; B:14-86; A:247-318; B:247-318; B:87-160 | CRYSTAL AND MOLECULAR STRUCTURE OF HUMAN ANNEXIN V AFTER REFINEMENT. IMPLICATIONS FOR STRUCTURE, MEMBRANE BINDING AND ION CHANNEL FORMATION OF THE ANNEXIN FAMILY OF PROTEINS |
1AVR | A:87-160; A:161-246; A:14-86; A:247-318 | CRYSTAL AND MOLECULAR STRUCTURE OF HUMAN ANNEXIN V AFTER REFINEMENT. IMPLICATIONS FOR STRUCTURE, MEMBRANE BINDING AND ION CHANNEL FORMATION OF THE ANNEXIN FAMILY OF PROTEINS |
1AXN | A:18-90; A:165-250; A:251-322; A:91-164 | THE HIGH RESOLUTION STRUCTURE OF ANNEXIN III SHOWS DIFFERENCES WITH ANNEXIN V |
1BO9 | A:1-73 | NMR SOLUTION STRUCTURE OF DOMAIN 1 OF HUMAN ANNEXIN I |
1HAK | A:87-160; A:161-246; B:161-246; B:87-160; A:14-86; B:14-86; A:247-318; B:247-318 | CRYSTAL STRUCTURE OF RECOMBINANT HUMAN PLACENTAL ANNEXIN V COMPLEXED WITH K-201 AS A CALCIUM CHANNEL ACTIVITY INHIBITOR |
1HVD | A:87-160; A:161-246; A:14-86; A:247-316 | STRUCTURAL AND ELECTROPHYSIOLOGICAL ANALYSIS OF ANNEXIN V MUTANTS. MUTAGENESIS OF HUMAN ANNEXIN V, AN IN VITRO VOLTAGE-GATED CALCIUM CHANNEL, PROVIDES INFORMATION ABOUT THE STRUCTURAL FEATURES OF THE ION PATHWAY, THE VOLTAGE SENSOR AND THE ION SELECTIVITY FILTER |
1HVE | A:87-160; A:161-246; A:14-86; A:247-316 | STRUCTURAL AND ELECTROPHYSIOLOGICAL ANALYSIS OF ANNEXIN V MUTANTS. MUTAGENESIS OF HUMAN ANNEXIN V, AN IN VITRO VOLTAGE-GATED CALCIUM CHANNEL, PROVIDES INFORMATION ABOUT THE STRUCTURAL FEATURES OF THE ION PATHWAY, THE VOLTAGE SENSOR AND THE ION SELECTIVITY FILTER |
1HVF | A:87-160; A:161-246; A:14-86; A:247-316 | STRUCTURAL AND ELECTROPHYSIOLOGICAL ANALYSIS OF ANNEXIN V MUTANTS. MUTAGENESIS OF HUMAN ANNEXIN V, AN IN VITRO VOLTAGE-GATED CALCIUM CHANNEL, PROVIDES INFORMATION ABOUT THE STRUCTURAL FEATURES OF THE ION PATHWAY, THE VOLTAGE SENSOR AND THE ION SELECTIVITY FILTER |
1HVG | A:87-160; A:161-246; A:14-86; A:247-316 | STRUCTURAL AND ELECTROPHYSIOLOGICAL ANALYSIS OF ANNEXIN V MUTANTS. MUTAGENESIS OF HUMAN ANNEXIN V, AN IN VITRO VOLTAGE-GATED CALCIUM CHANNEL, PROVIDES INFORMATION ABOUT THE STRUCTURAL FEATURES OF THE ION PATHWAY, THE VOLTAGE SENSOR AND THE ION SELECTIVITY FILTER |
1M9I | A:91-168; A:169-251; A:511-599; A:363-436; A:11-90; A:252-323; A:600-669; A:437-510 | CRYSTAL STRUCTURE OF PHOSPHORYLATION-MIMICKING MUTANT T356D OF ANNEXIN VI |
1SAV | A:86-160; A:161-246; A:14-85; A:247-313 | HUMAN ANNEXIN V WITH PROLINE SUBSTITUTION BY THIOPROLINE |
1W3W | A:93-166; A:167-253; A:20-92; A:254-325 | THE 2.1 ANGSTROEM RESOLUTION STRUCTURE OF ANNEXIN A8 |
1W45 | A:93-168; A:169-253; B:169-253; B:93-168; A:20-92; B:20-92; A:254-325; B:254-325 | THE 2.5 ANGSTROEM STRUCTURE OF THE K16A MUTANT OF ANNEXIN A8, WHICH HAS AN INTACT N-TERMINUS. |
1W7B | A:21-104; A:266-339; A:105-183; A:185-264 | ANNEXIN A2: DOES IT INDUCE MEMBRANE AGGREGATION BY A NEW MULTIMERIC STATE OF THE PROTEIN. |
1XJL | A:21-104; B:185-264; B:21-104; A:266-339; B:266-339; A:105-183; B:105-183; A:185-264 | STRUCTURE OF HUMAN ANNEXIN A2 IN THE PRESENCE OF CALCIUM IONS |
2HYU | A:31-103; A:265-338; A:104-183; A:184-264 | HUMAN ANNEXIN A2 WITH HEPARIN TETRASACCHARIDE BOUND |
2HYV | A:31-103; A:265-338; A:104-183; A:184-264 | HUMAN ANNEXIN A2 WITH HEPARIN HEXASACCHARIDE BOUND |
2HYW | A:31-103; B:31-103; A:265-338; B:265-338; A:104-183; B:104-183; A:184-264; B:184-264 | HUMAN ANNEXIN A2 WITH CALCIUM BOUND |
2ZOC | A:86-159; B:86-159; A:160-245; B:160-245; A:13-85; B:13-85; A:246-317; B:246-317 | CRYSTAL STRUCTURE OF RECOMBINANT HUMAN ANNEXIN IV |