Search results for "Base Sequence"

showing 10 items of 1146 documents

Isolation, sequence analysis and characterization of cDNA clones coding for the C chain of mouse C1q. Sequence similarity of complement subcomponent …

1992

A mouse macrophage lambda gt11 cDNA library was screened using a genomic DNA clone coding for the C-chain gene of human C1q. Approximately 600,000 recombinant phage plaques were hybridized with peroxidase-labeled human C-chain probe and detected by enhanced chemiluminescence. Five positive clones were obtained. The size of the full-length cDNA is 1019 bp. The sequence identity of the nucleotide sequence with human C1q C chain is 79%, the identity of the deduced amino acid sequences is 73%. The mouse C1q C chain exhibits the same structural features as the human C chain, e.g. conservation of the cysteine residues. Like the mouse A chain, the mouse C chain has an RGD sequence that may be reco…

Sequence analysisMolecular Sequence DataNerve Tissue ProteinsSequence alignmentBiologyBiochemistrylaw.inventionMicelawComplementary DNAAnimalsHumansTissue DistributionAmino Acid SequenceRNA MessengerProtein PrecursorsGeneComplement C1qConserved SequenceBase SequenceSequence Homology Amino AcidcDNA libraryComplement C1qMacrophagesNucleic acid sequenceNucleic Acid HybridizationDNABlotting NorthernMolecular biologyRecombinant DNACollagenEuropean Journal of Biochemistry
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Improved acid tolerance of a recombinant strain of Escherichia coli expressing genes from the acidophilic bacterium Oenococcus oeni.

2001

Aims:Oenococcus oeni is a lactic acid bacterium used in wine fermentation. Two open reading frames (orfB and orfC) were identified in the upstream region of the hsp18 gene, encoding the small heat-shock protein Lo18. Expression of these genes in conditions of acid stress was studied in Escherichia coli. Methods and Results: Sequence analysis showed that orfB encodes a putative transcriptional regulator of the LysR family. The protein encoded by orfC shares homologies with multi-drug resistance systems. Heterologous expression of orfB, orfC and hsp18 genes in Escherichia coli significantly enhanced the viability of the host strain under acidic conditions. Conclusions: It was demonstrated tha…

Sequence analysisMolecular Sequence DataRestriction MappingDNA RecombinantGene Expressionmedicine.disease_causeApplied Microbiology and BiotechnologyMicrobiologyOpen Reading FramesBacterial ProteinsmedicineEscherichia coliAmino Acid SequenceEscherichia coliGeneHeat-Shock ProteinsOenococcus oeniGeneticsbiologyBase Sequencebiology.organism_classificationEnterobacteriaceaeAdaptation PhysiologicalGram-Positive CocciOpen reading frameGenes BacterialHeterologous expressionGenetic EngineeringAcidsOenococcusCell DivisionLeuconostocPlasmidsLetters in applied microbiology
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Sequence analysis of the rDNA spacer of Paracentrotus lividus and observations about pre-rRNA processing. NTS sequence of Paracentrotus lividus rDNA.

1993

We have isolated and sequenced one intergenic region and a small part of the flanking regions (18S and 26S rRNA coding regions) of the rRNA-encoding genes (rDNA) from the sea urchin Paracentrotus lividus. This region is about 3.8 Kb long. Northern blot hybridizations and S1 mapping experiments demonstrated the presence of a partially processed 21S rRNA precursor while has the same 5' terminus as the 32S primary precursor, also in developmental stages characterized by a low rate of rRNA synthesis.

Sequence analysisMolecular Sequence DataRestriction MappingDNA RibosomalParacentrotus lividusIntergenic regionSpecies SpecificitySequence Homology Nucleic AcidGeneticsRNA PrecursorsAnimalsRNA Processing Post-TranscriptionalRRNA processingMolecular BiologyRibosomal DNAbiologyBase SequenceGeneral MedicineSpacer DNARibosomal RNAbiology.organism_classificationMolecular biologyExternal transcribed spacerSea UrchinsOocytesFemaleMolecular biology reports
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Phylogenetic relationship of ubiquitin repeats in the polyubiquitin gene from the marine sponge Geodia cydonium

1994

Ubiquitin is a 76-residue protein which is highly conserved among eukaryotes. Sponge (Porifera) ubiquitin, isolated from Geodia cydonium, is encoded by a gene (termed GCUBI) with six repeats, GCUBI-1 to GCUBI-6. All repeat units encode the same protein (with one exception: GCUBI-4 encodes ubiquitin with a change of Leu to Val at position 71). On the nt level the sequences of the six repeats differ considerably. All changes (except in GCUBI-4) are silent substitutions, which do not affect the protein structure. However, there is one major difference between the repeats: Codons from both codon families (TCN and AGPy) are simultaneously used for the serine at position 65. Using this characteri…

Sequence analysisMolecular Sequence Datamedicine.disease_causeUbiquitinPhylogeneticsGene duplicationGeneticsmedicineAnimalsGeodiaAmino Acid SequenceUbiquitinsMolecular BiologyGenePhylogenyEcology Evolution Behavior and SystematicsRepetitive Sequences Nucleic AcidGeneticsMutationBase SequencebiologyPhylogenetic treeDNASequence Analysis DNAbiology.organism_classificationBiological EvolutionPoriferaMutationbiology.proteinJournal of Molecular Evolution
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Genetic organization of the mle locus and identification of a mleR-like gene from Leuconostoc oenos

1996

Characterization of the mle locus harboring the malolactic enzyme gene mleA and malate permease gene mleP from Leuconostoc oenos was completed in this study by mRNA analysis. Northern (RNA) blot experiments revealed a 2.6-kb transcript, suggesting an operon structure harboring mleA and mleP genes. Primer extension analysis showed that the mle operon has a single transcription start site located 17 nucleotides upstream of the ATG translation start site for the mleA gene. We found sequences, TTGACT and TATGAT (which are separated by 18 bp), that are closely related to the gram-positive and Escherichia coli consensus promoter sequences. Upstream of the mleA gene, an 894-bp open reading frame t…

