The Structure of a Functional Unit from the Wall of a Gastropod Hemocyanin Offers a Possible Mechanism for Cooperativity<sup>,</sup>

Perbandt, Markus; Guthöhrlein, Eckhart W.; Rypniewski, W.; Idakieva, Krassimira; Stoeva, Stanka; Voelter, Wolfgang; Genov, Nicolay; Betzel, Christian

doi:10.1021/bi020672x

Cited by 78 publications

(88 citation statements)

References 31 publications

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“…As type 3 copper proteins and their active sites are embedded in a four a-helix bundle with six histidine residues, which coordinate two copper atoms (4)(5)(6)(7)(8). Between them one molecule oxygen is reversibly bound in side-on (l-g 2 :g 2 ) coordination (4,7,9,10).…”

Section: Introductionmentioning

confidence: 99%

“…Crystal structures of molluscan hemocyanin FUs representing different topological positions in the quaternary structure (wall, inner collar, outer collar) are available (4)(5)(6)(7)(8). The standard molluscan hemocyanin FU (FU-a to FU-f) folds into two domains.…”

Section: Introductionmentioning

confidence: 99%

“…1). The N-terminal core domain (KLH1-h-D1) contains the type 3 copper active site as in other known FU structures (4,8). The central domain (KLH1-h-D2) is equivalent to the Cterminal domain of other FUs (FU-a to FU-g) and contains a bsandwich as its main structural element.…”

Section: Introductionmentioning

confidence: 99%

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The refined structure of functional unit h of keyhole limpet hemocyanin (KLH1‐h) reveals disulfide bridges

et al. 2011

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Hemocyanins are multimeric oxygen‐transport proteins in the hemolymph of many arthropods and mollusks. The overall molecular architecture of arthropod and molluscan hemocyanin is very different, although they possess a similar binuclear type 3 copper center to bind oxygen in a side‐on conformation. Gastropod hemocyanin is a 35 nm cylindrical didecamer (2 × 10‐mer) based on a 400 kDa subunit. The latter is subdivided into eight paralogous “functional units” (FU‐a to FU‐h), each with an active site. FU‐a to FU‐f contribute to the cylinder wall, whereas FU‐g and FU‐h form the internal collar complex. Atomic structures of FU‐e and FU‐g, and a 9 Å cryoEM structure of the 8 MDa didecamer are available. Recently, the structure of keyhole limpet hemocyanin FU‐h (KLH1‐h) was presented as a Cα‐trace at 4 Å resolution. Unlike the other seven FU types, FU‐h contains an additional C‐terminal domain with a cupredoxin‐like fold. Because of the resolution limit of 4 Å, in some loops, the course of the protein backbone could not be established with high certainty yet. Here, we present a refined atomic structure of FU‐h (KLH1‐h) obtained from low‐resolution refinement, which unambiguously establishes the course of the polypeptide backbone and reveals the disulfide bridges as well as the orientation of bulky amino acids. © 2011 IUBMB IUBMB Life, 63(3): 183–187, 2011

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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The refined structure of functional unit h of keyhole limpet hemocyanin (KLH1‐h) reveals disulfide bridges

et al. 2011

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“…new hc has been isolated and purified from the hemolymph of this marine gastropod using ultracentrifugation and column chromatography (6). Rapana thomasiana hemocyanin (Rth) has been structurally well characterized (2,3,6,7,8,9,10,12,14,15,16). Recently, we demonstrated the high immunogenicity of Rth as a model antigen and also its properties as a strong protein carrier for viral peptides from Influenza hemagglutinin (17).…”

Section: Introductionmentioning

confidence: 99%

Purification of Hemocyanin from Marine GastropodRapana Thomasianausing Ammonium Sulfate Precipitation Method

Ivanova

Tchorbanov

2009

Biotechnology & Biotechnological Equipment

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“…Each FU binds one molecule of oxygen (1,16,17). Based on x-ray structures of FU-g from the octopus O. dofleini (1) and FU-e from Rapana thomasiana (18), a FU contains two subdomains with different folding motifs, a N-terminal ␣-helical part containing the oxygen binding center and a C-terminal ␤-rich part (1,17,18). Depending on the species, covalently bound carbohydrates are located at the interface between the two subdomains (1) or at the N-terminal domain (18).…”

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confidence: 99%

Small-angle X-ray Scattering-based Three-dimensional Reconstruction of the Immunogen KLH1 Reveals Different Oxygen-dependent Conformations

Hartmann

Bongers

Decker

2004

Journal of Biological Chemistry

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For decades the respiratory protein keyhole limpet hemocyanin (KLH1) from the marine gastropod Megathura crenulata has been used widely as a potent immunostimulant, useful hapten carrier, and valuable agent in the treatment of bladder carcinoma. Although much information on the immunological properties of KLH1 is available, biochemical and structural data are still incomplete. Small-angle x-ray scattering revealed the existence of two conformations, an oxy state being slightly more compact than the deoxy state. Based on small-angle scattering curves, a newly developed Monte Carlo algorithm delivered a surface representation of proteins. The massive changes of the surfaces of reconstructed didecameric KLH1 molecules are explained as a twist of the two non-covalently associated decameric half-molecules. Upon oxygenation, the KLH1 molecule becomes longer and skinnier. This study provides the first real evidence how a molluscan hemocyanin changes conformation during an allosteric transition.

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The Structure of a Functional Unit from the Wall of a Gastropod Hemocyanin Offers a Possible Mechanism for Cooperativity^,

Cited by 78 publications

References 31 publications

The refined structure of functional unit h of keyhole limpet hemocyanin (KLH1‐h) reveals disulfide bridges

The refined structure of functional unit h of keyhole limpet hemocyanin (KLH1‐h) reveals disulfide bridges

Purification of Hemocyanin from Marine GastropodRapana Thomasianausing Ammonium Sulfate Precipitation Method

Small-angle X-ray Scattering-based Three-dimensional Reconstruction of the Immunogen KLH1 Reveals Different Oxygen-dependent Conformations

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The Structure of a Functional Unit from the Wall of a Gastropod Hemocyanin Offers a Possible Mechanism for Cooperativity,

Cited by 78 publications

References 31 publications

The refined structure of functional unit h of keyhole limpet hemocyanin (KLH1‐h) reveals disulfide bridges

The refined structure of functional unit h of keyhole limpet hemocyanin (KLH1‐h) reveals disulfide bridges

Purification of Hemocyanin from Marine GastropodRapana Thomasianausing Ammonium Sulfate Precipitation Method

Small-angle X-ray Scattering-based Three-dimensional Reconstruction of the Immunogen KLH1 Reveals Different Oxygen-dependent Conformations

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The Structure of a Functional Unit from the Wall of a Gastropod Hemocyanin Offers a Possible Mechanism for Cooperativity^,