Search results for "Structural Biology."

showing 10 items of 822 documents

Identification of a classic nuclear localization signal at the N terminus that regulates the subcellular localization of Rbfox2 isoforms during diffe…

2016

Nuclear localization of the alternative splicing factor Rbfox2 is achieved by a C-terminal nuclear localization signal (NLS) which can be excluded from some Rbfox2 isoforms by alternative splicing. While this predicts nuclear and cytoplasmic localization, Rbfox2 is exclusively nuclear in some cell types. Here, we identify a second NLS in the N terminus of Rbfox2 isoform 1A that is not included in Rbfox2 isoform 1F. Rbfox2 1A isoforms lacking the C-terminal NLS are nuclear, whereas equivalent 1F isoforms are cytoplasmic. A shift in Rbfox2 expression toward cytoplasmic 1F isoforms occurs during epithelial to mesenchymal transition (EMT) and could be important in regulating the activity and fu…

0301 basic medicineGene isoformCytoplasmEpithelial-Mesenchymal TransitionNuclear Localization SignalsBiophysicsBiochemistryCell LineTransforming Growth Factor beta103 medical and health sciencesMiceMammary Glands AnimalProtein DomainsStructural BiologyCell Line TumorGeneticsNLSAnimalsProtein IsoformsAmino Acid SequenceMolecular BiologyCell NucleusChemistryAlternative splicingCell DifferentiationEpithelial CellsMouse Embryonic Stem CellsCell BiologySubcellular localizationMolecular biologyCell biologyAlternative Splicing030104 developmental biologyP19 cellCytoplasmRNA splicingRNA Splicing FactorsSequence AlignmentNuclear localization sequenceSignal TransductionFEBS letters
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The MDS and EVI1 complex locus (MECOM) isoforms regulate their own transcription and have different roles in the transformation of hematopoietic stem…

2016

Transcriptional activation of the EVI1 oncogene (3q26) leads to aggressive forms of human acute myeloid leukemia (AML). However, the mechanism of EVI1-mediated leukemogenesis has not been fully elucidated. Previously, by characterizing the EVI1 promoter, we have shown that RUNX1 and ELK1 directly regulate EVI1 transcription. Intriguingly, bioinformatic analysis of the EVI1 promoter region identified the presence of several EVI1 potential binding sites. Thus, we hypothesized that EVI1 could bind to these sites regulating its own transcription. In this study, we show that there is a functional interaction between EVI1 and its promoter, and that the different EVI1 isoforms (EVI1-145kDa, EVI1-Δ…

0301 basic medicineGene isoformMECOMResponse elementBiophysicsBiologyBiochemistryCell LineMice03 medical and health scienceschemistry.chemical_compoundStructural BiologyTranscription (biology)Proto-OncogenesGeneticsAnimalsHumansProgenitor cellPromoter Regions GeneticMolecular BiologyTranscription factorGeneticsLeukemiaGene Expression Regulation LeukemicPromoterHematopoietic Stem CellsMDS1 and EVI1 Complex Locus ProteinCell biologyDNA-Binding ProteinsCell Transformation Neoplastic030104 developmental biologyRUNX1chemistryTranscription FactorsBiochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanisms
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2020

Phytochrome proteins control the growth, reproduction, and photosynthesis of plants, fungi, and bacteria. Light is detected by a bilin cofactor, but it remains elusive how this leads to activation of the protein through structural changes. We present serial femtosecond X-ray crystallographic data of the chromophore-binding domains of a bacterial phytochrome at delay times of 1 ps and 10 ps after photoexcitation. The data reveal a twist of the D-ring, which leads to partial detachment of the chromophore from the protein. Unexpectedly, the conserved so-called pyrrole water is photodissociated from the chromophore, concomitant with movement of the A-ring and a key signaling aspartate. The chan…

0301 basic medicineGeneral Immunology and MicrobiologyPhytochromeGeneral NeuroscienceMolecular biophysicsGeneral MedicineChromophore010402 general chemistry01 natural sciencesGeneral Biochemistry Genetics and Molecular Biology0104 chemical sciencesPhotoexcitation03 medical and health scienceschemistry.chemical_compound030104 developmental biologychemistryStructural biologyFemtosecondBiophysicsSignal transductionBilineLife
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CLOVE: classification of genomic fusions into structural variation events

2017

Background A precise understanding of structural variants (SVs) in DNA is important in the study of cancer and population diversity. Many methods have been designed to identify SVs from DNA sequencing data. However, the problem remains challenging because existing approaches suffer from low sensitivity, precision, and positional accuracy. Furthermore, many existing tools only identify breakpoints, and so not collect related breakpoints and classify them as a particular type of SV. Due to the rapidly increasing usage of high throughput sequencing technologies in this area, there is an urgent need for algorithms that can accurately classify complex genomic rearrangements (involving more than …

