Search results for " cell structure"

showing 10 items of 14 documents

Molecular characterisation, evolution and expression analysis of g-type lysozymes in Ciona intestinalis

2017

Lysozyme is an important defense molecule of the innate immune system. Known for its bactericidal properties, lysozyme catalyzes the hydrolysis of b-(1,4)-glycosidic bonds between the N-acetyl glucosamine and N-acetyl muramic acid in the peptidoglycan layer of bacterial cell walls. In this study, the complete coding sequence of four g-type lysozymes were identified in Ciona intestinalis. Phylogenetic analysis and modelling supported the hypothesis of a close relationship with the vertebrate g-type lysozymes suggesting that the C. intestinalis g-type lysozyme genes (CiLys-g1, Cilys-g2, CiLys-g3, CiLys-g4) share a common ancestor in the chordate lineage. Protein motif searches indicated that …

0301 basic medicineLipopolysaccharidesImmunologySettore BIO/05 - ZoologiaChordateBacterial cell structureMicrobiologyEvolution Molecular03 medical and health scienceschemistry.chemical_compound0302 clinical medicineBacteriolysisGeeseAnimalsCiona intestinalisCloning MolecularStructural motifGeneCells CulturedPhylogenyInnate immune systembiologyBacterial Infectionsbiology.organism_classificationBiological EvolutionImmunity InnateCiona intestinalisAscidian Lysozymes g-type Inflammation LPS Ciona intestinalis030104 developmental biologyBiochemistrychemistry030220 oncology & carcinogenesisPharynxMuramidasePeptidoglycanLysozymeTranscriptomeDevelopmental Biology
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A giant type I polyketide synthase participates in zygospore maturation in Chlamydomonas reinhardtii

2017

Polyketide synthases (PKSs) occur in many bacteria, fungi and plants. They are highly versatile enzymes involved in the biosynthesis of a large variety of compounds including antimicrobial agents, polymers associated with bacterial cell walls and plant pigments. While harmful algae are known to produce polyketide toxins, sequences of the genomes of non-toxic algae, including those of many green algal species, have surprisingly revealed the presence of genes encoding type I PKSs. The genome of the model alga Chlamydomonas reinhardtii (Chlorophyta) contains a single type I PKS gene, designated PKS1 (Cre10.g449750), which encodes a giant PKS with a predicted mass of 2.3 MDa. Here, we show that…

0301 basic medicinebiologyMutantChlamydomonas reinhardtiiCell BiologyPlant ScienceChlorophytaGenes Plantbiology.organism_classificationBacterial cell structureCell wall03 medical and health sciencesPolyketide030104 developmental biologyBiochemistryCell WallSeedsGeneticsZygosporePolyketide SynthasesSequence AlignmentGeneChlamydomonas reinhardtiiPlant ProteinsThe Plant Journal
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Commensal Bacterium Rothia aeria Degrades and Detoxifies Gluten via a Highly Effective Subtilisin Enzyme

2020

Celiac disease is characterized by a chronic immune-mediated inflammation of the small intestine, triggered by gluten contained in wheat, barley, and rye. Rothia aeria, a gram-positive natural colonizer of the oral cavity and the upper digestive tract is able to degrade and detoxify gluten in vitro. The objective of this study was to assess gluten-degrading activity of live and dead R. aeria bacteria in vitro, and to isolate the R. aeria gluten-degrading enzyme. Methods: After an overnight fast, Balb/c mouse were fed a 1 g pellet of standard chow containing 50% wheat (and 4% gliadin) with or without 1.6 &times

0301 basic medicinelcsh:TX341-641detoxifymedicine.disease_causedigestive systemBacterial cell structure<i>Rothia</i>Microbiology03 medical and health sciences0302 clinical medicinemedicineZymographydegradationchemistry.chemical_classificationepitopeNutrition and DieteticsbiologyRothia aeria<i>Bacillus</i>food and beveragesnutritional and metabolic diseasesbiology.organism_classificationGlutenneutralizecuredigestive system diseasesEnzyme assay030104 developmental biologychemistryglutencommensalbiology.proteinsubtilisin030211 gastroenterology & hepatologyDigestionGliadinlcsh:Nutrition. Foods and food supplyceliac diseaseBacteriaFood ScienceNutrients
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First stages of microsporere programming to embryogenesis through anther culture in Prunus armeniaca L.

