Search results for "Bioengineering"

showing 10 items of 1963 documents

Harnessing the potential of noninvasive in vivo preclinical imaging of the immune system: challenges and prospects.

2016

Preclinical imaging has become a powerful method for investigation of in vivo processes such as pharmacokinetics of therapeutic substances and visualization of physiologic and pathophysiological mechanisms. These are important aspects to understand diseases and develop strategies to modify their progression with pharmacologic interventions. One promising intervention is the application of specifically tailored nanoscale particles that modulate the immune system to generate a tumor targeting immune response. In this complex interaction between immunomodulatory therapies, the immune system and malignant disease, imaging methods are expected to play a key role on the way to generate new thera…

0301 basic medicineFluorescence-lifetime imaging microscopyTumor targetingBiomedical EngineeringMedicine (miscellaneous)Contrast MediaBioengineeringDevelopmentBiologyPharmacologic interventionMalignant diseaseImmunomodulation03 medical and health sciences0302 clinical medicineImmune systemIn vivoNeoplasmsBioluminescence imagingAnimalsHumansGeneral Materials ScienceOptical ImagingMagnetic Resonance Imaging030104 developmental biology030220 oncology & carcinogenesisImmune SystemPositron-Emission TomographyImmunologyDisease ProgressionNeurosciencePreclinical imagingNanomedicine (London, England)
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Metabolic and process engineering for biodesulfurization in Gram-negative bacteria

2017

32 p.-2 fig.-1 tab.

0301 basic medicineFossil FuelsGram-negative bacteriaScale-up030106 microbiologychemistry.chemical_elementBioengineeringThiophenesBiologyApplied Microbiology and BiotechnologyMetabolic engineering03 medical and health scienceschemistry.chemical_compoundPseudomonasOperonProcess engineering2. Zero hungerSulfur Compoundsbusiness.industryPseudomonasGeneral Medicinebiology.organism_classificationSulfurEnvironmentally friendly6. Clean waterKineticsBiodesulfurizationBiodegradation EnvironmentalchemistryDibenzothiopheneGram-negative bacteriaGenetic engineeringbusinessOrganosulfur compoundsMetabolic engineeringBacteriaMetabolic Networks and PathwaysDibenzothiopheneBiotechnology
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Model-based design of RNA hybridization networks implemented in living cells

2017

[EN] Synthetic gene circuits allow the behavior of living cells to be reprogrammed, and non-coding small RNAs (sRNAs) are increasingly being used as programmable regulators of gene expression. However, sRNAs (natural or synthetic) are generally used to regulate single target genes, while complex dynamic behaviors would require networks of sRNAs regulating each other. Here, we report a strategy for implementing such networks that exploits hybridization reactions carried out exclusively by multifaceted sRNAs that are both targets of and triggers for other sRNAs. These networks are ultimately coupled to the control of gene expression. We relied on a thermo-dynamic model of the different stable…

0301 basic medicineGeneticsNetwork architectureModels GeneticQHGene regulatory networkRNAGene ExpressionNucleic Acid HybridizationBiology03 medical and health sciencesNucleic acid thermodynamics030104 developmental biologyGene expressionModel-based designGeneticsEscherichia coliRNAThermodynamicsGene Regulatory NetworksSingle-Cell AnalysisSynthetic Biology and BioengineeringGeneQH426Function (biology)
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GH57 amylopullulanase from Desulfurococcus amylolyticus JCM 9188 can make highly branched cyclodextrin via its transglycosylation activity.

2018

Abstract Desulfurococcus amylolyticus is an anaerobic and hyperthermophilic crenarchaeon that can use various carbohydrates as energy sources. We found a gene encoding a glycoside hydrolase family 57 amylolytic enzymes (DApu) in a putative carbohydrate utilization gene cluster in the genome of D. amylolyticus . This gene has an open reading frame of 1,878 bp and consists of 626 amino acids with a molecular mass of 71 kDa. Recombinant DApu (rDApu) completely hydrolyzed pullulan to maltotriose by attacking α-1,6-glycosidic linkages, and was able to produce glucose and maltose from soluble starch and amylopectin. Although rDApu showed no activity toward α-cyclodextrin (CD) and β-CD, maltooctao…

