0000000000201086

AUTHOR

Gérard Alcaraz

showing 23 related works from this author

The skeleton of the staghorn coral Acropora millepora: molecular and structural characterization.

2014

15 pages; International audience; The scleractinian coral Acropora millepora is one of the most studied species from the Great Barrier Reef. This species has been used to understand evolutionary, immune and developmental processes in cnidarians. It has also been subject of several ecological studies in order to elucidate reef responses to environmental changes such as temperature rise and ocean acidification (OA). In these contexts, several nucleic acid resources were made available. When combined to a recent proteomic analysis of the coral skeletal organic matrix (SOM), they enabled the identification of several skeletal matrix proteins, making A. millepora into an emerging model for biomi…

ProteomicsBiomineralizationPhysiologyCoralCell Membraneslcsh:MedicineSpectrum Analysis RamanBiochemistryAcropora milleporaMaterials PhysicsSpectroscopy Fourier Transform Infraredcristallcsh:ScienceMicrostructurecorailAcetic AcidAminationExtracellular Matrix ProteinsMineralsMultidisciplinarybiologyEcologyMonosaccharidesMineralogyAnthozoaBiochemistryprotéineCoralsPhysical SciencesCellular Structures and OrganellesCrystallizationcalciteResearch ArticleMaterials ScienceProtein domainmatrice extracellulaireMarine BiologyBone and BonesCalcium CarbonateAnthozoamonosaccharideAnimals14. Life underwater[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/BiomaterialsIntegrin bindingStaghorn corallcsh:RBiology and Life SciencesProteinsMembrane ProteinsCell Biology[ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/Biomaterialsbiology.organism_classificationTransmembrane ProteinsSolubilityEarth Scienceslcsh:QPhysiological ProcessesGelsFunction (biology)Biomineralization
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The shell organic matrix of the crossed lamellar queen conch shell (Strombus gigas)

2014

10 pages; International audience; In molluscs, the shell organic matrix comprises a large set of biomineral-occluded proteins, glycoproteins and polysaccharides that are secreted by the calcifying mantle epithelium, and are supposed to display several functions related to the synthesis of the shell. In the present paper, we have characterized biochemically the shell matrix associated to the crossed-lamellar structure of the giant queen conch Strombus gigas. The acid-soluble (ASM) and acid-insoluble (AIM) matrices represent an extremely minor fraction of the shell. Both are constituted of polydisperse and of few discrete proteins among which three fractions, obtained by preparative SDS-PAGE …

BiomineralizationPhysiologyGastropodaCarbohydratesMineralogyMannose010402 general chemistry01 natural sciencesBiochemistryCalcium CarbonateConch03 medical and health sciencesMatrix (mathematics)chemistry.chemical_compoundAnimal ShellsShellAnimalsMonosaccharide[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/BiomaterialsMantle (mollusc)Molecular BiologyGlycoproteins030304 developmental biologychemistry.chemical_classification0303 health sciencesbiologyProteinsCrossed-lamellarImmunogold labelling[ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/Biomaterialsbiology.organism_classificationCalcifying matrix0104 chemical sciencesCrystallographyStrombuschemistryMolluscCrystallizationGlycoproteinComparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology
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The Medicago truncatula sucrose transporter family: characterization and implication of key members in carbon partitioning towards arbuscular mycorrh…

2012

We identified de novo sucrose transporter (SUT) genes involved in long-distance transport of sucrose from photosynthetic source leaves towards sink organs in the model leguminous species Medicago truncatula. The iden- tification and functional analysis of sugar transporters provide key information on mechanisms that underlie carbon partitioning in plant-microorganism interactions. In that way, full-length sequences of the M. truncatula SUT (MtSUT) family were retrieved and biochemical characterization of MtSUT members was performed by heterologous expression in yeast. The MtSUT family now comprises six genes which distribute among Dicotyledonous clades. MtSUT1-1 and MtSUT4-1 are key members…

0106 biological sciencesSucrose[SDV]Life Sciences [q-bio]Plant Science01 natural sciencesSIEVE ELEMENTSchemistry.chemical_compoundGene Expression Regulation Plantsucrose transporterMycorrhizaePHLOEMROOTSPlant Proteins2. Zero hungerRegulation of gene expression0303 health sciencesPHOSPHATE TRANSPORTERbiologyfood and beveragesARABIDOPSISSUTMedicago truncatulasugar partitioning[SDE]Environmental Sciencessugar transportGlomus intraradicesEXPRESSIONTOMATO SUGAR TRANSPORTERMolecular Sequence DataGENE FAMILYPhosphates03 medical and health sciencesSymbiosisBotanyMedicago truncatula[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyPLANTSSugarGlomeromycotaSymbiosisGeneMolecular Biology030304 developmental biologyfungiMembrane Transport Proteins15. Life on landbiology.organism_classificationMONOSACCHARIDE TRANSPORTERYeastCarbonchemistryHeterologous expression010606 plant biology & botanyMolecular plant
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Spine and test skeletal matrices of the Mediterranean sea urchinArbacia lixula- a comparative characterization of their sugar signature

