Search results for "Eukaryotic"

showing 10 items of 84 documents

How to Make a Vesicle: Coat Protein-Membrane Interactions

2018

MembraneChemistryVesicleVesicle coatPlant cellEukaryotic cellSecretory pathwayCell biology
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Posttranscriptional RNA Modifications: Playing Metabolic Games in a Cell’s Chemical Legoland

2014

Nature combines existing biochemical building blocks, at times with subtlety of purpose. RNA modifications are a prime example of this, where standard RNA nucleosides are decorated with chemical groups and building blocks that we recall from our basic biochemistry lectures. The result: a wealth of chemical diversity whose full biological relevance has remained elusive despite being public knowledge for some time. Here, we will highlight a number of modifications that, because of their chemical intricacy, rely on seemingly unrelated pathways to provide co-factors for their synthesis. Besides their immediate role in affecting RNA function, modifications may act as sensors and transducers of i…

Metabolic stateClinical BiochemistryCellComputational biologyBiologyBiochemistryArticleRNA TransferDrug DiscoveryAnticodonChemical groupsmedicineProtein biosynthesisRNA Processing Post-TranscriptionalUridineMolecular BiologyPharmacologyGeneticsBacteriaRNAGeneral MedicineEukaryotic Cellsmedicine.anatomical_structureTransfer RNAMetabolic rateNucleic Acid ConformationRNAMolecular MedicineMetabolic Networks and PathwaysFunction (biology)Chemistry & Biology
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Iron in Translation: From the Beginning to the End

2021

Iron is an essential element for all eukaryotes, since it acts as a cofactor for many enzymes involved in basic cellular functions, including translation. While the mammalian iron-regulatory protein/iron-responsive element (IRP/IRE) system arose as one of the first examples of translational regulation in higher eukaryotes, little is known about the contribution of iron itself to the different stages of eukaryotic translation. In the yeast Saccharomyces cerevisiae, iron deficiency provokes a global impairment of translation at the initiation step, which is mediated by the Gcn2-eIF2α pathway, while the post-transcriptional regulator Cth2 specifically represses the translation of a subgroup of…

Microbiology (medical)TRNA modificationQH301-705.5Saccharomyces cerevisiaetranslationReviewSaccharomyces cerevisiaeyeastMicrobiology<i>Saccharomyces cerevisiae</i>03 medical and health sciencesiron deficiency0302 clinical medicineEukaryotic translationVirologyTranslational regulationProtein biosynthesisBiology (General)030304 developmental biology0303 health sciencesbiologyTranslation (biology)biology.organism_classificationCell biologyABCE1Codon usage biasbiology.proteintRNA modification030217 neurology & neurosurgeryMicroorganisms
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Phylogenomic evidence for the presence of a flagellum and cbb(3) oxidase in the free-living mitochondrial ancestor.

2011

The initiation of the intracellular symbiosis that would give rise to mitochondria and eukaryotes was a major event in the history of life on earth. Hypotheses to explain eukaryogenesis fall into two broad and competing categories: those proposing that the host was a phagocytotic proto-eukaryote that preyed upon the free-living mitochondrial ancestor (hereafter FMA), and those proposing that the host was an archaebacterium that engaged in syntrophy with the FMA. Of key importance to these hypotheses are whether the FMA was motile or nonmotile, and the atmospheric conditions under which the FMA thrived. Reconstructions of the FMA based on genome content of Rickettsiales representatives-gener…

Midichloria mitochondriiSequence analysiseukaryogenesiMidichloriaFlagellumGenomeOxidative PhosphorylationElectron Transport Complex IVEvolution MolecularPhylogeneticsGeneticsmitochondrionCytochrome c oxidaseSymbiosisMolecular BiologyGeneEcology Evolution Behavior and SystematicsPhylogenyRickettsieaeGeneticsbiologyBase SequencephylogenomicSequence Analysis DNAbiology.organism_classificationBiological EvolutionMitochondriaEukaryotic CellsFlagellabiology.proteinrickettsialeRickettsialesGenome BacterialMolecular biology and evolution
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Molecular dissection of human Argonaute proteins by DNA shuffling.