0301 basic medicineGlycosylationGlycoside HydrolasesArchaeal ProteinsBioengineeringApplied Microbiology and BiotechnologyBiochemistrySubstrate Specificity03 medical and health scienceschemistry.chemical_compoundHydrolysisOpen Reading FramesGene clusterEnzyme StabilityMaltotrioseGlycoside hydrolaseCloning MolecularMaltoseGlucansCyclodextrins030102 biochemistry & molecular biologyDesulfurococcaceaePullulanMaltoseMolecular Weight030104 developmental biologychemistryBiochemistryAmylopectinEnergy sourceTrisaccharidesBiotechnologyEnzyme and microbial technology
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Structural commonalities and deviations in the hierarchical organization of crossed-lamellar shells: A case study on the shell of the bivalve Glycyme…

2016

11 pages; International audience; The structural organization of the palliostracum—the dominant part of the shell which is formed by the mantle cells—of Glycymeris glycymeris (Linné 1758) is comprised of five hierarchical levels with pronounced structural commonalities and deviations from other crossed-lamellar shells. The hierarchical level known as second order lamellae, present within other crossed-lamellar shells, is absent highlighting a short-coming of the currently used nomenclature. On the mesoscale, secondary microtubules penetrate the palliostracum and serve as crack arrestors. Moreover, the growth lamellae follow bent trajectories possibly impacting crack propagation, crack defle…

0301 basic medicineGlycymerisStructural organizationMaterials sciencebiologyMechanical Engineeringcrystal growthtoughnessFracture mechanicsGeometry02 engineering and technology[ SDV.IB.BIO ] Life Sciences [q-bio]/Bioengineering/Biomaterials021001 nanoscience & nanotechnologyCondensed Matter Physicsbiology.organism_classification03 medical and health sciencesCrystallography030104 developmental biologybiomimetic (assembly)Mechanics of MaterialsHierarchical organizationGeneral Materials ScienceLamellar structure0210 nano-technologyBiomineralizationJournal of Materials Research
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MPLA-coated hepatitis B virus surface antigen (HBsAg) nanocapsules induce vigorous T cell responses in cord blood derived human T cells.

2016

Chronic hepatitis B virus (HBV) infection is the most prevalent serious liver infection in the world. A frequent route of infection represents mother-to-child transmission. Efficient control of HBV replication depends on antigen-specific cellular immune response mediated by dendritic cells (DCs). Aim of the present study was to evaluate optimized adjuvant combinations, efficiently maturing monocyte-derived neonatal and adult dendritic cells (moDCs). In addition, the potential of polymeric HBsAg-nanocapsules (HBsAg-NCs) was investigated regarding up-take by moDCs and the subsequent induction of specific T cell responses in a human co-culture model. Simultaneous stimulation of moDCs with MPLA…

0301 basic medicineHBsAgHepatitis B virusT cellT-LymphocytesBiomedical EngineeringPharmaceutical ScienceMedicine (miscellaneous)Bioengineeringmedicine.disease_causeVirus03 medical and health sciences0302 clinical medicineImmune systemNanocapsulesmedicineHumansGeneral Materials ScienceHepatitis B VaccinesHepatitis B virusLiver infectionHepatitis B Surface Antigensbusiness.industryDendritic CellsHepatitis Bmedicine.diseaseFetal BloodHepatitis BVirology030104 developmental biologymedicine.anatomical_structureImmunologyAntigens SurfaceMolecular MedicinebusinessCD80030215 immunologyNanomedicine : nanotechnology, biology, and medicine
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Novel strategies in vaccine design: can nanocapsules help prevent and treat hepatitis B?