2015

15 pages; International audience; Calcified structures of sea urchins are biocomposite materials that comprise a minor fraction of organic macromolecules, such as proteins, glycoproteins and polysaccharides. These macromolecules are thought to collectively regulate mineral deposition during the process of calcification. When occluded, they modify the properties of the mineral. In the present study, the organic matrices (both soluble and insoluble in acetic acid) of spines and tests from the Mediterranean black sea urchin Arbacia lixula were extracted and characterized, in order to determine whether they exhibit similar biochemical signatures. Bulk characterizations were performed by mono-di…

echinoidPolysaccharideBiochemistryMineralization (biology)Calcium Carbonate[SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]Spectroscopy Fourier Transform InfraredMediterranean SeaAnimalsMonosaccharide[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/BiomaterialsMolecular BiologyArbacia lixulaPolyacrylamide gel electrophoresisorganic matrixArbaciachemistry.chemical_classificationsaccharideArbaciabiologyLectinlectin assayCell Biology[ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/Biomaterialsbiomineralizationbiology.organism_classificationchemistryBiochemistry[ SDV.BBM.GTP ] Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]AgglutininsSea UrchinsMicroscopy Electron Scanningbiology.proteinElectrophoresis Polyacrylamide GelBiomineralizationFEBS Journal
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Proteoglycan occurrence in gastrolith of the crayfish Cherax quadricarinatus (Malacostraca: Decapoda).

2012

14 pages; International audience; Biomineralized structures are hybrid composites formed and stabilized by the close interaction of the organic and the inorganic phases. Crayfish are good models for studying biomineralization because they develop, in a molting-mineralization cycle, semi-spherical mineralized structures referred to as gastroliths. The organic matrix of these structures consists of proteins, polysaccharides, and lipids. Chitin is the main polysaccharide and is concentrically arranged as fibrous chitin-protein lamellar structures. Although several proteins and low-molecular weight phosphorylated components have been reported to be involved in gastrolith mineralization, the occ…

Keratan sulfateCheraxAnatomyAquatic ScienceBiologyMatrix (biology)biology.organism_classificationbiomineralization[ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/BiomaterialsMolting cycleAmorphous calcium carbonatecarbohydrates (lipids)chemistry.chemical_compoundBiochemistrychemistryGastrolithProteoglycanglycosaminoglycansCherax quadricarinatusamorphous calcium carbonategastrolithbiology.proteinproteoglycanscalcium storageBiomineralization
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The shell of the invasive bivalve species Dreissena polymorpha: biochemical, elemental and textural Investigations.

2016

28 pages; International audience; The zebra mussel Dreissena polymorpha is a well-established invasive model organism. Although extensively used in environmental sciences, virtually nothing is known of the molecular process of its shell calcification. By describing the microstructure, geochemistry and biochemistry/proteomics of the shell, the present study aims at promoting this species as a model organism in biomineralization studies, in order to establish a bridge with ecotoxicology, while sketching evolutionary conclusions. The shell of D. polymorpha exhibits the classical crossed-lamellar/complex crossed lamellar combination found in several heterodont bivalves, in addition to an extern…