0301 basic medicineGenomicsBiologycomputer.software_genrelcsh:Computer applications to medicine. Medical informaticsBiochemistryChromosomesDNA sequencingSet (abstract data type)Structural variationUser-Computer Interface03 medical and health sciencesStructural BiologyEscherichia coliHumansCopy-number variationMolecular Biologylcsh:QH301-705.5InternetMethodology ArticleApplied MathematicsBreakpointGenomic rearrangementsDNAGenomicsStructural variationsComputer Science ApplicationsIdentification (information)030104 developmental biologylcsh:Biology (General)Nucleic Acid ConformationGraph (abstract data type)lcsh:R858-859.7Data miningcomputerAlgorithmsBMC Bioinformatics
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Development of enzymatically-active bacterial cellulose membranes through stable immobilization of an engineered beta-galactosidase

2018

Enzymatically-active bacterial cellulose (BC) was prepared by non-covalent immobilization of a hybrid enzyme composed by a β-galactosidase from Thermotoga maritima (TmLac) and a carbohydrate binding module (CBM2) from Pyrococcus furiosus. TmLac-CBM2 protein was bound to BC, with higher affinity at pH 6.5 than at pH 8.5 and with high specificity compared to the non-engineered enzyme. Both hydrated (HBC) and freeze-dried (DBC) bacterial cellulose showed equivalent enzyme binding efficiencies. Initial reaction rate of HBC-bound enzyme was higher than DBC-bound and both of them were lower than the free enzyme. However, enzyme performance was similar in all three cases for the hydrolysis of 5% l…

0301 basic medicineImmobilized enzyme02 engineering and technologyProtein EngineeringBiochemistryBacterial cellulose03 medical and health sciencesHydrolysischemistry.chemical_compoundCarbohydrate binding moduleStructural BiologyEnzyme StabilityThermotoga maritimaCelluloseMolecular BiologyLactasechemistry.chemical_classificationbiologyGluconacetobacter xylinusHydrolysisMembranes ArtificialGeneral Medicine021001 nanoscience & nanotechnologybiology.organism_classificationEnzymes Immobilizedbeta-GalactosidaseEnzyme binding030104 developmental biologyEnzymeProtein immobilizationchemistryBiochemistryBacterial celluloseThermotoga maritimaPyrococcus furiosusCarbohydrate-binding module0210 nano-technology
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Photocage-initiated time-resolved solution X-ray scattering investigation of protein dimerization

2018

Photocaging in combination with X-ray solution scattering allows for the time-resolved study of protein dynamics in solution. This method is versatile and allows for accurate triggering of protein function.

0301 basic medicineKineticsBiochemistryQuantitative Biology::Subcellular Processes03 medical and health sciencesProtein structurebiophysicsstructural biologyGeneral Materials SciencephotocagingProtein Dimerization[PHYS]Physics [physics]Quantitative Biology::BiomoleculesCrystallographyChemistryScatteringQuantitative Biology::Molecular NetworksX-rayGeneral ChemistryCondensed Matter PhysicsbiophysicSmall moleculeX-ray solution scatteringResearch LettersSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)030104 developmental biologyStructural biologyQD901-999BiophysicsIUCrJ
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Encapsulation mechanisms and structural studies of GRM2 bacterial microcompartment particles

2019

Bacterial microcompartments (BMCs) are prokaryotic organelles consisting of a protein shell and an encapsulated enzymatic core. BMCs are involved in several biochemical processes, such as choline, glycerol and ethanolamine degradation and carbon fixation. Since non-native enzymes can also be encapsulated in BMCs, an improved understanding of BMC shell assembly and encapsulation processes could be useful for synthetic biology applications. Here we report the isolation and recombinant expression of BMC structural genes from the Klebsiella pneumoniae GRM2 locus, the investigation of mechanisms behind encapsulation of the core enzymes, and the characterization of shell particles by cryo-EM. We …

0301 basic medicineKlebsiella pneumoniaeScience030106 microbiologyGeneral Physics and AstronomyLyasesGeneral Biochemistry Genetics and Molecular BiologyArticleCholine03 medical and health sciencesSynthetic biologyBacterial ProteinsBacterial microcompartmentCryoelectron microscopyOrganellelcsh:ScienceCellular microbiologychemistry.chemical_classificationOrganellesBacterial structural biologyMultidisciplinarybiologyChemistryStructural geneQSignal transducing adaptor proteinGeneral ChemistryLyasebiology.organism_classificationRecombinant ProteinsKlebsiella pneumoniae030104 developmental biologyEnzymeGenetic LociBiophysicslcsh:QSynthetic BiologyNature Communications
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Human peroxin PEX3 is co-translationally integrated into the ER and exits the ER in budding vesicles