2017

0301 basic medicineHepatitis B virusBiomedical EngineeringMedicine (miscellaneous)BioengineeringDevelopmentmedicine.disease_causeHepatitis b surface antigenNanocapsules03 medical and health sciences0302 clinical medicineNanocapsulesmedicineHumansGeneral Materials ScienceHepatitis B Vaccines030212 general & internal medicineHepatitis B virusHepatitis B Surface Antigensbusiness.industryHepatitis Bmedicine.diseaseHepatitis BVirologyVaccination030104 developmental biologyImmunizationImmunizationbusinessNanomedicine (London, England)
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Surface Micro Discharge–Cold Atmospheric Pressure Plasma Processing of Common House Cricket Acheta domesticus Powder: Antimicrobial Potential and Lip…

2021

The growing world population and the need to reduce the environmental impact of food production drive the exploration of novel protein sources. Insects are being cultivated, harvested, and processed to be applied in animal and human nutrition. The inherent microbial contamination of insect matrices requires risk management and decontamination strategies. Thermal sterilization results in unfavorable cooking effects and oxidation of fatty acids. The present study demonstrates the risk management in Acheta domesticus (home cricket) powder with a low-energy (8.7–22.0 mW/cm2, 5 min) semi-direct surface micro discharge (SMD)–cold atmospheric pressure plasma (CAPP). At a plasma power density lower…

0301 basic medicineHistologyAcheta domesticusBiomedical EngineeringBacillus cereusinsect powderBioengineeringAtmospheric-pressure plasmaBacillus subtilisMass spectrometrycold plasmaMicrobial decontaminationFood safetylipids03 medical and health sciences0404 agricultural biotechnologyHouse cricketFood scienceBacillus megaterium2. Zero hunger030109 nutrition & dieteticsbiologyChemistryfungimicrobial decontamination04 agricultural and veterinary sciencesSterilization (microbiology)biology.organism_classificationNon-thermal processing040401 food scienceLipids3. Good healthfood safety13. Climate actionAchetaCold plasmaInsect powderTP248.13-248.65BiotechnologyFrontiers in Bioengineering and Biotechnology
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Metabolic Engineering of Bacterial Respiration: High vs. Low P/O and the Case of Zymomonas mobilis

2019

Respiratory chain plays a pivotal role in the energy and redox balance of aerobic bacteria. By engineering respiration, it is possible to alter the efficiency of energy generation and intracellular redox state, and thus affect the key bioprocess parameters: cell yield, productivity and stress resistance. Here we summarize the current metabolic engineering and synthetic biology approaches to bacterial respiratory metabolism, with a special focus on the respiratory chain of the ethanologenic bacterium Zymomonas mobilis. Electron transport in Z. mobilis can serve as a model system of bacterial respiration with low oxidative phosphorylation efficiency. Its application for redox balancing and re…

0301 basic medicineHistologyAerobic bacterialcsh:Biotechnologyrespiratory chainBiomedical EngineeringRespiratory chainBioengineering02 engineering and technologyOxidative phosphorylationZymomonas mobilisMetabolic engineeringredox balance03 medical and health scienceslcsh:TP248.13-248.65RespirationBioprocessstress resistencebiologyenergy couplingChemistryZymomonas mobilis021001 nanoscience & nanotechnologybiology.organism_classificationElectron transport chain030104 developmental biologyBiochemistry0210 nano-technologymetabolic engineeringBiotechnologyFrontiers in Bioengineering and Biotechnology
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High-Performance Biocomputing in Synthetic Biology-Integrated Transcriptional and Metabolic Circuits

2019

Biocomputing uses molecular biology parts as the hardware to implement computational devices. By following pre-defined rules, often hard-coded into biological systems, these devices are able to process inputs and return outputs-thus computing information. Key to the success of any biocomputing endeavor is the availability of a wealth of molecular tools and biological motifs from which functional devices can be assembled. Synthetic biology is a fabulous playground for such purpose, offering numerous genetic parts that allow for the rational engineering of genetic circuits that mimic the behavior of electronic functions, such as logic gates. A grand challenge, as far as biocomputing is concer…

0301 basic medicineHistologyComputer scienceProcess (engineering)lcsh:BiotechnologyBiomedical EngineeringBioengineering02 engineering and technologyField (computer science)Metabolic engineering03 medical and health sciencesSynthetic biologygenetic circuitslcsh:TP248.13-248.65ConceptualizationIntersection (set theory)business.industryBioengineering and Biotechnologybiocomputing021001 nanoscience & nanotechnologyboolean logic030104 developmental biologyPerspectiveKey (cryptography)metabolic networkssynthetic biology0210 nano-technologySoftware engineeringbusinessmetabolic engineeringHost (network)Biotechnology
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