0301 basic medicinelcsh:MedicineInvasive Species010501 environmental sciencesProteomicsEcotoxicology01 natural sciencesBiochemistrychemistry.chemical_compoundDatabase and Informatics MethodsMaterials PhysicsLectinsMusselslcsh:ScienceMicrostructureGel ElectrophoresisStainingMineralsMultidisciplinarybiologyOrganic CompoundsPhysicsMonosaccharidesBiological EvolutionEuropeChemistry[ SDV.BBM.GTP ] Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]Physical SciencesFranceSequence AnalysisResearch ArticleSilver StainingBivalvesMaterials ScienceShell (structure)CarbohydratesSequence DatabasesElectrophoretic StainingResearch and Analysis MethodsDreissenaDreissenaCoomassie Blue staining03 medical and health sciencesElectrophoretic TechniquesSpecies ColonizationAnimal Shells[SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]Botany[SDV.BBM] Life Sciences [q-bio]/Biochemistry Molecular BiologyEcotoxicologyAnimals[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular Biology14. Life underwaterShell calcificationMolecular Biology TechniquesSequencing Techniques[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/BiomaterialsMolecular Biology[ SDV.BBM ] Life Sciences [q-bio]/Biochemistry Molecular Biology0105 earth and related environmental scienceslcsh:ROrganic ChemistryEcology and Environmental SciencesOrganismsChemical CompoundsBiology and Life SciencesProteinsMolluscs[ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/Biomaterialsbiology.organism_classificationInvertebrates030104 developmental biologyCalcium carbonateBiological DatabaseschemistrySpecimen Preparation and TreatmentZebra mussellcsh:QIntroduced SpeciesBiomineralization
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Characterization of the teeth skeletal matrix from Arbacia lixula.

2015

15 pages; International audience

[SDV.IB.BIO] Life Sciences [q-bio]/Bioengineering/Biomaterials[ SDV.BBM.GTP ] Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN][SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN][SDV.BBM.GTP] Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN][ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/Biomaterials[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/BiomaterialsComputingMilieux_MISCELLANEOUS
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Changes in carbohydrate metabolism in Plasmopara viticola-infected grapevine leaves.

2011

International audience; The oomycete Plasmopara viticola is responsible for downy mildew, a severe grapevine disease. In infected grapevine leaves, we have observed an abnormal starch accumulation at the end of the dark period, suggesting modifications in starch metabolism. Therefore, several complementary approaches, including transcriptomic analyses, measurements of enzyme activities, and sugar quantification, were performed in order to investigate and to understand the effects of P. viticola infection on leaf starch and-to a larger extent-carbohydrate metabolism. Our results indicate that starch accumulation is associated with an increase in ADP-glucose pyrophosphorylase (AGPase) activit…

0106 biological sciencesChlorophyllPhysiologyStarchenzymatic activityhexosesbeta-AmylaseplantGlucose-1-Phosphate Adenylyltransferasetranscriptomic analyse01 natural sciencesinvertasechemistry.chemical_compoundphytopathogenGene Expression Regulation PlantVitisTrehalaseOligonucleotide Array Sequence Analysis0303 health sciencesbiologyfood and beveragesStarchGeneral MedicineEnzymesBiochemistryOomycetesRNA PlantPlasmopara viticolaCarbohydrate metabolism03 medical and health sciencesPlasmopara viticolaADP-glucose pyrophosphorylasePolysaccharidesVignecarbohydrate metabolism[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular Biology[ SDV.BBM ] Life Sciences [q-bio]/Biochemistry Molecular Biologytrehalose030304 developmental biologyPlant Diseasesphotosynthesisbiology.organism_classificationtrehalaseTrehaloseEnzyme assayPlant LeavesInvertasechemistryVitis viniferabiology.proteinDowny mildewfungialpha-AmylasesphysiopathologyAgronomy and Crop Science010606 plant biology & botany
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How Plasmopara viticola is able to alter grapevine leaf physiology

2012

National audience

[SDV] Life Sciences [q-bio][SDE] Environmental Sciences[SDV]Life Sciences [q-bio][SDE]Environmental Sciences[SDV.BV]Life Sciences [q-bio]/Vegetal Biology[SDV.BV] Life Sciences [q-bio]/Vegetal BiologyComputingMilieux_MISCELLANEOUS
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Nautilin-63, a novel acidic glycoprotein from the shell nacre of Nautilus macromphalus

2011

In molluscs, and more generally in metazoan organisms, the production of a calcified skeleton is a complex molecular process that is regulated by the secretion of an extracellular organic matrix. This matrix constitutes a cohesive and functional macromolecular assemblage, containing mainly proteins, glycoproteins and polysaccharides that, together, control the biomineral formation. These macromolecules interact with the extruded precursor mineral ions, mainly calcium and bicarbonate, to form complex organo-mineral composites of well-defined microstructures. For several reasons related to its remarkable mechanical properties and to its high value in jewelry, nacre is by far the most studied …

chemistry.chemical_classification0303 health sciences02 engineering and technologyCell BiologyPlasma protein bindingMatrix (biology)Biology021001 nanoscience & nanotechnologyBiochemistryAmino acid03 medical and health scienceschemistry.chemical_compoundchemistryBiochemistryChitin0210 nano-technologyGlycoproteinMolecular BiologyPeptide sequence030304 developmental biologyMacromoleculeBiomineralizationFEBS Journal
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The test skeletal matrix of the black sea urchin Arbacia lixula