2015

The long-standing paradigm that all peroxisomal proteins are imported post-translationally into pre-existing peroxisomes has been challenged by the detection of peroxisomal membrane proteins (PMPs) inside the endoplasmic reticulum (ER). In mammals, the mechanisms of ER entry and exit of PMPs are completely unknown. We show that the human PMP PEX3 inserts co-translationally into the mammalian ER via the Sec61 translocon. Photocrosslinking and fluorescence spectroscopy studies demonstrate that the N-terminal transmembrane segment (TMS) of ribosome-bound PEX3 is recognized by the signal recognition particle (SRP). Binding to SRP is a prerequisite for targeting of the PEX3-containing ribosome•n…

0301 basic medicineLipoproteinsPeroxinBiologyEndoplasmic ReticulumBiochemistryenvironment and public healthPeroxins03 medical and health sciencesStructural BiologyGeneticsPeroxisomesHumansMolecular BiologySignal recognition particle receptorAdaptor Proteins Signal TransducingSec61 transloconSignal recognition particlebudding vesiclesEndoplasmic reticulumCèl·lules eucarioteshuman peroxisomal membrane protein PEX3Proteïnes de membranaMembrane ProteinsCell BiologyOriginal ArticlesIntracellular MembranesTransloconSEC61 TransloconTransport proteinCell biologyperoxisomal biogenesisProtein Transport030104 developmental biologyMembrane proteinOriginal ArticleRibosomesSignal Recognition Particle
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Mutations in SKI in Shprintzen-Goldberg syndrome lead to attenuated TGF-β responses through SKI stabilization.

2020

ABSTRACTShprintzen-Goldberg syndrome (SGS) is a multisystemic connective tissue disorder, with considerable clinical overlap with Marfan and Loeys-Dietz syndromes. These syndromes have commonly been associated with enhanced TGF-β signaling. In SGS patients, heterozygous point mutations have been mapped to the transcriptional corepressor SKI, which is a negative regulator of TGF-β signaling that is rapidly degraded upon ligand stimulation. The molecular consequences of these mutations, however, are not understood. Here we use a combination of structural biology, genome editing and biochemistry to show that SGS mutations in SKI abolish its binding to phosphorylated SMAD2 and SMAD3. This resul…

0301 basic medicineMaleSMADmedicine.disease_causeMarfan SyndromeActivin0302 clinical medicineGenome editingTransforming Growth Factor betaGene expressionBiology (General)MutationShprintzen-Goldberg syndromeGeneral NeuroscienceQRShprintzen–Goldberg syndromeGeneral MedicineLigand (biochemistry)Chromosomes and Gene ExpressionCell biologyDNA-Binding ProteinsMedicinePhosphorylationFemaleSignal TransductionResearch ArticleHumanTGF-βQH301-705.5ScienceBiologyGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciencesCraniosynostosesstomatognathic systemBiochemistry and Chemical BiologyProto-Oncogene ProteinsmedicineHumansGeneral Immunology and MicrobiologyPoint mutationmedicine.diseaseSKIArachnodactyly030104 developmental biologyStructural biologyMutation030217 neurology & neurosurgerySMADTransforming growth factoreLife
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The collagen type I segment long spacing (SLS) and fibrillar forms: Formation by ATP and sulphonated diazo dyes.

2016

The collagen type I segment long spacing (SLS) crystallite is a well-ordered rod-like molecular aggregate, ∼300nm in length, which is produced in vitro under mildly acidic conditions (pH 2.5-3.5) in the presence of 1mM ATP. The formation of the SLS crystallite amplifies the inherent linear structural features of individual collagen heterotrimers, due to the punctate linear distribution and summation of the bulkier amino acid side chains along the length of individual collagen heterotrimers. This can be correlated structurally with the 67nm D-banded collagen fibril that is found in vivo, and formed in vitro. Although first described many years ago, the range of conditions required for ATP-in…

0301 basic medicineMaterials sciencePolymersMethyl blueMuscle Fibers SkeletalGeneral Physics and AstronomyFibrilNegative StainingCollagen Type I03 medical and health scienceschemistry.chemical_compoundAdenosine TriphosphateStructural BiologyPolymer chemistryGeneral Materials ScienceColoring AgentsSirius RedEvans Bluechemistry.chemical_classification030102 biochemistry & molecular biologyFibrillogenesisCell BiologyPolyelectrolytesAmino acidCongo redMicroscopy Electron030104 developmental biologychemistryBiophysicsCrystalliteAzo CompoundsEvans BlueMicron (Oxford, England : 1993)
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