Search results for "Codon"

showing 10 items of 196 documents

Allium therinanthum (Amaryllidaceae), a new species from Israel

2014

Allium therinanthum, a new species of A. sect. Codonoprasum, is described and illustrated from southern Mt. Hermon (Israel). It is a late-flowering diploid species (2n = 16), growing on calcareous substrates of the mountain belt. It is a narrowly distributed geophyte, showing morphological relationships mainly with A. tardiflorum, a typical autumnal species also occurring in Israel within the pinewoods of Mt. Carmel. The morphology, karyology, leaf anatomy, ecology, conservation status and taxonomical relations are examined for both species. A taxonomic comparison with the most allied late flowering species of the sect. Codonoprasum is provided.

biologyEcologySettore BIO/02 - Botanica SistematicaBiodiversityPlant ScienceAmaryllidaceaebiology.organism_classificationAlliaceae Allium sect. Codonoprasum karyology late flowering leaf anatomy phenetic tree taxonomyAllium therinanthumBotanyConservation statusTaxonomy (biology)Ecology Evolution Behavior and SystematicsTaxonomyPhytotaxa
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Retrovirus infection and aging: Increase in UAG suppressor tRNA expression in aged mice.

1994

Summary The effect of aging on expression of a natural glutamine suppressor tRNA (tRNA Gln(UmUG) ) was studied in different tissues of mice; this tRNA recognizes UAG and inserts glutamine at the site of the termination codon. The level of tRNA Gln(UmUG) was found to be strongly increased in aged mice, compared to newborn and mature animals. An elevated expression of tRNA Gln(UmUG) has also been found in retrovirus-infected cells; in Moloney virus-infected cells the suppressor tRNA allows to read-through the UAG codon within the retroviral protease gene. We suggest that the increase in the level of tRNA Gln(UmUG) may influence retroviral gene expression with age.

chemistry.chemical_classificationAgingHealth (social science)biologybiology.organism_classificationMolecular biologyStop codonlaw.inventionGlutamineRetrovirusEnzymechemistryBiochemistrylawGene expressionTransfer RNASuppressorGeriatrics and GerontologyGerontologyGeneArchives of gerontology and geriatrics
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Sequence of a new tRNALeu(U∗AA) from brewer's yeast

1991

The nucleotide sequence of a new tRNA(Leu)(anticodon U*AA) from Saccharomyces cerevisiae which could recognize exclusively the UUA codon has been determined. Its primary structure is: pGGAGGGUUGm2GCac4CGAGDGmGDCDAAGGCm2(2)GGCAGACmUU*AAm1GA++ + psi CUGUUGGACGGUUGUCCGm5CGCGAGT psi CGm1A(orA)ACCUCGCAUCCUUCACCA. This tRNA has a large extraloop and contains 15 modified nucleotides. So far it is the third isoacceptor tRNA for leucine in yeast. It has 61% homology with tRNA(Leu)(anticodon m5CAA) and 63% homology with tRNA(Leu)(anticodon UAG), the two other known yeast tRNAs(Leu).

chemistry.chemical_classificationGeneticsRNA Transfer LeuBase SequencebiologyMolecular Sequence DataSaccharomyces cerevisiaeNucleic acid sequenceProtein primary structureSaccharomyces cerevisiaeGeneral Medicinebiology.organism_classificationBiochemistryYeastHomology (biology)BiochemistrychemistryTransfer RNANucleic Acid ConformationElectrophoresis Gel Two-DimensionalNucleotideLeucineCodonBiochimie
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Investigating REPAIRv2 as a Tool to Edit CFTR mRNA with Premature Stop Codons

2020

Cystic fibrosis (CF) is caused by mutations in the gene encoding the transmembrane conductance regulator (CFTR) protein. Some CF patients are compound heterozygous or homozygous for nonsense mutations in the CFTR gene. This implies the presence in the transcript of premature termination codons (PTCs) responsible for a truncated CFTR protein and a more severe form of the disease. Aminoglycoside and PTC124 derivatives have been used for the read-through of PTCs to restore the full-length CFTR protein. However, in a precision medicine framework, the CRISPR/dCas13b-based molecular tool &ldquo

congenital hereditary and neonatal diseases and abnormalitiesRNA editingMutantNonsense mutationSettore BIO/11 - Biologia MolecolareBiologyCRISPR/dCas13bCatalysislcsh:Chemistrycystic fibrosisInorganic ChemistryGuide RNASettore BIO/06 - Anatomia Comparata E CitologiaPhysical and Theoretical Chemistrylcsh:QH301-705.5Molecular BiologyGeneSpectroscopyMessenger RNApremature termination codons (PTCs)Organic ChemistryGeneral Medicinerespiratory systemStop codonTransmembrane proteinrespiratory tract diseasesComputer Science ApplicationsCell biologySettore BIO/18 - Geneticalcsh:Biology (General)lcsh:QD1-999RNA editingInternational Journal of Molecular Sciences
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Integrated computational and experimental approaches for the identification of new molecules with readthrough activity on premature termination codon…

