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Class: Mainly Alpha (13335)
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Architecture: Orthogonal Bundle (10391)
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Topology: Annexin V; domain 1 (80)
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Homologous Superfamily: [code=1.10.220.10, no name defined] (58)
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Capsicum annuum. Organism_taxid: 4072. (1)
1DK5A:248-320; B:648-720; A:91-162; B:491-562; A:174-243; B:574-643; B:408-490; A:5-90CRYSTAL STRUCTURE OF ANNEXIN 24(CA32) FROM CAPSICUM ANNUUM
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Cattle (Bos taurus) (4)
1ANNA:85-158; A:245-316; A:159-244; A:12-84ANNEXIN IV
1AOWA:85-158; A:245-316; A:159-244; A:12-84ANNEXIN IV
1AVCA:91-168; A:252-323; A:600-671; A:437-510; A:169-251; A:511-599; A:363-436; A:11-90BOVINE ANNEXIN VI (CALCIUM-BOUND)
1I4AA:85-158; A:159-244; A:12-84; A:245-316CRYSTAL STRUCTURE OF PHOSPHORYLATION-MIMICKING MUTANT T6D OF ANNEXIN IV
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Chicken (Gallus gallus) (3)
1ALAA:87-160; A:161-246; A:14-86; A:247-318STRUCTURE OF CHICKEN ANNEXIN V AT 2.25-ANGSTROMS RESOLUTION
1YIIA:87-160; A:14-86; A:247-317; A:161-246CRYSTAL STRUCTURES OF CHICKEN ANNEXIN V IN COMPLEX WITH CA2+
1YJ0A:87-160; A:161-246; A:14-86; A:247-319CRYSTAL STRUCTURES OF CHICKEN ANNEXIN V IN COMPLEX WITH ZN2+
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Human (Homo sapiens) (22)
1AIIA:18-90; A:165-250; A:251-322; A:91-164ANNEXIN III
1ANWA:87-160; A:161-246; B:161-246; B:87-160; A:14-86; B:14-86; A:247-318; B:247-318THE EFFECT OF METAL BINDING ON THE STRUCTURE OF ANNEXIN V AND IMPLICATIONS FOR MEMBRANE BINDING
1ANXA: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:247-318THE CRYSTAL STRUCTURE OF A NEW HIGH-CALCIUM FORM OF ANNEXIN V
1AVHA:87-160; A:161-246; B:161-246; A:14-86; B:14-86; A:247-318; B:247-318; B:87-160CRYSTAL AND MOLECULAR STRUCTURE OF HUMAN ANNEXIN V AFTER REFINEMENT. IMPLICATIONS FOR STRUCTURE, MEMBRANE BINDING AND ION CHANNEL FORMATION OF THE ANNEXIN FAMILY OF PROTEINS
1AVRA:87-160; A:161-246; A:14-86; A:247-318CRYSTAL AND MOLECULAR STRUCTURE OF HUMAN ANNEXIN V AFTER REFINEMENT. IMPLICATIONS FOR STRUCTURE, MEMBRANE BINDING AND ION CHANNEL FORMATION OF THE ANNEXIN FAMILY OF PROTEINS
1AXNA:18-90; A:165-250; A:251-322; A:91-164THE HIGH RESOLUTION STRUCTURE OF ANNEXIN III SHOWS DIFFERENCES WITH ANNEXIN V
1BO9A:1-73NMR SOLUTION STRUCTURE OF DOMAIN 1 OF HUMAN ANNEXIN I
1HAKA:87-160; A:161-246; B:161-246; B:87-160; A:14-86; B:14-86; A:247-318; B:247-318CRYSTAL STRUCTURE OF RECOMBINANT HUMAN PLACENTAL ANNEXIN V COMPLEXED WITH K-201 AS A CALCIUM CHANNEL ACTIVITY INHIBITOR
1HVDA:87-160; A:161-246; A:14-86; A:247-316STRUCTURAL 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
1HVEA:87-160; A:161-246; A:14-86; A:247-316STRUCTURAL 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
1HVFA:87-160; A:161-246; A:14-86; A:247-316STRUCTURAL 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
1HVGA:87-160; A:161-246; A:14-86; A:247-316STRUCTURAL 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
1M9IA:91-168; A:169-251; A:511-599; A:363-436; A:11-90; A:252-323; A:600-669; A:437-510CRYSTAL STRUCTURE OF PHOSPHORYLATION-MIMICKING MUTANT T356D OF ANNEXIN VI
1SAVA:86-160; A:161-246; A:14-85; A:247-313HUMAN ANNEXIN V WITH PROLINE SUBSTITUTION BY THIOPROLINE
1W3WA:93-166; A:167-253; A:20-92; A:254-325THE 2.1 ANGSTROEM RESOLUTION STRUCTURE OF ANNEXIN A8
1W45A:93-168; A:169-253; B:169-253; B:93-168; A:20-92; B:20-92; A:254-325; B:254-325THE 2.5 ANGSTROEM STRUCTURE OF THE K16A MUTANT OF ANNEXIN A8, WHICH HAS AN INTACT N-TERMINUS.