2011

6 páginas, 3 figuras, 2 tablas -- PAGS nros. 152-157

ApricotMicrospore embryogenesisfungiStamenfood and beveragesEmbryoPlant ScienceBiologymedicine.disease_causebiology.organism_classificationPrunus armeniacaSettore AGR/03 - Arboricoltura Generale E Coltivazioni ArboreeTissue cultureMicrosporePollenBotanymedicineDoubled haploidyCytochemistryCell structurePloidyAgronomy and Crop ScienceEcology Evolution Behavior and SystematicsApricot Cell structure Cytochemistry Microspore embryogenesis
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Induction of pollen embryogenesis in seven cultivars of Prunus armeniaca l.

2010

6 páginas -- PAGS nros. 273-278

ApricotfungiStamenEmbryoHorticultureBiologybiology.organism_classificationmedicine.disease_causeGenetic analysisPrunus armeniacaHorticultureTissue culturemedicine.anatomical_structureMicrosporePollenBotanymedicinemicrospore embryogenesisCytochemistryGameteCell structuremicrospore embryogenesis apricot cell structure cytochemistry.
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Subcellular localization of bacteriophage PRD1 proteins in Escherichia coli

2014

Bacteria possess an intricate internal organization resembling that of the eukaryotes. The complexity is especially prominent at the bacterial cell poles, which are also known to be the preferable sites for some bacteriophages to infect. Bacteriophage PRD1 is a well-known model serving as an ideal system to study structures and functions of icosahedral internal membrane-containing viruses. Our aim was to analyze the localization and interactions of individual PRD1 proteins in its native host Escherichia coli. This was accomplished by constructing a vector library for production of fluorescent fusion proteins. Analysis of solubility and multimericity of the fusion proteins, as well as their …

Cancer ResearchViral proteinvirusesIntracellular SpaceBiologymedicine.disease_causeBacterial cell structureProtein–protein interactionViral Proteins03 medical and health sciencesVirologyEscherichia colimedicineBacteriophage PRD1Escherichia coli030304 developmental biology0303 health sciencesBacteria030302 biochemistry & molecular biologyDNA replicationta1182Protein interactionsFusion proteinVirus assemblyCell biologyConfocal microscopyProtein TransportInfectious DiseasesMembrane proteinVirion assemblyMembrane virusVirus Research
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Transcriptome analysis of Pseudomonas mediterranea and P. corrugata plant pathogens during accumulation of medium-chain-length PHAs by glycerol bioco…

2017

Pseudomonas corrugata and P. mediterranea are soil inhabitant bacteria, generally living as endophytes on symptomless plants and bare soil, but also capable of causing plant diseases. They share a similar genome size and a high proteome similarity. P. corrugata produces many biomolecules which play an important role in bacterial cell survival and fitness. Both species produce different medium-chain-length PHAs (mcl-PHAs) from the bioconversion of glycerol to a transparent film in P. mediterranea and a sticky elastomer in P. corrugata. In this work, using RNA-seq we investigated the transcriptional profiles of both bacteria at the early stationary growth phase with glycerol as the carbon sou…