2015

11 pages; International audience; In the field of biomineralization, the past decade has been marked by the increasing use of high throughput techniques, i.e. proteomics, for identifying in one shot the protein content of complex macromolecular mixtures extracted from mineralized tissues. Although crowned with success, this approach has been restricted so far to a limited set of key-organisms, such as the purple sea urchin Strongylocentrotus purpuratus, the pearl oyster or the abalone, leaving in the shadow non-model organisms. As a consequence, it is still unknown to what extent the calcifying repertoire varies, from group to group, at high (phylum, class), median (order, family) or low (g…

ProteomicsBiomineralizationSea urchinAbalonePhysiologyMolecular Sequence DataBiologyBiochemistryMass SpectrometryParacentrotus lividusCalcium Carbonate[SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]biology.animalSpectroscopy Fourier Transform InfraredGeneticsAnimalsAmino Acid Sequence14. Life underwaterTaxonomic rank[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/BiomaterialsMolecular BiologySea urchinArbacia lixulaMineralsurogenital systemEcologyPhylumMonosaccharidesArbacioida[ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/Biomaterialsbiology.organism_classificationArbacioida orderStrongylocentrotus purpuratus[ SDV.BBM.GTP ] Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]Evolutionary biologySea Urchinsembryonic structuresMicroscopy Electron ScanningElectrophoresis Polyacrylamide GelOrganic matrixComparative Biochemistry and Physiology Part D: Genomics and Proteomics
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Determination of total ribonucleotide pool in plant materials by high-pH anion-exchange high-performance liquid chromatography following extraction w…

2005

A new, improved method that only requires a potassium hydroxide extraction procedure is presented for the analysis of a full nucleotide pool in plant materials. Quantification was performed by high-pH anion-exchange chromatography (HPAEC) with UV detection after a potassium hydroxide extraction, and allowed the quantification of 13 linear ribonucleotides in a single run. The method has been validated by comparison of six extraction methods and also by measurement of the intracellular nucleotide levels of three plant species (cell cultures and leaves). The evolution of the nucleotide pool of Nicotiana tabacum cell culture during growth has also been measured, and showed an increase in the po…

RibonucleotidePotassium CompoundsNicotiana tabacumIon chromatographyBiochemistryHigh-performance liquid chromatographyAnalytical Chemistrychemistry.chemical_compoundSpecies SpecificityHydroxidesSample preparationAnion Exchange ResinsPotassium hydroxideChromatographybiologyIon exchangeOrganic ChemistryExtraction (chemistry)General MedicineHydrogen-Ion ConcentrationPlantsReference StandardsRibonucleotidesChromatography Ion Exchangebiology.organism_classificationchemistryJournal of Chromatography A
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Shell matrices of recent rhynchonelliform brachiopods: microstructures and glycosylation studies.

2007

ABSTRACTLike most metazoan biomineralisations, the brachiopod shell is the end product of a biologically controlled calcification process. The main agent of the control is the extracellular matrix, which is secreted by the outer mantle epithelium. This matrix mediates the calcification process by allowing crystal nucleation and elongation in specific orientations and finally, by stopping crystal growth. The proteinaceous moiety of brachiopod shell matrices has been extensively studied. Less known are the post-translational modifications that occur in these matrices, in particular glycosylations. In this comparison of five species of Recent articulated brachiopods, the ratio of soluble to in…

Arabinose010506 paleontologyGlycosylationBiologyPolysaccharide01 natural sciencesFucose03 medical and health scienceschemistry.chemical_compoundChitinGlucosamineMonosaccharide[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/BiomaterialsHPAE-PAD030304 developmental biology0105 earth and related environmental sciencesGeneral Environmental Sciencechemistry.chemical_classification0303 health sciencesshell microstructures[ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/BiomaterialschemistryBiochemistrymonosaccharidesSEMGeneral Earth and Planetary SciencesGlycoproteinSDS-PAGE
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Changes in the proton-motive force in Escherichia coli in response to external oxidoreduction potential.