1W7BA:21-104; A:266-339; A:105-183; A:185-264ANNEXIN A2: DOES IT INDUCE MEMBRANE AGGREGATION BY A NEW MULTIMERIC STATE OF THE PROTEIN.
1XJLA:21-104; B:185-264; B:21-104; A:266-339; B:266-339; A:105-183; B:105-183; A:185-264STRUCTURE OF HUMAN ANNEXIN A2 IN THE PRESENCE OF CALCIUM IONS
2HYUA:31-103; A:265-338; A:104-183; A:184-264HUMAN ANNEXIN A2 WITH HEPARIN TETRASACCHARIDE BOUND
2HYVA:31-103; A:265-338; A:104-183; A:184-264HUMAN ANNEXIN A2 WITH HEPARIN HEXASACCHARIDE BOUND
2HYWA:31-103; B:31-103; A:265-338; B:265-338; A:104-183; B:104-183; A:184-264; B:184-264HUMAN ANNEXIN A2 WITH CALCIUM BOUND
2ZOCA:86-159; B:86-159; A:160-245; B:160-245; A:13-85; B:13-85; A:246-317; B:246-317CRYSTAL STRUCTURE OF RECOMBINANT HUMAN ANNEXIN IV
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Hydra vulgaris. Organism_taxid: 6087. (1)
1AEIA:12-84; B:12-84; E:245-316; F:245-316; A:85-158; B:85-158; C:85-158; D:85-158; E:85-158; F:85-158; A:159-244; B:159-244; C:12-84; C:159-244; D:159-244; E:159-244; F:159-244; D:12-84; E:12-84; F:12-84; A:245-316; B:245-316; C:245-316; D:245-316CRYSTAL STRUCTURE OF THE ANNEXIN XII HEXAMER
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Hydra vulgaris. Organism_taxid: 6087. (1)
1DM5A:12-84; B:12-84; E:245-316; F:245-316; A:85-158; B:85-158; C:85-158; D:85-158; E:85-158; F:85-158; A:159-244; B:159-244; C:12-84; C:159-244; D:159-244; E:159-244; F:159-244; D:12-84; E:12-84; F:12-84; A:245-316; B:245-316; C:245-316; D:245-316ANNEXIN XII E105K HOMOHEXAMER CRYSTAL STRUCTURE
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Norway rat (Rattus norvegicus) (18)
1A8AA:85-158; A:12-84; A:245-316; A:159-244RAT ANNEXIN V COMPLEXED WITH GLYCEROPHOSPHOSERINE
1A8BA:85-158; A:12-84; A:245-316; A:159-244RAT ANNEXIN V COMPLEXED WITH GLYCEROPHOSPHOETHANOLAMINE
1BC0A:85-158; A:12-84; A:245-316; A:159-244RECOMBINANT RAT ANNEXIN V, W185A MUTANT
1BC1A:85-158; A:12-84; A:245-316; A:159-244RECOMBINANT RAT ANNEXIN V, QUADRUPLE MUTANT (T72K, S144K, S228K, S303K)
1BC3A:85-158; A:12-84; A:245-316; A:159-244RECOMBINANT RAT ANNEXIN V, TRIPLE MUTANT (T72K, S144K, S228K)
1BCWA:85-158; A:12-84; A:245-316; A:159-244RECOMBINANT RAT ANNEXIN V, T72A MUTANT
1BCYA:85-158; A:12-84; A:245-316; A:159-244RECOMBINANT RAT ANNEXIN V, T72K MUTANT
1BCZA:85-158; A:12-84; A:245-316; A:159-244RECOMBINANT RAT ANNEXIN V, T72S MUTANT
