CATH 3.4.0 - JenaLib Tree Browser

Architecture: Ribbon (789)

Topology: CD59 (129)

Homologous Superfamily: CD59 (129)

[unclassified] (3)

1QM7	A:1-61	X-RAY STRUCTURE OF A THREE-FINGERED CHIMERIC PROTEIN, STABILITY OF A STRUCTURAL SCAFFOLD
2VLW	A:1-65; B:1-65	CRYSTAL STRUCTURE OF THE MUSCARINIC TOXIN MT7 DIIODOTYR51 DERIVATIVE.
3FEV	A:1-65; B:1-65; C:1-65	CRYSTAL STRUCTURE OF THE CHIMERIC MUSCARINIC TOXIN MT7 WITH LOOP 1 FROM MT1.

2_ (1)

1ABT

A:1-74

NMR SOLUTION STRUCTURE OF AN ALPHA-BUNGAROTOXIN(SLASH) NICOTINIC RECEPTOR PEPTIDE COMPLEX

Asian cobra (Naja oxiana) (1)

1W6B

A:1-73

SOLUTION NMR STRUCTURE OF A LONG NEUROTOXIN FROM THE VENOM OF THE ASIAN COBRA, 20 STRUCTURES

Black mamba (Dendroaspis polylepis polylepis) (2)

1NTX	A:1-62	SECONDARY STRUCTURE DETERMINATION FOR ALPHA-NEUROTOXIN FROM DENDROASPIS POLYLEPIS POLYLEPIS BASED ON SEQUENCE SPECIFIC PROTON NUCLEAR MAGNETIC RESONANCE ASSIGNMENTS
1TFS	A:1-60	NMR AND RESTRAINED MOLECULAR DYNAMICS STUDY OF THE THREE-DIMENSIONAL SOLUTION STRUCTURE OF TOXIN FS2, A SPECIFIC BLOCKER OF THE L-TYPE CALCIUM CHANNEL, ISOLATED FROM BLACK MAMBA VENOM

Broad-banded blue sea krait (Laticauda semifasciata) (11)

1ERA	A:1-62	TERTIARY STRUCTURE OF ERABUTOXIN B IN AQUEOUS SOLUTION ELUCIDATED BY TWO-DIMENSIONAL NUCLEAR MAGNETIC RESONANCE
1FRA	A:1-62	TERTIARY STRUCTURE OF ERABUTOXIN B IN AQUEOUS SOLUTION ELUCIDATED BY TWO-DIMENSIONAL NUCLEAR MAGNETIC RESONANCE
1LSI	A:1-66	LSIII (NMR, 23 STRUCTURES)
1NXB	A:1-62	STRUCTURE AND FUNCTION OF SNAKE VENOM CURARIMIMETIC NEUROTOXINS
1QKD	A:1-62; B:1-62	ERABUTOXIN
1QKE	A:1-62	ERABUTOXIN
2ERA	A:1-62	RECOMBINANT ERABUTOXIN A, S8G MUTANT
3EBX	A:1-62	REFINEMENT AT 1.4 ANGSTROMS RESOLUTION OF A MODEL OF ERABUTOXIN B. TREATMENT OF ORDERED SOLVENT AND DISCRETE DISORDER
3ERA	A:1-62; B:1-62	RECOMBINANT ERABUTOXIN A (S8T MUTANT)
5EBX	A:1-62	THE CRYSTAL STRUCTURE OF ERABUTOXIN A AT 2.0 ANGSTROMS RESOLUTION
6EBX	A:1-62; B:1-62	STRUCTURE DETERMINATION OF A DIMERIC FORM OF ERABUTOXIN B, CRYSTALLIZED FROM THIOCYANATE SOLUTION

Bungarus candidus. Organism_taxid: 92438 (2)

2H8U	A:1-65; B:1-65	BUCAIN, A CARDIOTOXIN FROM THE MALAYAN KRAIT BUNGARUS CANDIDUS
2JQP	A:1-65	NMR STRUCTURE DETERMINATION OF BUNGATOXIN FROM BUNGARUS CANDIDUS (MALAYAN KRAIT)

Bungarus candidus. Organism_taxid: 92438. (3)

1F94	A:1-63	THE 0.97 RESOLUTION STRUCTURE OF BUCANDIN, A NOVEL TOXIN ISOLATED FROM THE MALAYAN KRAIT
1IJC	A:1-63	SOLUTION STRUCTURE OF BUCANDIN, A NEUROTOXIN FROM THE VENOM OF THE MALAYAN KRAIT
1JGK	A:1-66	SOLUTION STRUCTURE OF CANDOXIN