EXPRESSION0301 basic medicineGlycerolAlginatesBioconversionPseudomonas mediterraneaPlant DiseasePOLYHYDROXYALKANOATESBioengineeringPolyhydroxyalkanoatePseudomonaTRANSACYLASEBacterial cell structureMicrobiologyTranscriptome03 medical and health sciencesPseudomonasDEPOLYMERASEMolecular BiologyDE-NOVO BIOSYNTHESISSoil MicrobiologyPlant DiseasesbiologyBase SequenceGene Expression ProfilingPseudomonasAlginatePolysaccharides BacterialSettore AGR/12 - Patologia VegetaleGeneral MedicineBiosynthetic PathwayGene Expression Regulation Bacterialbiology.organism_classificationBiosynthetic PathwaysDE-NOVO BIOSYNTHESIS ESCHERICHIA-COLI ALGINATE PRODUCTION PUTIDA KT2442 POLYHYDROXYALKANOATES TOMATO LIPODEPSIPEPTIDE TRANSACYLASE DEPOLYMERASE EXPRESSIONALGINATE PRODUCTIONLIPODEPSIPEPTIDEPseudomonas corrugataMetabolic pathwayRNA Bacterial030104 developmental biologyBiochemistryESCHERICHIA-COLIPUTIDA KT2442TOMATOBacteriaBiotechnology
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Bacterial sensors based on biosilica immobilization for label-free OWLS detection

2013

In the last years, a new group of enzymes, the so-called silicateins, have been identified and characterized, which form the axial filaments of the spicules of the siliceous sponges, consisting of not only amorphous silica among others. These enzymes are able to catalyze the polycondensation and deposition of silica at mild conditions. Silicateins can be expressed in Escherichia coli. The recombinant proteins are expressed on the surface of the cell wall and are able to catalyze the formation of a polysilicate net around the bacterial cells providing the possibility for further attachment to the surface of SiO2 containing sensor chips. With this mild immobilization process it is now possibl…

InsecticidesBioengineeringBiosensing Techniquesmedicine.disease_causeBacterial cell structurelaw.inventionCell wallCarbofuranchemistry.chemical_compoundlawEscherichia colimedicineHydrogen peroxideMolecular BiologyEscherichia colichemistry.chemical_classificationbiologyChloramphenicolPenicillin GHydrogen PeroxideGeneral MedicineOxidantsSilicon Dioxidebiology.organism_classificationCathepsinsAnti-Bacterial AgentsOxidative StressChloramphenicolEnzymechemistryBiochemistryRecombinant DNABacteriaBiotechnologymedicine.drugNew Biotechnology
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FIRST STAGES OF MICROSPORE REPROGRAMMING TO EMBRYOGENESIS THROUGH ISOLATED MICROSPORE CULTURE IN LOQUAT

2011

The current experiments were undertaken to develop a method for regenerating doubled haploid (DH) plants of Eriobotrya japonica (Thunb.), Rosaceae, subfamily Maloideae through isolated microspore culture of nine loquat cultivars. Protocols were developed for isolation and culture of loquat microspores. Isolated microspores in vitro cultured started dividing and developing multicellular, globular and irregular structures. After 4 weeks of culture, the responding microspores produced yellowish/white callus. The embryogenic response of microspores was highly dependent on the cultivar and on the medium composition.

MaloideaeRosaceaefungifood and beveragesEriobotrya japonica cell structures haploid pollen embryogenesisEriobotryaHorticultureBiologybiology.organism_classificationJaponicaPollen embryogenesisEriobotrya japonicaMicrosporeCallusBotanyDoubled haploidyCell structureHaploidPloidyActa Horticulturae
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Vehicles, replicators, and intercellular movement of genetic information: evolutionary dissection of a bacterial cell.

2012

Prokaryotic biosphere is vastly diverse in many respects. Any given bacterial cell may harbor in different combinations viruses, plasmids, transposons, and other genetic elements along with their chromosome(s). These agents interact in complex environments in various ways causing multitude of phenotypic effects on their hosting cells. In this discussion I perform a dissection for a bacterial cell in order to simplify the diversity into components that may help approach the ocean of details in evolving microbial worlds. The cell itself is separated from all the genetic replicators that use the cell vehicle for preservation and propagation. I introduce a classification that groups different r…

Order (biology)Article SubjectChromosome (genetic algorithm)Evolutionary biologyevoluutioZoologyta1181Biologyhorisontaalinen geeniliikenneBacterial cell structureResearch Articlehorizontal genetic movementbakteerit
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