Search results for " Kinetoplastida"

showing 5 items of 5 documents

CRISPR-mediated strand displacement logic circuits with toehold-free DNA

2021

DNA nanotechnology, and DNA computing in particular, has grown extensively over the past decade to end with a variety of functional stable structures and dynamic circuits. However, the use as designer elements of regular DNA pieces, perfectly complementary double strands, has remained elusive. Here, we report the exploitation of CRISPR-Cas systems to engineer logic circuits based on isothermal strand displacement that perform with toehold-free double-stranded DNA. We designed and implemented molecular converters for signal detection and amplification, showing good interoperability between enzymatic and nonenzymatic processes. Overall, these results contribute to enlarge the repertoire of su…

0106 biological sciencesLetterTranscription GeneticComputer scienceStreptococcus pyogenesRibonuclease HBiomedical EngineeringDNA Single-StrandedNanotechnology01 natural sciencesBiochemistry Genetics and Molecular Biology (miscellaneous)Displacement (vector)law.invention03 medical and health sciencesSynthetic biologychemistry.chemical_compoundComputers MolecularDNA computinglaw010608 biotechnologyCRISPR-Associated Protein 9Biological computingDNA nanotechnologyCRISPRNanotechnologyClustered Regularly Interspaced Short Palindromic RepeatsGene Regulatory NetworksDNA nanotechnologySynthetic biology030304 developmental biologyElectronic circuit0303 health sciencesGeneral MedicineRibonuclease PancreaticchemistryLogic gatebiological computingsynthetic biologyCRISPR-Cas SystemsEndopeptidase KGenetic EngineeringDNARNA Guide Kinetoplastida
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Pseudouridine: Still mysterious, but never a fake (uridine)!

2014

International audience; Pseudouridine () is the most abundant of >150 nucleoside modifications in RNA. Although was discovered as the first modified nucleoside more than half a century ago, neither the enzymatic mechanism of its formation, nor the function of this modification are fully elucidated. We present the consistent picture of synthases, their substrates and their substrate positions in model organisms of all domains of life as it has emerged to date and point out the challenges that remain concerning higher eukaryotes and the elucidation of the enzymatic mechanism.

RNA MitochondrialSaccharomyces cerevisiaeReviewBiologyModified nucleosidesPseudouridine03 medical and health scienceschemistry.chemical_compound0302 clinical medicineRNA modificationEscherichia coliHumansRNA Processing Post-Transcriptional[SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry Molecular Biology/Biochemistry [q-bio.BM]Intramolecular TransferasesUridineMolecular Biology030304 developmental biology0303 health sciencesRNACell BiologyRNA Transfer Amino Acid-SpecificRibonucleoproteins Small NuclearUridineIsoenzymeschemistryBiochemistryRNA Ribosomal030220 oncology & carcinogenesisTransfer RNANucleic Acid ConformationRNARibosomesNucleosidePseudouridineSmall nuclear RNA[SDV.MHEP]Life Sciences [q-bio]/Human health and pathologyRNA Guide Kinetoplastida
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A Comparison of Techniques to Evaluate the Effectiveness of Genome Editing

2018

Genome editing using engineered nucleases (meganucleases, zinc finger nucleases, transcription activator-like effector nucleases) has created many recent breakthroughs. Prescreening for efficiency and specificity is a critical step prior to using any newly designed genome editing tool for experimental purposes. The current standard screening methods of evaluation are based on DNA sequencing or use mismatch-sensitive endonucleases. They can be time-consuming and costly or lack reproducibility. Here, we review and critically compare standard techniques with those more recently developed in terms of reliability, time, cost, and ease of use.

0301 basic medicineDNA End-Joining Repair[SDV.BIO]Life Sciences [q-bio]/BiotechnologyBioengineeringComputational biologyBiologyDNA sequencing03 medical and health sciencesGenome editingScreening methodAnimalsHumansDNA Breaks Double-StrandedHomologous RecombinationComputingMilieux_MISCELLANEOUSGeneticsGene EditingHigh-Throughput Nucleotide SequencingPlantsEndonucleasesZinc finger nuclease030104 developmental biologyCRISPR-Cas SystemsGenetic EngineeringBiotechnologyRNA Guide Kinetoplastida
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Midbiotics: conjugative plasmids for genetic engineering of natural gut flora.

2019

ABSTRACT The possibility to modify gut bacterial flora has become an important goal, and various approaches are used to achieve desirable communities. However, the genetic engineering of existing microbes in the gut, which are already compatible with the rest of the community and host immune system, has not received much attention. Here, we discuss and experimentally evaluate the possibility to use modified and mobilizable CRISPR-Cas9-endocing plasmid as a tool to induce changes in bacterial communities. This plasmid system (briefly midbiotic) is delivered from bacterial vector into target bacteria via conjugation. Compared to, for example, bacteriophage-based applications, the benefits of …

Gene Editingantibiotic resistanceBrief Reportbeta-Lactam ResistanceAnti-Bacterial AgentsGastrointestinal Microbiomeconjugative plasmidConjugation GeneticGenetic engineeringEscherichia coliESBL carriageCRISPR-Cas SystemsCRISPR editingenterobacteriaPlasmidsRNA Guide KinetoplastidaGut microbes
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Engineering CRISPR guide RNA riboswitches for in vivo applications

2019

CRISPR-based genome editing provides a simple and scalable toolbox for a variety of therapeutic and biotechnology applications. Whilst the fundamental properties of CRISPR proved easily transferable from the native prokaryotic hosts to eukaryotic and multicellular organisms, the tight control of the CRISPR-editing activity remains a major challenge. Here we summarise recent developments of CRISPR and riboswitch technologies and recommend novel functionalised synthetic-gRNA (sgRNA) designs to achieve inducible and spatiotemporal regulation of CRISPR-based genetic editors in response to cellular or extracellular stimuli. We believe that future advances of these tools will have major implicati…

0106 biological sciencesRiboswitchComputer scienceGenetic enhancementBiomedical EngineeringBioengineeringComputational biology01 natural sciences03 medical and health sciencesSynthetic biologyGenome editing010608 biotechnologyHumansCRISPRClustered Regularly Interspaced Short Palindromic RepeatsGuide RNAQH426030304 developmental biologyGene Editing0303 health sciencesReproducibility of ResultsRNAMulticellular organismRiboswitchGenetic EngineeringRNA Guide KinetoplastidaBiotechnologyCurrent Opinion in Biotechnology
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