Central asian cobra (Naja oxiana) (7)

1CB9	A:1-60	NMR STRUCTURE WITH TIGHTLY BOUND WATER MOLECULES OF CYTOTOXIN II (CARDIOTOXIN) FROM NAJA NAJA OXIANA IN AQUEOUS SOLUTION (MAJOR FORM).
1CCQ	A:1-60	NMR STRUCTURE WITH TIGHTLY BOUND WATER MOLECULES OF CYTOTOXIN II (CARDIOTOXIN) FROM NAJA NAJA OXIANA IN AQUEOUS SOLUTION (MINOR FORM).
1FFJ	A:1-60	NMR STRUCTURE OF CARDIOTOXIN IN DPC-MICELLE
1NOR	A:1-61	TWO-DIMENSIONAL 1H-NMR STUDY OF THE SPATIAL STRUCTURE OF NEUROTOXIN II FROM NAJA OXIANA
1NTN	A:1-72	THE CRYSTAL STRUCTURE OF NEUROTOXIN-I FROM NAJA NAJA OXIANA AT 1.9 ANGSTROMS RESOLUTION
1RL5	A:1-60	NMR STRUCTURE WITH TIGHTLY BOUND WATER MOLECULE OF CYTOTOXIN I FROM NAJA OXIANA IN AQUEOUS SOLUTION (MAJOR FORM)
1ZAD	A:1-60	STRUCTURE OF CYTOTOXIN I (CTI) FROM NAJA OXIANA IN COMPLEX WITH DPC MICELLE

Chicken (Gallus gallus) (1)

1KS6

A:1-107

TRANSFORMING GROWTH FACTOR BETA TYPE II RECEPTOR LIGAND BINDING DOMAIN

Chinese cobra (Naja atra) (20)

1CHV	S:1-60	ELUCIDATION OF THE SOLUTION STRUCTURE OF CARDIOTOXIN ANALOGUE V FROM THE TAIWAN COBRA (NAJA NAJA ATRA) VENOM
1COD	A:1-62	SOLUTION CONFORMATION OF COBROTOXIN: A NUCLEAR MAGNETIC RESONANCE AND HYBRID DISTANCE GEOMETRY-DYNAMICAL SIMULATED ANNEALING STUDY
1COE	A:1-62	SOLUTION CONFORMATION OF COBROTOXIN: A NUCLEAR MAGNETIC RESONANCE AND HYBRID DISTANCE GEOMETRY-DYNAMICAL SIMULATED ANNEALING STUDY
1CRE	A:1-60	CARDIOTOXIN II FROM TAIWAN COBRA VENOM, NAJA NAJA ATRA: STRUCTURE IN SOLUTION AND COMPARISION AMONG HOMOLOGOUS CARDIOTOXINS
1CRF	A:1-60	CARDIOTOXIN II FROM TAIWAN COBRA VENOM, NAJA NAJA ATRA: STRUCTURE IN SOLUTION AND COMPARISION AMONG HOMOLOGOUS CARDIOTOXINS
1CVO	A:1-62	THE SOLUTION STRUCTURE OF CARDIOTOXIN V FROM NAJA NAJA ATRA
1H0J	A:1-60; B:1-60; C:1-60	STRUCTURAL BASIS OF THE MEMBRANE-INDUCED CARDIOTOXIN A3 OLIGOMERIZATION
1I02	A:1-60	NMR STRUCTURE OF CTX A3 AT NEUTRAL PH (20 STRUCTURES)
1KBS	A:1-60	SOLUTION STRUCTURE OF CARDIOTOXIN IV, NMR, 1 STRUCTURE
1KBT	A:1-60	SOLUTION STRUCTURE OF CARDIOTOXIN IV, NMR, 12 STRUCTURES
1KXI	A:1-62; B:1-62	STRUCTURE OF CYTOTOXIN HOMOLOG PRECURSOR
1ONJ	A:1-61	CRYSTAL STRUCTURE OF ATRATOXIN-B FROM CHINESE COBRA VENOM OF NAJA ATRA
1UG4	A:1-60	CRYSTAL STRUCTURE OF CARDIOTOXIN VI FROM TAIWAN COBRA (NAJA ATRA) VENOM
1V6P	A:1-62; B:1-62	CRYSTAL STRUCTURE OF COBROTOXIN
1VB0	A:1-61	ATOMIC RESOLUTION STRUCTURE OF ATRATOXIN-B, ONE SHORT-CHAIN NEUROTOXIN FROM NAJA ATRA
1XT3	A:1-60; B:1-60	STRUCTURE BASIS OF VENOM CITRATE-DEPENDENT HEPARIN SULFATE-MEDIATED CELL SURFACE RETENTION OF COBRA CARDIOTOXIN A3
2BHI	A:1-60; B:1-60	CRYSTAL STRUCTURE OF TAIWAN COBRA CARDIOTOXIN A3 COMPLEXED WITH SULFOGALACTOCERAMIDE
2CDX	A:1-60	STRUCTURE OF COBRA CARDIOTOXIN CTXI AS DERIVED FROM NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY AND DISTANCE GEOMETRY CALCULATIONS
2CRS	A:1-60	CARDIOTOXIN III FROM TAIWAN COBRA (NAJA NAJA ATRA) DETERMINATION OF STRUCTURE IN SOLUTION AND COMPARISON WITH SHORT NEUROTOXINS
2CRT	A:1-60	CARDIOTOXIN III FROM TAIWAN COBRA (NAJA NAJA ATRA) DETERMINATION OF STRUCTURE IN SOLUTION AND COMPARISON WITH SHORT NEUROTOXINS