2015

cystic fibrosiscomputational approaches; readthrough; premature stop codon; cystic fibrosisreadthroughpremature stop codoncomputational approache
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Molecular Approaches Fighting Nonsense

2021

Nonsense mutations are the result of single nucleotide substitutions in the DNA that change a sense codon (coding for an amino acid) to a nonsense or premature termination codon (PTC) within the coding region of the mRNA [...]

endocrine system diseasesQH301-705.5media_common.quotation_subjectNonsenseNonsense mutationBiologyCatalysisInorganic ChemistrySense Codonchemistry.chemical_compoundHumansCoding regionNucleotideBiology (General)Physical and Theoretical ChemistryQD1-999Molecular BiologySpectroscopymedia_commonchemistry.chemical_classificationGeneticsMessenger RNAOrganic ChemistryGenetic Diseases InbornSettore CHIM/06 - Chimica OrganicaGeneral MedicineNonsense Mediated mRNA DecayComputer Science ApplicationsAmino acidChemistryn/aEditorialchemistryCodon NonsenseGenetic DiseasesProtein BiosynthesisMutationsense organsDNAInternational Journal of Molecular Sciences
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Derivati Ossadiazolici per il trattamento della fibrosi cistica: Readthrough di mutazioni nonsense

fibrosi cistica mutazioni nonsense ossadiazolo codoni di stop prematuri
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Allium aetnense (Amaryllidaceae), a new species from Sicily.

2013

A new species from Mt Etna (Sicily), Allium aetenense of A. sect. Codonoprasum, is described and illustrated. It is a diploid species (2n = 16) that grows on basaltic rocks in the mountain belt and shows close relationships with A. tenuiflorum of the Italian peninsula. Its morphology, karyology, leaf anatomy, seed coat microsculpturing, ecology and taxonomic position are examined.

geographyCoatgeography.geographical_feature_categoryseed microsculpturingSettore BIO/02 - Botanica SistematicaMorphology (biology)Plant ScienceAmaryllidaceaeBiologybiology.organism_classificationAllium karyology morphology section Codonoprasum seed microsculpturing SicilyAlliumkaryologyCodonoprasumPeninsulaBotanymorphologyAlliumAllium; karyology; morphology; Codonoprasum; seed microsculpturing; SicilySicilyEcology Evolution Behavior and SystematicsBasaltic rock
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A new autumn-flowering species of Allium (Alliaceae) from Croatia

2009

Here we describe Allium telmatum Bogdanovic, Brullo, Giusso & Salmeri, a new species of Allium sect. Codonoprasum from North Dalmatia (Croatia). Its chromosome number (2n = 32), karyotype, leaf anatomy, ecology and taxonomical relationships are examined. Several features, such as phenology (flowering in autumn), occurrence in coastal salt marshes, tetraploid chromosome number, and morphology, indicate that it is most closely related to the Tyrrhenian species Allium savii. On the basis of our herbarium survey, we present here a distribution map of the autumn-flowering species of Allium sect. Codonoprasum in the Mediterranean area.

geographygeography.geographical_feature_categoryDalmatiaLeaf anatomyPhenologySettore BIO/02 - Botanica SistematicaPaleontologyAllium telmatum Allium Sect. Codonoprasum Dalmatia karyology leaf anatomy taxonomyAllium sect. CodonoprasumPlant ScienceBiologybiology.organism_classificationAllium saviiPlant ecologyHerbariumSalt marshBotánicaAllium telmatum; Allium sect. Codonoprasum; Dalmatia; Karyology; Leaf anatomy; TaxonomyBotanyAlliumTaxonomy (biology)Allium telmatumKaryologyTaxonomy
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Allium sphaeronixum (Amaryllidaceae), A New Species from Turkey

2023

In this paper, Allium sphaeronixum, a new species of the sect. Codonoprasum from Turkey, is described and illustrated. The new species is endemic to Central Anatolia, limited to the area of Nevşehir, where it grows on sandy or rocky soil at an elevation of 1000–1300 m a.s.l. Its morphology, phenology, karyology, leaf anatomy, seed testa micromorphology, chorology, and conservation status are examined in detail. The taxonomic relationships with the closest allied species, A. staticiforme and A. myrianthum, are also highlighted and discussed.

karyologytaxonomyEcologyseed micromorphologySettore BIO/02 - Botanica Sistematicasect. CodonoprasumAnatoliaendemicleaf anatomyAnatolia endemic Sect. Codonoprasum karyology leaf anatomy taxonomy seed micromorphologyPlant ScienceAnatolia; endemic; sect. <i>Codonoprasum</i>; karyology; leaf anatomy; taxonomy; seed micromorphologyEcology Evolution Behavior and Systematics
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