1G5NA:85-158; A:12-84; A:245-316; A:159-244ANNEXIN V COMPLEX WITH HEPARIN OLIGOSACCHARIDES
1N41A:85-158; A:12-84; A:245-316; A:159-244CRYSTAL STRUCTURE OF ANNEXIN V K27E MUTANT
1N42A:85-158; A:12-84; A:245-316; A:159-244CRYSTAL STRUCTURE OF ANNEXIN V R149E MUTANT
1N44A:85-158; A:12-84; A:245-316; A:159-244CRYSTAL STRUCTURE OF ANNEXIN V R23E MUTANT
2H0KA:85-158; B:85-158; A:12-84; B:12-84; A:245-316; B:245-316; A:159-244; B:159-244CRYSTAL STRUCTURE OF A MUTANT OF RAT ANNEXIN A5
2H0LA:85-158; A:12-84; A:245-316; A:159-244CRYSTAL STRUCTURE OF A MUTANT OF RAT ANNEXIN A5
2H0MA:85-158; A:12-84; A:245-316; A:159-244STRUCTURE OF A MUTANT OF RAT ANNEXIN A5
2IE6A:85-158; A:12-84; A:245-316; A:159-244ANNEXIN V UNDER 2.0 MPA PRESSURE OF XENON
2IE7A:85-158; A:12-84; A:245-316; A:159-244ANNEXIN V UNDER 2.0 MPA PRESSURE OF NITROUS OXIDE
2RANA:85-158; A:12-84; A:245-316; A:159-244RAT ANNEXIN V CRYSTAL STRUCTURE: CA2+-INDUCED CONFORMATIONAL CHANGES
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Pig (Sus scrofa) (2)
1HM6A:41-113; B:41-113; B:188-273; A:274-344; B:274-344; A:114-187; B:114-187; A:188-273X-RAY STRUCTURE OF FULL-LENGTH ANNEXIN 1
1MCXA:41-113; A:188-273; A:274-344; A:114-187STRUCTURE OF FULL-LENGTH ANNEXIN A1 IN THE PRESENCE OF CALCIUM
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Rat (Rattus norvegicus) (2)
2ZHIA:86-159; A:13-85; A:246-318; A:160-245CRYSTAL STRUCTURE ANALYSIS OF THE SODIUM-BOUND ANNEXIN A4 AT 1.58 A RESOLUTION
2ZHJA:86-159; A:13-85; A:246-316; A:160-245CRYSTAL STRUCTURE ANALYSIS OF THE SODIUM-BOUND ANNEXIN A4 AT 1.34 A RESOLUTION
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Thale cress (Arabidopsis thaliana) (2)
1YCNA:242-317; B:242-317; A:13-82; B:13-82; A:83-154; B:83-154; A:165-241; B:165-241X-RAY STRUCTURE OF ANNEXIN FROM ARABIDOPSIS THALIANA GENE AT1G35720
2Q4CA:242-317; A:165-241; B:165-241; A:13-82; B:13-82; B:242-317; A:83-154; B:83-154ENSEMBLE REFINEMENT OF THE PROTEIN CRYSTAL STRUCTURE OF ANNEXIN FROM ARABIDOPSIS THALIANA GENE AT1G35720
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Upland cotton (Gossypium hirsutum) (2)
1N00A:247-319; A:88-159; A:171-242; A:4-87ANNEXIN GH1 FROM COTTON
3BRXA:247-319; A:88-159; A:171-242; A:5-87CRYSTAL STRUCTURE OF CALCIUM-BOUND COTTON ANNEXIN GH1