Eastern green mamba (Dendroaspis angusticeps) (3)

1FAS	A:1-61	1.9 ANGSTROM RESOLUTION STRUCTURE OF FASCICULIN 1, AN ANTI-ACETYLCHOLINESTERASE TOXIN FROM GREEN MAMBA SNAKE VENOM
1FF4	A:1-65	X-RAY STRUCTURE OF MUSCARINIC TOXIN 2 AT 1.5 ANGSTROM RESOLUTION
1FSC	A:1-61	CRYSTAL STRUCTURE OF FASCICULIN 2 FROM GREEN MAMBA SNAKE VENOM: EVIDENCE FOR UNUSUAL LOOP FLEXIBILITY

Eastern jameson's mamba (Dendroaspis jamesoni kaimosae) (1)

1DRS

A:1-59

THREE-DIMENSIONAL STRUCTURE OF THE RGD-CONTAINING NEUROTOXIN HOMOLOGUE, DENDROASPIN

Homo sapiens. (1)

2K3G

A:28-129

NMR STRUCTURE ANALYSIS OF A BMP RECEPTOR

House mouse (Mus musculus) (4)

1BTE	A:7-102; B:7-100	CRYSTAL STRUCTURE OF THE EXTRACELLULAR DOMAIN OF THE TYPE II ACTIVIN RECEPTOR
1KU6	B:1-61	FASCICULIN 2-MOUSE ACETYLCHOLINESTERASE COMPLEX
1MAH	F:1-61	FASCICULIN2-MOUSE ACETYLCHOLINESTERASE COMPLEX
1S4Y	A:5-95; C:4-98	CRYSTAL STRUCTURE OF THE ACTIVIN/ACTRIIB EXTRACELLULAR DOMAIN

Human (Homo sapiens) (26)