1999

International audience; The pH homeostasis and proton-motive force (Deltap) of Escherichia coli are dependent on the surrounding oxidoreduction potential (ORP). Only the internal pH value and, thus, the membrane pH gradient (DeltapH) component of the Deltap is modified, while the membrane potential (DeltaPsi) does not change in a significant way. Under reducing conditions (Eh < 50 mV at pH 7.0), E. coli decreases its Deltap especially in acidic media (21% decrease at pH 7.0 and 48% at pH 5.0 for a 850-mV ORP decrease). Measurements of ATPase activity and membrane proton conductance (CH+m) depending on ORP and pH have shown that the internal pH decrease is due to an increase in membrane prot…

MESH: Oxidation-ReductionMESH : Escherichia coliMESH: Hydrogen-Ion ConcentrationMembrane permeabilitymedicine.disease_causeBiochemistryMembrane Potentials03 medical and health sciencesMESH : Hydrogen-Ion Concentration[SDV.BBM] Life Sciences [q-bio]/Biochemistry Molecular BiologymedicineEscherichia coliMESH: Adenosine TriphosphatasesMESH : Membrane PotentialsMESH : ProtonsMESH: Membrane Potentials[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular Biology[INFO.INFO-BT]Computer Science [cs]/Biotechnology[ SDV.BBM ] Life Sciences [q-bio]/Biochemistry Molecular BiologyEscherichia coliComputingMilieux_MISCELLANEOUS030304 developmental biologyMESH : Oxidation-ReductionMembrane potentialchemistry.chemical_classificationAdenosine Triphosphatases0303 health sciencesChromatographyMESH : Adenosine Triphosphatases030306 microbiologyChemiosmosisChemistryMESH: Escherichia coliConductanceHydrogen-Ion Concentration[INFO.INFO-BT] Computer Science [cs]/BiotechnologyMembranePermeability (electromagnetism)BiophysicsThiolMESH: ProtonsProtonsOxidation-Reduction[ INFO.INFO-BT ] Computer Science [cs]/Biotechnology
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Extracellular oxidoreduction potential modifies carbon and electron flow in Escherichia coli.

2000

ABSTRACT Wild-type Escherichia coli K-12 ferments glucose to a mixture of ethanol and acetic, lactic, formic, and succinic acids. In anoxic chemostat culture at four dilution rates and two different oxidoreduction potentials (ORP), this strain generated a spectrum of products which depended on ORP. Whatever the dilution rate tested, in low reducing conditions (−100 mV), the production of formate, acetate, ethanol, and lactate was in molar proportions of approximately 2.5:1:1:0.3, and in high reducing conditions (−320 mV), the production was in molar proportions of 2:0.6:1:2. The modification of metabolic fluxes was due to an ORP effect on the synthesis or stability of some fermentation enzy…

MESH : Models Chemical0106 biological sciencesMESH: Oxidation-ReductionMESH : Acetic AcidMESH : Escherichia coliMESH : NADFormatesOxaloacetatesMESH: Phosphoenolpyruvate CarboxylaseSuccinic AcidMESH: Alcohol DehydrogenaseMESH : CarbonMESH : EthanolMESH: Carbon Dioxide01 natural sciencesPhosphoenolpyruvatechemistry.chemical_compoundModels[INFO.INFO-BT]Computer Science [cs]/BiotechnologyAcetic Acid0303 health sciencesbiologyMESH: Escherichia coliMESH: Models ChemicalMESH : Acetyl Coenzyme AMESH: NADLactic acidMESH : Carbon DioxideBiochemistryFormic AcidsMESH: PhosphoenolpyruvateMESH: Acetic AcidMESH: Pyruvate KinaseMESH : Phosphoenolpyruvate CarboxylaseMESH: Oxaloacetic AcidsOxidation-Reduction[ INFO.INFO-BT ] Computer Science [cs]/BiotechnologyMESH: EthanolPhysiology and MetabolismPyruvate KinaseElectronsChemicalMESH: CarbonMESH : Formic AcidsChemostatMicrobiologyMESH: Fermentation03 medical and health sciencesAcetic acidMESH : Alcohol DehydrogenaseAcetyl Coenzyme AMESH : Fermentation010608 biotechnology[SDV.BBM] Life Sciences [q-bio]/Biochemistry Molecular BiologyEscherichia coliFormate[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyLactic Acid[ SDV.BBM ] Life Sciences [q-bio]/Biochemistry Molecular BiologyMolecular Biology030304 developmental biologyAlcohol dehydrogenaseMESH : Oxidation-ReductionMESH: ElectronsEthanolEthanolMESH : Succinic AcidAlcohol DehydrogenaseCarbon DioxideNADMESH: Formic AcidsMESH : Pyruvate KinaseCarbonOxaloacetic AcidsPhosphoenolpyruvate CarboxylaseMESH: Succinic Acid[INFO.INFO-BT] Computer Science [cs]/BiotechnologychemistryModels ChemicalSuccinic acidMESH : Lactic AcidMESH : Oxaloacetic AcidsFermentationbiology.proteinFermentationMESH: Lactic AcidMESH : ElectronsMESH : PhosphoenolpyruvateMESH: Acetyl Coenzyme A
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The shell matrix of the pulmonate land snail Helix aspersa maxima.