2013

A paramount task in RNA interference research is to decipher the complex biology of cellular effectors, exemplified in humans by four pleiotropic Argonaute proteins (Ago1-Ago4). Here, we exploited DNA family shuffling, a molecular evolution technology, to generate chimeric Ago protein libraries for dissection of intricate phenotypes independently of prior structural knowledge. Through shuffling of human Ago2 and Ago3, we discovered two N-terminal motifs that govern RNA cleavage in concert with the PIWI domain. Structural modeling predicts an impact on protein rigidity and/or RNA-PIWI alignment, suggesting new mechanistic explanations for Ago3's slicing deficiency. Characterization of hybrid…

Models MolecularDNA ComplementaryProtein ConformationRecombinant Fusion ProteinsMolecular Sequence DataDNA RecombinantPiwi-interacting RNASequence alignmentComputational biologyBiologyStructural BiologyMolecular evolutionRNA interferenceConsensus SequenceConsensus sequenceHumansAmino Acid SequenceEukaryotic Initiation FactorsRNA Processing Post-TranscriptionalRNA Small InterferingMolecular BiologyGene LibraryGeneticsSequence Homology Amino AcidRNADNA ShufflingArgonauteDNA shufflingProtein Structure TertiaryMicroRNAsPhenotypeArgonaute ProteinsRNA InterferenceDirected Molecular EvolutionSequence AlignmentNature structuralmolecular biology
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A new evolutionary paradigm for the Parkinson disease gene DJ-1.

2006

The DJ-1 gene is extensively studied because of its involvement in familial Parkinson disease. DJ-1 belongs to a complex superfamily of genes that includes both prokaryotic and eukaryotic representatives. We determine that many prokaryotic groups, such as proteobacteria, cyanobacteria, spirochaetes, firmicutes, or fusobacteria, have genes, often incorrectly called "Thij," that are very close relatives of DJ-1, to the point that they cannot be clearly separated from the eukaryotic DJ-1 genes by phylogenetic analyses of their sequences. In addition, and contrary to a previous study that suggested that DJ-1 genes were animal specific, we show that DJ-1 genes are found in at least 5 of the 6 ma…

Models MolecularGenes FungalMolecular Sequence DataProtein Deglycase DJ-1Genes PlantAmoebozoaEvolution MolecularPhylogeneticsGeneticsAmino Acid SequenceMolecular BiologyGeneEcology Evolution Behavior and SystematicsPhylogenyChromalveolataGeneticsComparative genomicsOncogene ProteinsPhylogenetic treebiologyIntracellular Signaling Peptides and ProteinsFusobacteriaParkinson Diseasebiology.organism_classificationEukaryotic CellsProkaryotic CellsGenes BacterialSchizosaccharomyces pombeSequence AlignmentMolecular biology and evolution
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Mir-661: A key Factor in Embryo-Maternal dialog With Potential Clinical Application to Predict Implantation Outcome?

2015

Implantation resulting in a full-term pregnancy is, by large, more than a passive process in which the developed conceptus is passively glued to the uterus through adhesive molecules. It is the result of a perfectly orchestrated dialog between a viable embryo and a receptive endometrium, through a mixture of paracrine and juxtacrine processes in which many key proteins and growth factors play fundamental roles (Pellicer et al., 2002.) Since their discovery, microRNAs have become prominent regulatory candidates, providing missing links for a few biological pathways in this process, although their exact role in human normal embryo formation and endometrial preparation for pregnancy remains un…

NectinsPopulationlcsh:MedicineContext (language use)Fertilization in VitroBiologyBioinformaticsEndometriumHistone DeacetylasesRNA TransportGeneral Biochemistry Genetics and Molecular BiologyCell LineTranscriptomeEndometriumParacrine signallingCell AdhesionmedicineHumansConceptusEmbryo ImplantationEukaryotic Initiation Factorseducationlcsh:R5-920education.field_of_studylcsh:REpithelial CellsEmbryoGeneral MedicineRepressor ProteinsMicroRNAsBlastocystmedicine.anatomical_structureArgonaute Proteinsembryonic structuresImmunologyCommentaryFemaleRNA Interferencelcsh:Medicine (General)Cell Adhesion MoleculesEmbryo qualityEBioMedicine
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Interplay between Intestinal Bacterial Communities and Unicellular Parasites in a Morbidly Obese Population: A Neglected Trinomial