1B41	B:1-61	HUMAN ACETYLCHOLINESTERASE COMPLEXED WITH FASCICULIN-II, GLYCOSYLATED PROTEIN
1CDQ	A:1-77	STRUCTURE OF A SOLUBLE, GLYCOSYLATED FORM OF THE HUMAN COMPLEMENT REGULATORY PROTEIN CD59
1CDR	A:1-77	STRUCTURE OF A SOLUBLE, GLYCOSYLATED FORM OF THE HUMAN COMPLEMENT REGULATORY PROTEIN CD59
1CDS	A:1-77	STRUCTURE OF A SOLUBLE, GLYCOSYLATED FORM OF THE HUMAN COMPLEMENT REGULATORY PROTEIN CD59
1ERG	A:1-70	THREE-DIMENSIONAL SOLUTION STRUCTURE OF THE EXTRACELLULAR REGION OF THE COMPLEMENT REGULATORY PROTEIN, CD59, A NEW CELL SURFACE PROTEIN DOMAIN RELATED TO NEUROTOXINS
1ES7	B:232-317; D:732-820	COMPLEX BETWEEN BMP-2 AND TWO BMP RECEPTOR IA ECTODOMAINS
1F8U	B:1-61	CRYSTAL STRUCTURE OF MUTANT E202Q OF HUMAN ACETYLCHOLINESTERASE COMPLEXED WITH GREEN MAMBA VENOM PEPTIDE FASCICULIN-II
1KTZ	B:25-130	CRYSTAL STRUCTURE OF THE HUMAN TGF-BETA TYPE II RECEPTOR EXTRACELLULAR DOMAIN IN COMPLEX WITH TGF-BETA3
1LX5	B:7-100	CRYSTAL STRUCTURE OF THE BMP7/ACTRII EXTRACELLULAR DOMAIN COMPLEX
1M9Z	A:26-130	CRYSTAL STRUCTURE OF HUMAN TGF-BETA TYPE II RECEPTOR LIGAND BINDING DOMAIN
1PLO	A:15-136	TRANSFORMING GROWTH FACTOR-BETA TYPE II RECEPTOR EXTRACELLULAR DOMAIN
1REW	C:32-117; D:32-120	STRUCTURAL REFINEMENT OF THE COMPLEX OF BONE MORPHOGENETIC PROTEIN 2 AND ITS TYPE IA RECEPTOR
2GOO	B:34-118; E:33-120; C:8-99; F:7-99	TERNARY COMPLEX OF BMP-2 BOUND TO BMPR-IA-ECD AND ACTRII-ECD
2H62	C:34-117; D:6-98	CRYSTAL STRUCTURE OF A TERNARY LIGAND-RECEPTOR COMPLEX OF BMP-2
2H64	B:32-123; C:6-99	CRYSTAL STRUCTURE OF A TERNARY LIGAND-RECEPTOR COMPLEX OF BMP-2
2J8B	A:0-77	HIGH RESOLUTION STRUCTURE OF HUMAN CD59
2OFS	A:0-74	CRYSTAL STRUCTURE OF HUMAN CD59
2PJY	B:19-126; C:9-87	STRUCTURAL BASIS FOR COOPERATIVE ASSEMBLY OF THE TGF-BETA SIGNALING COMPLEX
2QJ9	C:32-117; D:32-124	CRYSTAL STRUCTURE ANALYSIS OF BMP-2 IN COMPLEX WITH BMPR-IA VARIANT B1
2QJA	C:32-116; D:31-123	CRYSTAL STRUCTURE ANALYSIS OF BMP-2 IN COMPLEX WITH BMPR-IA VARIANT B12
2QJB	C:32-116; D:32-121	CRYSTAL STRUCTURE ANALYSIS OF BMP-2 IN COMPLEX WITH BMPR-IA VARIANT IA/IB
2UWR	A:0-78	HIGH RESOLUTION STRUCTURE OF HUMAN CD59
2UX2	A:0-77; B:0-77; C:0-77	HIGH RESOLUTION STRUCTURE OF HUMAN CD59
2X8B	B:1-61	CRYSTAL STRUCTURE OF HUMAN ACETYLCHOLINESTERASE INHIBITED BY AGED TABUN AND COMPLEXED WITH FASCICULIN-II
3EVS	C:16-100	CRYSTAL STRUCTURE OF THE GDF-5:BMP RECEPTOR IB COMPLEX.
3KFD	F:21-126; H:21-126; E:21-128; G:20-128; J:9-84; L:9-84; I:9-85; K:9-85	TERNARY COMPLEX OF TGF-B1 REVEALS ISOFORM-SPECIFIC LIGAND RECOGNITION AND RECEPTOR RECRUITMENT IN THE SUPERFAMILY

Indian cobra (Naja naja) (1)

2CTX

A:1-71

THE REFINED CRYSTAL STRUCTURE OF ALPHA-COBRATOXIN FROM NAJA NAJA SIAMENSIS AT 2.4-ANGSTROMS RESOLUTION

King cobra (Ophiophagus hannah) (3)

1TXA	A:1-73	SOLUTION NMR STRUCTURE OF TOXIN B, A LONG NEUROTOXIN FROM THE VENOM OF THE KING COBRA, MINIMIZED AVERAGE STRUCTURE
1TXB	A:1-73	SOLUTION NMR STRUCTURE OF TOXIN B, A LONG NEUROTOXIN FROM THE VENOM OF THE KING COBRA, 10 STRUCTURES
3HH7	A:1-65; B:1-65	STRUCTURAL AND FUNCTIONAL CHARACTERIZATION OF A NOVEL HOMODIMERIC THREE-FINGER NEUROTOXIN FROM THE VENOM OF OPHIOPHAGUS HANNAH (KING COBRA)