2012

12 pages; International audience; In mollusks, the shell mineralization process is controlled by an array of proteins, glycoproteins and polysaccharides that collectively constitute the shell matrix. In spite of numerous researches, the shell protein content of a limited number of model species has been investigated. This paper presents biochemical data on the common edible land snail Helix aspersa maxima, a model organism for ecotoxicological purposes, which has however been poorly investigated from a biomineralization viewpoint. The shell matrix of this species was extracted and analyzed biochemically for functional in vitro inhibition assay, for amino acid and monosaccharides composition…

0106 biological sciencesBiomineralizationPulmonate snailPhysiology01 natural sciencesBiochemistryMineralization (biology)chemistry.chemical_compoundX-Ray DiffractionTandem Mass SpectrometryElectrophoresis Gel Two-DimensionalHaliotisAmino AcidsComputingMilieux_MISCELLANEOUSchemistry.chemical_classification0303 health sciencesEcologyMonosaccharidesLand snailImmunogold labellingImmunohistochemistryAmino acidBiochemistryElectrophoresis Polyacrylamide GelTerrestrial snail ; biomineralization ; shell ; aragonite ; crossed-lamellar ; protein ; immunogold ; gel electrophoresisFrancefood.ingredientBiology010603 evolutionary biologyCalcium Carbonate03 medical and health sciencesfoodSpecies SpecificityAnimal ShellsShellAnimals14. Life underwater[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/BiomaterialsMolecular Biology030304 developmental biologyHelix SnailsProteinsCrossed-lamellarbiology.organism_classification[ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/BiomaterialsGel electrophoresis[SDV.BA.ZI]Life Sciences [q-bio]/Animal biology/Invertebrate ZoologyCalcium carbonatechemistryMicroscopy Electron ScanningBiomineralizationPinctadaComparative biochemistry and physiology. Part B, Biochemistrymolecular biology
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Caspartin and calprismin, two proteins of the shell calcitic prisms of the Mediterranean fan mussel Pinna nobilis.

2005

We used the combination of preparative electrophoresis and immunological detection to isolate two new proteins from the shell calcitic prisms of Pinna nobilis, the Mediterranean fan mussel. The amino acid composition of these proteins was determined. Both proteins are soluble, intracrystalline, and acidic. The 38-kDa protein is glycosylated; the 17-kDa one is not. Ala, Asx, Thr, and Pro represent the dominant residues of the 38-kDa protein, named calprismin. An N-terminal sequence was obtained from calprismin. This sequence, which comprises a pattern of 4 cysteine residues, is not related to any known protein. The second protein, named caspartin, exhibits an unusual amino acid composition, …

MESH : Molecular Sequence DataMESH : Calcium CarbonateMESH: BivalviaMESH: ElectrophoresisMESH: Amino Acid Sequence01 natural sciencesBiochemistrychemistry.chemical_compoundMESH : BivalviaMESH: AnimalsMESH: CrystallizationCalciteImmunoassay0303 health sciencesbiologyMESH : Amino Acid SequenceImmunogold labellingMESH : ImmunoassayBiochemistryMESH: Calcium CarbonateMESH : CrystallizationCrystallizationMESH: ImmunoassayElectrophoresisAmino Acid Sequence;Animals;Bivalvia;Calcium Carbonate;Crystallization;Electrophoresis;Glycoproteins;Immunoassay;Molecular Sequence DataMolecular Sequence DataMESH: Glycoproteins010402 general chemistryCalcium CarbonateBiomaterials03 medical and health sciencesAnimalsAmino Acid Sequence[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/BiomaterialsMolecular Biology030304 developmental biologyGlycoproteinsAntiserumMESH: Molecular Sequence DataMESH : ElectrophoresisCell BiologyMussel[ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/Biomaterialsbiology.organism_classificationMESH : Glycoproteins0104 chemical sciencesBivalvia[SDV.IB.BIO] Life Sciences [q-bio]/Bioengineering/BiomaterialsCalcium carbonatechemistryPolyclonal antibodiesbiology.proteinBiomatériauxMESH : AnimalsPinna nobilisCysteine
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The shell matrix of the freshwater mussel Unio pictorum (Paleoheterodonta, Unionoida). Involvement of acidic polysaccharides from glycoproteins in na…

