OCA Atlas for 1ACC

1ACC

Toxin

date

Feb 05, 1997

title

Anthrax Protective Antigen

authors

C.Petosa, R.C.Liddington

compound

source

Molecule: Anthrax Protective Antigen
Chain: Null
Synonym: Pa

Organism_scientific: Bacillus Anthracis
Organism_common: Anthrax Bacillus
Cellular_location: Secreted
Plasmid: Pxo1
Gene: Pag

symmetry

Space Group: P 21 21 21

R_factor

0.223

crystal
cell

length a	length b	length c	angle alpha	angle beta	angle gamma
99.300	93.700	82.000	90.00	90.00	90.00

method

X-Ray Diffraction

resolution

2.1 Å

ligand

enzyme

note

1ACC (Molecule of the Month:pdb28)is a representative structure

domain

Domain 4 appears to be a separate domain and shows limited contact with the other three domains: it would swing out of the way during membrane insertion. The subdomain 1b is part of the remaining 63-kda fragment (pa63) and contains the binding sites for lp and ef. Domain 2 is a beta-barrel core containing a large flexible loop that has been implicated in membrane insertion and pore formation. There is a chymotrypsin cleavage site in this loop that is required for toxicity. The molecule is folded into four functional domains. It is required for binding to the receptor; the small loop is involved in receptor recognition. Cleavage of the pa monomer releases the subdomain 1a, which is the n-terminal fragment of 20-kda (pa20). Domain 1 contains two calcium ions and the proteolytic activation site. Each domain is required for a particular step in the toxicity process. Domain 3 has a hydrophobic patch thought to be involved in protein-protein interactions.

similarity

Belongs to the bacterial binary toxin family.[PA14]

subunit

Pa-63 forms heptamers and this oligomerization is required for lf or ef binding. Anthrax toxins are composed of three distinct proteins, a protective antigen (pa), a lethal factor (lf) and an edema factor (ef). This complex is endocytosed by the host. Once activated, at low ph, the heptamer undergoes conformational changes and converts from prepore to pore inserted in the membrane, forming cation-selective channels and triggering the release of lf and ef in the host cytoplasm. None of these is toxic by itself. Pa+lf forms the lethal toxin (letx); pa+ef forms the edema toxin (edtx).

post-translat. modifications

The release of pa20 from the remaining receptor-bound pa63 exposes the binding site for ef and lf, and promotes oligomerization and internalization of the protein. Proteolytic activation by furin or a furin-like protease cleaves the protein in two parts, pa-20 and pa-63; the latter is the mature protein. The cleavage occurs at the cell surface and probably in the serum of infected animals as well; both native and cleaved pa are able to bind to the cell receptor.

subcellular loc.

Therefore, pa is translocated across the membrane in an unfolded state and then it is folded into its native configuration on the trans side of the membrane, prior to its release to the environment. Secreted through the sec-dependent secretion pathway. Pa requires the extracellular chaperone prsa for efficient folding.

genes

BXA0164, GBAA (B. anthracis)

function

Pa associated with lf causes death when injected, pa associated with ef produces edema. One of the three proteins composing the anthrax toxin, the agent which infects many mammalian species and that may cause death. Pa induces immunity to infection with anthrax. Pa binds to a receptor (atr) in sensitive eukaryotic cells, thereby facilitating the translocation of the enzymatic toxin components, edema factor and lethal factor, across the target cell membrane.

Gene
Ontology

Chain	Function	Process	Component
A	calcium ion binding protein binding metal ion binding	pathogenesis	extracellular region

Primary reference

Crystal structure of the anthrax toxin protective antigen., Petosa C, Collier RJ, Klimpel KR, Leppla SH, Liddington RC, Nature 1997 Feb 27;385(6619):833-8. PMID:9039918

Data retrieval

Asymmetric unit, PDB entry: [header only] [complete with coordinates] (129 Kb) [Save to disk]

Biological Unit Coordinates (1acc.pdb1.gz) 115 Kb

CSU: Contacts of Structural Units for 1ACC

Likely Quarternary Molecular Structure file(s) for 1ACC

Structure Factors (370 Kb)

Retrieve 1ACC in mmCIF format [Save to disk]

View 1ACC in 3D

On Jmol, a nice Rasmol like molecule viewer. This is good for easiest viewing of basic structure.

On FirstGlance, an excellent tool for a guided tour on the structure components, by E. Martz.

On AstexViewer, from MSD-EBI (viewer documentation).

On RasMol (Install RasMol freeware) Here's help on how to use RasMol.

Visual 3D analysis of 1ACC

Protein Explorer, Easier to use and more powerful than RasMol. (Win and Mac only)

Noncovalent Bond Finder displays the closest contacts to ligand or interface, reports distances, walks over water bridges.

STING, shows the sequence and maps the locations of sequence residues or residue ranges onto the 3D structure.

GRASS (Graphical Representation and Analysis of Structure Server)

Cartoon representation from PDB Cartoon

Ramachandran plot from PDBSum

Structure-derived information

Electron Density related parameters from EDS Electron Density Server, at Upsala

Dipole moment, from Dipole Server at Weizmann Institute

Crystal Contacts, from CryCo at Weizmann Institute

3D motif for 1ACC, from MSDmotif at EBI

Classification of representative domains in scop (Structural Classification of Proteins)
- Domain d1acc__, region [Jmol] [rasmolscript] [script source]

Fold representative 1acc from FSSP and Dali (Families of Structurally Similar Proteins)

Class (fold), Architecture (subfold), Topology, Homologous superfamily from CATH

Summaries and structural analyses of PDB data files from PDBSum

Identification of Protein Pockets & Cavities at CASTp

Sequence-derived information

View one-letter amino acid or nucleotide sequence for each chain: [1acc_]

Other resources with information on 1ACC

InterPro: IPR003896 , IPR011658

PDBREPORT (protein verification by WHAT_CHECK procedures)

MMDB (Entrez's Structure Database)

Movements, Movies and Images

Images from IMB Jena Image Library of Biological Macromolecules.

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