Many-banded krait (Bungarus multicinctus) (24)

1BXP	A:1-74	SOLUTION NMR STRUCTURE OF THE COMPLEX OF ALPHA-BUNGAROTOXIN WITH A LIBRARY DERIVED PEPTIDE, 20 STRUCTURES
1HAA	A:1-74	A BETA-HAIRPIN STRUCTURE IN A 13-MER PEPTIDE THAT BINDS A-BUNGAROTOXIN WITH HIGH AFFINITY AND NEUTRALIZES ITS TOXICITY
1HAJ	A:1-74	A BETA-HAIRPIN STRUCTURE IN A 13-MER PEPTIDE THAT BINDS A-BUNGAROTOXIN WITH HIGH AFFINITY AND NEUTRALIZES ITS TOXICITY
1HC9	A:1-74; B:1-74	ALPHA-BUNGAROTOXIN COMPLEXED WITH HIGH AFFINITY PEPTIDE
1HOY	A:1-74	NMR STRUCTURE OF THE COMPLEX BETWEEN A-BUNGAROTOXIN AND A MIMOTOPE OF THE NICOTINIC ACETILCHOLINE RECEPTOR
1IDG	A:1-74	THE NMR SOLUTION STRUCTURE OF THE COMPLEX FORMED BETWEEN ALPHA-BUNGAROTOXIN AND AN 18MER COGNATE PEPTIDE
1IDH	A:1-74	THE NMR SOLUTION STRUCTURE OF THE COMPLEX FORMED BETWEEN ALPHA-BUNGAROTOXIN AND AN 18MER COGNATE PEPTIDE
1IDI	A:1-74	THE NMR SOLUTION STRUCTURE OF ALPHA-BUNGAROTOXIN
1IDL	A:1-74	THE NMR SOLUTION STRUCTURE OF ALPHA-BUNGAROTOXIN
1IK8	A:1-74	NMR STRUCTURE OF ALPHA-BUNGAROTOXIN
1IKC	A:1-74	NMR STRUCTURE OF ALPHA-BUNGAROTOXIN
1JBD	A:1-74	NMR STRUCTURE OF THE COMPLEX BETWEEN ALPHA-BUNGAROTOXIN AND A MIMOTOPE OF THE NICOTINIC ACETILCHOLINE RECEPTOR
1KBA	A:1-66; B:1-66	CRYSTAL STRUCTURE OF KAPPA-BUNGAROTOXIN AT 2.3-ANGSTROM RESOLUTION
1KC4	A:1-74	NMR STRUCTURAL ANALYSIS OF THE COMPLEX FORMED BETWEEN ALPHA-BUNGAROTOXIN AND THE PRINCIPAL ALPHA-NEUROTOXIN BINDING SEQUENCE ON THE ALPHA7 SUBUNIT OF A NEURONAL NICOTINIC ACETYLCHOLINE RECEPTOR
1KFH	A:1-74	SOLUTION STRUCTURE OF ALPHA-BUNGAROTOXIN BY NMR SPECTROSCOPY
1KL8	A:1-74	NMR STRUCTURAL ANALYSIS OF THE COMPLEX FORMED BETWEEN ALPHA-BUNGAROTOXIN AND THE PRINCIPAL ALPHA-NEUROTOXIN BINDING SEQUENCE ON THE ALPHA7 SUBUNIT OF A NEURONAL NICOTINIC ACETYLCHOLINE RECEPTOR
1L4W	A:1-74	NMR STRUCTURE OF AN ACHR-PEPTIDE (TORPEDO CALIFORNICA, ALPHA-SUBUNIT RESIDUES 182-202) IN COMPLEX WITH ALPHA-BUNGAROTOXIN
1LJZ	A:1-74	NMR STRUCTURE OF AN ACHR-PEPTIDE (TORPEDO CALIFORNICA, ALPHA-SUBUNIT RESIDUES 182-202) IN COMPLEX WITH ALPHA-BUNGAROTOXIN
1MR6	A:1-68	SOLUTION STRUCTURE OF GAMMA-BUNGAROTOXIN:IMPLICATION FOR THE ROLE OF THE RESIDUES ADJACENT TO RGD IN INTEGRIN BINDING
1RGJ	A:1-74	NMR STRUCTURE OF THE COMPLEX BETWEEN ALPHA-BUNGAROTOXIN AND MIMOTOPE OF THE NICOTINIC ACETILCHOLINE RECEPTOR WITH ENHANCED ACTIVITY
2ABX	A:1-74; B:1-74	THE CRYSTAL STRUCTURE OF ALPHA-BUNGAROTOXIN AT 2.5 ANGSTROMS RESOLUTION. RELATION TO SOLUTION STRUCTURE AND BINDING TO ACETYLCHOLINE RECEPTOR
2BTX	A:1-74	SOLUTION NMR STRUCTURE OF THE COMPLEX OF ALPHA-BUNGAROTOXIN WITH A LIBRARY DERIVED PEPTIDE, NMR, MINIMIZED AVERAGE STRUCTURE
2NBT	A:1-66; B:1-66	NEURONAL BUNGAROTOXIN, NMR, 10 STRUCTURES
2QC1	A:1-74	CRYSTAL STRUCTURE OF THE EXTRACELLULAR DOMAIN OF THE NICOTINIC ACETYLCHOLINE RECEPTOR 1 SUBUNIT BOUND TO ALPHA-BUNGAROTOXIN AT 1.9 A RESOLUTION