2007

13 pages; International audience; Among molluscs, the shell biomineralization process is controlled by a set of extracellular macromolecular components secreted by the calcifying mantle. In spite of several studies, these components are mainly known in bivalves from only few members of pteriomorph groups. In the present case, we investigated the biochemical properties of the aragonitic shell of the freshwater bivalve Unio pictorum (Paleoheterodonta, Unionoida). Analysis of the amino acid composition reveals a high amount of glycine, aspartate and alanine in the acid-soluble extract, whereas the acid-insoluble one is rich in alanine and glycine. Monosaccharidic analysis indicates that the in…

glycoproteinMESH: Amino AcidsMESH : PolysaccharidesMESH: BivalviaMESH : Calcification PhysiologicFresh WaterBiochemistryMESH : Spectroscopy Fourier Transform InfraredMESH : BivalviaSpectroscopy Fourier Transform InfraredMollusc shellMESH : Fresh Watercalcium-binding proteinElectrophoresis Gel Two-DimensionalMESH: AnimalsAmino Acidsmollusc shell nacreGel electrophoresisAlanine0303 health sciencesbiologyMESH : Carbohydrates030302 biochemistry & molecular biologyMESH : Extracellular Matrixmatrix macromoleculesExtracellular MatrixBiochemistryMESH: Fresh WaterElectrophoresis Polyacrylamide GelMESH: CarbohydratesFreshwater bivalveCarbohydratesMESH: GlycoproteinsMESH: Extracellular MatrixMESH : Electrophoresis Polyacrylamide GelMESH: Spectroscopy Fourier Transform InfraredMESH: Calcification Physiologic03 medical and health sciencesCalcification PhysiologicPolysaccharidesExtracellularAnimals[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/BiomaterialsMolecular BiologyGlycoproteins030304 developmental biologyMolecular massUnio pictorumMESH : Electrophoresis Gel Two-DimensionalCell Biology[ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/Biomaterialsbiology.organism_classificationbiomineralizationMESH: Electrophoresis Gel Two-DimensionalMESH : GlycoproteinsBivalviaIsoelectric pointMESH: PolysaccharidesMESH : Amino AcidsMESH : AnimalsMESH: Electrophoresis Polyacrylamide Gel
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Comparative ultrastructure and carbohydrate composition of gastroliths from Astacidae, Cambaridae and Parastacidae freshwater crayfish (Crustacea, De…

2012

21 pages; International audience; Crustaceans have to cyclically replace their rigid exoskeleton in order to grow. Most of them harden this skeleton by a calcification process. Some decapods (land crabs, lobsters and crayfish) elaborate calcium storage structures as a reservoir of calcium ions in their stomach wall, as so-called gastroliths. For a better understanding of the cyclic elaboration of these calcium deposits, we studied the ultrastructure of gastroliths from freshwater crayfish by using a combination of microscopic and physical techniques. Because sugars are also molecules putatively involved in the elaboration process of these biomineralizations, we also determined their carbohy…

lcsh:QR1-502carbohydratesAstacidea010402 general chemistry01 natural sciencesBiochemistrylcsh:MicrobiologyArticlecalcification03 medical and health scienceschemistry.chemical_compoundAstacidaeMalacostracaCrustacea14. Life underwatercalcium storage[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/BiomaterialsMolecular Biology030304 developmental biologyorganic matrix0303 health sciencesbiologycrayfishDecapodaEcologybiology.organism_classificationCrayfish[ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/Biomaterialsbiomineralization6. Clean waterCambaridaeAmorphous calcium carbonate0104 chemical sciencesBiochemistrychemistryGastrolithgastrolithproteoglycans
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Evolution of nacre: biochemistry and proteomics of the shell organic matrix of the cephalopod Nautilus macromphalus.

2009

12 pages; International audience; In mollusks, one of the most widely studied shell textures is nacre, the lustrous aragonitic layer that constitutes the internal components of the shells of several bivalves, a few gastropods, and one cephalopod: the nautilus. Nacre contains a minor organic fraction, which displays a wide range of functions in relation to the biomineralization process. Here, we have biochemically characterized the nacre matrix of the cephalopod Nautilus macromphalus. The acid-soluble matrix contains a mixture of polydisperse and discrete proteins and glycoproteins, which interact with the formation of calcite crystals. In addition, a few bind calcium ions. Furthermore, we h…

