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5NAY

Crystal structures of homooligomers of collagen type IV. alpha1NC1

Summary for 5NAY
Entry DOI10.2210/pdb5nay/pdb
DescriptorCollagen alpha-1(IV) chain, CHLORIDE ION, SULFATE ION, ... (4 entities in total)
Functional Keywordsnon-collagenous domain of collagen type iv. a principal structural component of basement membranes, structural protein
Biological sourceHomo sapiens (Human)
Total number of polymer chains6
Total formula weight153335.17
Authors
Casino, P.,Marina, A. (deposition date: 2017-02-28, release date: 2018-09-12, Last modification date: 2024-01-17)
Primary citationCasino, P.,Gozalbo-Rovira, R.,Rodriguez-Diaz, J.,Banerjee, S.,Boutaud, A.,Rubio, V.,Hudson, B.G.,Saus, J.,Cervera, J.,Marina, A.
Structures of collagen IV globular domains: insight into associated pathologies, folding and network assembly.
IUCrJ, 5:765-779, 2018
Cited by
PubMed Abstract: Basement membranes are extracellular structures of epithelia and endothelia that have collagen IV scaffolds of triple α-chain helical protomers that associate end-to-end, forming networks. The molecular mechanisms by which the noncollagenous C-terminal domains of α-chains direct the selection and assembly of the α1α2α1 and α3α4α5 hetero-oligomers found remain obscure. Autoantibodies against the noncollagenous domains of the α3α4α5 hexamer or mutations therein cause Goodpasture's or Alport's syndromes, respectively. To gain further insight into oligomer-assembly mechanisms as well as into Goodpasture's and Alport's syndromes, crystal structures of non-collagenous domains produced by recombinant methods were determined. The spontaneous formation of canonical homohexamers (dimers of trimers) of these domains of the α1, α3 and α5 chains was shown and the components of the Goodpasture's disease epitopes were viewed. Crystal structures of the α2 and α4 non-collagenous domains generated by recombinant methods were also determined. These domains spontaneously form homo-oligomers that deviate from the canonical architectures since they have a higher number of subunits (dimers of tetramers and of hexamers, respectively). Six flexible structural motifs largely explain the architectural variations. These findings provide insight into noncollagenous domain folding, while supporting the operation of extrinsic mechanisms for restricting the self-assembly of noncollagenous domains. Intriguingly, Alport's syndrome missense mutations concentrate within the core that nucleates the folding of the noncollagenous domain, suggesting that this syndrome, when owing to missense changes, is a folding disorder that is potentially amenable to pharmacochaperone therapy.
PubMed: 30443360
DOI: 10.1107/S2052252518012459
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (1.8 Å)
Structure validation

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건을2024-10-30부터공개중

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