Monocled cobra (Naja kaouthia) (4)

1G6M	A:1-62	NMR SOLUTION STRUCTURE OF CBT2
1JE9	A:1-61	NMR SOLUTION STRUCTURE OF NT2
1LXG	A:1-71	SOLUTION STRUCTURE OF ALPHA-COBRATOXIN COMPLEXED WITH A COGNATE PEPTIDE (STRUCTURE ENSEMBLE)
1LXH	A:1-71	SOLUTION STRUCTURE OF ALPHA-COBRATOXIN COMPLEXED WITH A COGNATE PEPTIDE (MINIMIZED AVERAGE STRUCTURE)

Mozambique cobra (Naja mossambica) (2)

1CDT	A:1-60; B:1-60	CARDIOTOXIN V4/II FROM NAJA MOSSAMBICA MOSSAMBICA: THE REFINED CRYSTAL STRUCTURE
2CCX	A:1-60	DETERMINATION OF THE NUCLEAR MAGNETIC RESONANCE SOLUTION STRUCTURE OF CARDIOTOXIN CTX IIB FROM NAJA MOSSAMBICA MOSSAMBICA

Naja siamensis. Organism_taxid: 84476 (1)

1CTX

A:1-71

THREE-DIMENSIONAL STRUCTURE OF THE-LONG-NEUROTOXIN FROM COBRA VENOM

Norway rat (Rattus norvegicus) (2)

1NYS	A:25-117; C:25-116	CRYSTAL STRUCTURE OF ACTIVIN A BOUND TO THE ECD OF ACTRIIB P41
1NYU	C:26-118; A:26-118	CRYSTAL STRUCTURE OF ACTIVIN A BOUND TO THE ECD OF ACTRIIB

Pacific electric ray (Torpedo californica) (1)

1FSS

B:1-61

ACETYLCHOLINESTERASE (E.C. 3.1.1.7) COMPLEXED WITH FASCICULIN-II

Spitting cobra (Naja nigricollis) (5)

1CXN	A:1-60	REFINED THREE-DIMENSIONAL SOLUTION STRUCTURE OF A SNAKE CARDIOTOXIN: ANALYSIS OF THE SIDE-CHAIN ORGANISATION SUGGESTS THE EXISTENCE OF A POSSIBLE PHOSPHOLIPID BINDING SITE
1CXO	A:1-60	REFINED THREE-DIMENSIONAL SOLUTION STRUCTURE OF A SNAKE CARDIOTOXIN: ANALYSIS OF THE SIDE-CHAIN ORGANISATION SUGGESTS THE EXISTENCE OF A POSSIBLE PHOSPHOLIPID BINDING SITE
1IQ9	A:1-61	CRYSTAL STRUCTURE AT 1.8 A OF TOXIN A FROM NAJA NIGRICOLLIS VENOM
1NEA	A:1-61	THREE-DIMENSIONAL SOLUTION STRUCTURE OF A CURAREMIMETIC TOXIN FROM NAJA NIGRICOLLIS VENOM: A PROTON NMR AND MOLECULAR MODELING STUDY
1TGX	A:1-60; B:1-60; C:1-60	X-RAY STRUCTURE AT 1.55 A OF TOXIN GAMMA, A CARDIOTOXIN FROM NAJA NIGRICOLLIS VENOM. CRYSTAL PACKING REVEALS A MODEL FOR INSERTION INTO MEMBRANES