ProteomeShell (structure)ProteomicsBiochemistryCalcium Carbonate03 medical and health sciencesPaleontologychemistry.chemical_compoundproteomicsevolutionAnimals14. Life underwaterAmino Acid SequenceNautilus[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/BiomaterialsMolecular BiologyChromatography High Pressure Liquid030304 developmental biologyCalciteNautilus macromphalus0303 health sciencesbiology030302 biochemistry & molecular biologyOrganic ChemistryProteinsbiology.organism_classificationbiomineralization[ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/BiomaterialsBiological EvolutionCephalopodCalcium carbonatechemistryChemical engineeringSolubilitySpectrometry Mass Matrix-Assisted Laser Desorption-IonizationMolecular MedicineNautilusNautilus macromphalusSequence AlignmentBiomineralizationmollusk shell nacre
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Characterization of the Teeth Skeletal Matrix from &lt;i&gt;Arbacia lixula&lt;/i&gt;

2016

The teeth of sea urchins are highly complex composite structures, composed predominantly of high magnesium calcite, and of a minor heterogeneous assemblage of organic macromolecules that are occluded within the mineral. The organic matrix fulfils important functions in mineralization, in addition to giving the mineral phase peculiar mechanical properties, different from that of purely inorganic calcite. Nevertheless, the composition and function of individual components of the organic matrix still remains largely unknown. Up to now, the detailed protein repertoire of teeth from a single sea urchin species (Strongylocentrotus purpuratus, order Camarodonta) was investigated. In this study, we…

AlanineCalcitebiologyChemistryMechanical EngineeringArbacioidabiology.organism_classificationStrongylocentrotus purpuratusMineralization (biology)chemistry.chemical_compoundBiochemistryMechanics of Materialsbiology.animalGeneral Materials ScienceSea urchinArbacia lixulaBiomineralizationKey Engineering Materials
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Novel molluskan biomineralization proteins retrieved from proteomics: a case study with upsalin.

2012

12 pages; International audience; The formation of the molluskan shell is regulated by an array of extracellular proteins secreted by the calcifying epithelial cells of the mantle. These proteins remain occluded within the recently formed biominerals. To date, many shell proteins have been retrieved, but only a few of them, such as nacreins, have clearly identified functions. In this particular case, by combining molecular biology and biochemical approaches, we performed the molecular characterization of a novel protein that we named Upsalin, associated with the nacreous shell of the freshwater mussel Unio pictorum. The full sequence of the upsalin transcript was obtained by RT-PCR and 5'/3…

ElectrophoresisMolecular Sequence DataBiologyProteomicsBioinformaticsBiochemistryHomology (biology)03 medical and health sciencesproteomicsGene silencingAnimalsAmino Acid Sequence[SDV.IB.BIO]Life Sciences [q-bio]/Bioengineering/BiomaterialsMolecular BiologyPeptide sequence030304 developmental biology0303 health sciencesMineralsBase Sequence030302 biochemistry & molecular biologyOrganic ChemistrymollusksImmunogold labelling[ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/BiomaterialsbiomineralizationIn vitroproteinsfreshwater bivalvesBiochemistryMolluscaMicroscopy Electron ScanningMolecular MedicineTarget proteinBiomineralization
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Regulation of reactive oxygen species production by a 14-3-3 protein in elicited tobacco cells.

2007

International audience; The regulation of the system responsible for the production of reactive oxygen species (ROS) during plant–microorganism interaction is still largely unknown. The protein NtrbohD has been recently demonstrated as the plasma membrane oxidase responsible for ROS production in elicited tobacco cells. Here, its C-terminus part was used as a bait in a two-hybrid screen in order to identify putative regulators of this system. This led to the isolation of a cDNA coding for a member of the 14-3-3 protein family. The corresponding transcript was induced after infiltration of tobacco leaves with the fungal elicitor cryptogein. Tobacco cells transformed with an antisense constru…

0106 biological sciencesSIGNALLINGDNA ComplementaryProtein familyPhysiologyMolecular Sequence DataContext (language use)Plant ScienceBiology01 natural sciences03 medical and health sciencesTwo-Hybrid System TechniquesTobaccoNADPH OXIDASEAmino Acid Sequence14-3-3 protein030304 developmental biologychemistry.chemical_classification[SDV.EE]Life Sciences [q-bio]/Ecology environment0303 health sciencesReactive oxygen speciesOxidase testCRYPTOGEINNADPH oxidaseSequence Homology Amino AcidElicitorchemistryBiochemistry14-3-3 ProteinsNAD(P)H oxidasebiology.proteinReactive Oxygen Species010606 plant biology & botanyPlant, cellenvironment
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