0000000000435291

AUTHOR

F. Xavier Gomis-rüth

showing 6 related works from this author

The C-terminal region of human plasma fetuin-B is dispensable for the raised-elephant-trunk mechanism of inhibition of astacin metallopeptidases

2019

© The Author(s) 2019.

0301 basic medicineProteasesProtein Conformationlcsh:MedicineAstacoideaCrystallography X-RayCleavage (embryo)Protein Structure SecondaryArticleMice03 medical and health sciencesScissile bondHydrolaseAnimalsHumansAmino Acid Sequencelcsh:ScienceProtein secondary structureX-ray crystallographyBinding SitesMultidisciplinary030102 biochemistry & molecular biologyChemistrylcsh:RMetalloendopeptidasesProteasesFetuinFetuin-BCell biologyZincFertility030104 developmental biologyProteolysisMetalloproteaseslcsh:QAstacinLinkerScientific Reports
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Proenzyme Structure and Activation of Astacin Metallopeptidase

2010

Proteolysis is regulated by inactive (latent) zymogens, with a prosegment preventing access of substrates to the active-site cleft of the enzyme. How latency is maintained often depends on the catalytic mechanism of the protease. For example, in several families of the metzincin metallopeptidases, a >cysteine switch> mechanism involves a conserved prosegment motif with a cysteine residue that coordinates the catalytic zinc ion. Another family of metzincins, the astacins, do not possess a cysteine switch, so latency is maintained by other means. We have solved the high resolution crystal structure of proastacin from the European crayfish, Astacus astacus. Its prosegment is the shortest struc…

MetallopeptidaseStereochemistrymedicine.medical_treatmentAmino Acid MotifsAstacoideaMatrix metalloproteinaseBiochemistryCatalysis03 medical and health sciencesStructure-Activity RelationshipHydrolasemedicineAnimalsMolecular Biology030304 developmental biology0303 health sciencesMetalloproteinaseEnzyme PrecursorsProteaseChemistry030302 biochemistry & molecular biologyMetalloendopeptidasesHydrogen BondingCell BiologyEnzyme structureProtein Structure TertiaryZincProtein Structure and FoldingAstacinCysteineJournal of Biological Chemistry
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Astacins: proteases in development and tissue differentiation

2013

Capítulo en: Stöker, Walter; Brix, Klaudia (eds.). Proteases: structure and function. Wien: Springer, 2013

GastrulationProteasesanimal structuresOntogenyExtracellular matrix assemblyembryonic structuresBiophysicsAstacinBiologyBlastulaPolyspermyEmbryonic stem cellCell biology
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Functional and structural insights into astacin metallopeptidases

2012

The astacins are a family of multi-domain metallopeptidases with manifold functions in metabolism. They are either secreted or membrane-anchored and are regulated by being synthesized as inactive zymogens and also by colocalizing protein inhibitors. The distinct family members consist of N-terminal signal peptides and pro-segments, zincdependent catalytic domains, further downstream extracellular domains, transmembrane anchors, and cytosolic domains. The catalytic domains of four astacins and the zymogen of one of these have been structurally characterized and shown to comprise compact ~200-residue zinc-dependent moieties divided into an N-terminal and a C-terminal sub-domain by an active-s…

MetzincinSignal peptideStereochemistryMolecular Sequence DataClinical BiochemistryTolloidMatrix metalloproteinaseBiologyBiochemistryEvolution Molecular03 medical and health sciencesEnzyme activatorBone morphogenetic proteinsZymogenAnimalsHumansProtease InhibitorsAmino Acid SequenceTyrosineMolecular BiologyPeptide sequence030304 developmental biologyEnzyme Precursors0303 health sciences030302 biochemistry & molecular biologyMetalloendopeptidasesMeprinTransmembrane protein3. Good healthEnzyme ActivationBiochemistryAstacinCatalytic domainsbchm
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The crystal structure of a 250-kDa heterotetrameric particle explains inhibition of sheddase meprin β by endogenous fetuin-B

2021

Meprin β (Mβ) is a multidomain type-I membrane metallopeptidase that sheds membrane-anchored substrates, releasing their soluble forms. Fetuin-B (FB) is its only known endogenous protein inhibitor. Herein, we analyzed the interaction between the ectodomain of Mβ (MβΔC) and FB, which stabilizes the enzyme and inhibits it with subnanomolar affinity. The MβΔC:FB crystal structure reveals a ∼250-kDa, ∼160-Å polyglycosylated heterotetrameric particle with a remarkable glycan structure. Two FB moieties insert like wedges through a “CPDCP trunk” and two hairpins into the respective peptidase catalytic domains, blocking the catalytic zinc ions through an “aspartate switch” mechanism. Uniquely, the …

Multiprotein complexMetallopeptidaseCleavage (embryo)Cell LineMiceProtein structureAnimalsHumansEctoprotein sheddingProtease InhibitorsInhibitionBinding SitesMultidisciplinarybiologyChemistryMetallopeptidaseMetalloendopeptidasesActive siteBiological SciencesSheddaseFetuin-BLepidopteraMolecular Docking SimulationTransmembrane domainEctodomainbiology.proteinBiophysicsProtein structureMultiprotein complexAlzheimer’s diseaseProtein Binding
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Structure of mammalian plasma fetuin-B and its mechanism of selective metallopeptidase inhibition

2018

The co-crystal structure of the metallopeptidase astacin with its specific protein inhibitor fetuin-B reveals a novel mechanism of inhibition.

Crystallographymammalian fertilizationmetallopeptidaseResearch Papersstructure determination570 Life sciencesenzyme mechanismsprotein inhibitorQD901-999multi-protein complexessperm–egg fusionpolyspermyprotein structureX-ray crystallography570 Biowissenschaften
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