2022

Obesity is an epidemic causing a metabolic health crisis. Herein, the interactions between the gut prokaryotic and eukaryotic communities, metabolic comorbidities and diet were studied. Stool samples from 56 subjects, 47 with type III obesity and 9 with type II obesity and cardiovascular risk or metabolic disease, were assessed for the richness, diversity and ecology of the bacterial gut community through metagenomics, together with the study of the presence of common unicellular eukaryote parasites (Blastocystis sp., Dientamoeba fragilis and Giardia intestinalis) by qPCR. Clinical information regarding metabolic comorbidities and non-alcoholic hepatic fatty liver disease was gathered. To a…

Nutrition and DieteticsBacteriaMicrobiologiaObesity Morbidobesity; eukaryotic microbiota; <i>Blastocystis</i> sp.; <i>Giardia intestinalis</i>; <i>Dientamoeba fragilis</i>; metabolic markers; dietFecesDiabetes Mellitus Type 2BlastocystisAnimalsHumansObesitatParasitesFood ScienceDieta d'aprimament
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Cytotoxic Action of Serratia marcescens Hemolysin on Human Epithelial Cells

1999

ABSTRACT Incubation of human epithelial cells with nanomolar concentrations of chromatographically purified Serratia marcescens hemolysin (ShlA) caused irreversible vacuolation and subsequent lysis of the cells. Vacuolation differed from vacuole formation by Helicobacter pylori VacA. Sublytic doses of ShlA led to a reversible depletion of intracellular ATP. Restoration to the initial ATP level was presumably due to the repair of the toxin damage and was inhibited by cycloheximide. Pores formed in epithelial cells and fibroblasts without disruption of the plasma membrane, and the pores appeared to be considerably smaller than those observed in artificial lipid membranes and in erythrocytes a…

OsmosisImmunologyOligosaccharidesVacuoleCycloheximideHemolysin ProteinsMicrobiologyHemolysisMicrobiologychemistry.chemical_compoundHemolysin ProteinsAdenosine TriphosphateBacterial ProteinsTumor Cells CulturedHumansPropidium iodideCytotoxicitySerratia marcescensbiologyHemolysinEpithelial CellsFibroblastsbiology.organism_classificationInfectious DiseasesEukaryotic CellschemistrySerratia marcescensMolecular and Cellular PathogenesisPotassiumParasitologyTrypan blueHeLa Cells
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Between Scylla and Charibdis: eIF2α kinases as targets for cancer chemotherapy

2011

[EN] The eIF2 alpha kinases integrate translation initiation rates with nutrient availability, thus allowing cells to adapt to nutrient scarcity. Recent evidence has uncovered new functions of these kinases in tumour cell biology, ranging from regulation of cell cycle progression, maintenance of genome stability, control of apoptosis, and cell survival under nutrient stress and hypoxia. Accordingly, active eIF2 alpha kinases modulate the antineoplasic activity of several antitumour drugs, either by exacerbating their cytotoxic effect or by promoting chemoresistance. Understanding of eIF2 alpha kinases molecular roles may provide mechanistic insights into how tumour cells sense and adapt to …

PERKBioquímicaTranslationBiologiaCancer ResearchCancer chemotherapyEukaryotic Initiation Factor-2Antineoplastic AgentsBiologyBioinformaticsNeoplasmsBIOQUIMICA Y BIOLOGIA MOLECULARHumansCytotoxic T cellCell survivalGenome stabilityKinaseNutrient stressPKRGeneral MedicineProtein kinase ROncologyApoptosiseIF2 alpha phosphorylationCancer researchGCN2Clinical and Translational Oncology
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