Sequence analysisOperonMolecular Sequence DataLeuconostoc oenosMalatesLocus (genetics)BiologyApplied Microbiology and BiotechnologyOpen Reading FramesOperon[SDV.BBM] Life Sciences [q-bio]/Biochemistry Molecular BiologyAmino Acid SequenceLactic AcidGenemalolactic enzymeGeneticsRegulation of gene expressionmalateBase SequenceEcologyLactococcus lactisNucleic acid sequenceChromosome MappingregulationBlotting Northernbiology.organism_classificationMolecular biologyOpen reading frameGenes BacterialLeuconostocResearch ArticleFood ScienceBiotechnologyApplied and Environmental Microbiology
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Two changes of the same nucleotide confer resistance to diuron and antimycin in the mitochondrial cytochrome b gene of Schizosaccharomyces pombe

1988

AbstractDiuron (3-(3,4-dichlorophenyl)-1,1-dimethylurea) and antimycin, both inhibitors of mitochondrial respiration, block electron flow between cytochromes b and c1. Mutants resistant to either drug have been selected using Schizosaccharomyces pombe strains with an extrachromosomally inherited mutator. In analogy to Saccharomyces cerevisiae these mutational sites were assumed to map in the cytochrome b gene. DNA sequence analysis showed that two changes in the same nucleotide are responsible for resistance to antimycin and diuron. Analysis of resistant and sensitive progeny of crosses between the mutants and the wild type confirmed the correlation between mutational alteration and resista…

Sequence analysisSaccharomyces cerevisiaeMutantGenes FungalMolecular Sequence DataBiophysicsAntimycin AMutational alterationBiochemistryAntimycin resistanceSpecies SpecificityStructural BiologySchizosaccharomycesGenetics(Schizosaccharomyces pombe)AnimalsHumansNucleotideAmino Acid SequenceMolecular BiologyGeneDNA sequence analysischemistry.chemical_classificationbiologyBase SequenceCytochrome bWild typeDrug Resistance MicrobialCell Biologybiology.organism_classificationCytochrome b GroupMitochondrial cytochrome b geneMolecular biologyDiuron resistancechemistryBiochemistryGenesDiuronSchizosaccharomyces pombeSaccharomycetalesMutator strainFEBS Letters
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Enterovirus Co-infections and Onychomadesis after Hand, Foot, and Mouth Disease, Spain, 2008

2011

Mixed infection of enteroviruses may explain the rare complication of nail shedding. Onychomadesis after HFMD

SerotypeMaleEpidemiologyviruseslcsh:Medicinemedicine.disease_causeCommunicable Diseases Emergingskin and connective tissue diseasesPhylogenybiologyintegumentary systementerovirusvirus diseasesEnterovirus B HumanInfectious DiseasesChild Preschoolnail sheddingFemaleFoot (unit)Microbiology (medical)complicationsCoxsackievirusOnychomadesislcsh:Infectious and parasitic diseasesNail Diseasesco-infectionstomatognathic systemmedicineEnterovirus InfectionsHumansviruseslcsh:RC109-216TypingSerotypingonychomadesisBase SequenceResearchlcsh:ROutbreakInfantand mouth diseasebiology.organism_classificationmedicine.diseaseVirologyHFMDEnterovirus A HumanNail diseaseSpainCase-Control StudiesfootDNA ViralEnterovirushandHand Foot and Mouth DiseaseEmerging Infectious Diseases
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Nucleotide variation in the VP7 gene affects PCR genotyping of G9 rotaviruses identified in Italy

2003

A modified (aFT9m) and a degenerate (aFT9d) version of the rotavirus G9-specific primer (aFT9) allowed strains that were previously untypable, because of point mutations accumulating at the primer binding site, to be G typed by reverse transcription-polymerase chain reaction. The strains were collected during 2001-2002 in Italy in hospitals of the Apulia region, from children affected by severe rotavirus-associated enteritis. Using a wide selection of G9 rotaviruses detected worldwide, sequencing of the G9 untypable strains, sequence comparison, and phylogenetic analysis showed that the Italian strains have strong genetic similarity (< or =99.4%) to G9 rotaviruses identified recently in man…

SerotypeRotavirusGenotypeReassortmentMolecular Sequence DataBiologymedicine.disease_causePolymerase Chain ReactionRotavirus InfectionsVirologyRotavirusGenetic variationGenotypemedicineHumansTypingChildGenotypingAntigens ViralPhylogenyDNA PrimersGeneticsBase SequenceGenetic VariationVirologyEnteritisInfectious DiseasesItalyCapsid ProteinsPrimer binding site
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A comparative analysis of the products of GROEL-1 gene fromChlamydia trachomatisserovar D and the HSP60 var1 transcript fromHomo sapienssuggests a po…

2009

Summary Chlamydia trachomatis serovar D produces large quantities of HSP60-1 during infections, which accumulate inside the host cell inducing autoimmunity. We compare the aminoacid sequences of the human HSP60 with the bacterial counterpart to better elucidate how CTHSP60 may simulate HSP60 from human origin during infection and may induce an autoimmune response. As a result of the comparison we suggest several possible epitopes of the CTHSP60, which may induce autoimmunity.

Serotypeanimal structuresTranscription GeneticMolecular Sequence DataImmunologyAutoimmunityChlamydia trachomatischemical and pharmacologic phenomenaBiologymedicine.disease_causecomplex mixturesEpitopeAutoimmunityGeneticsmedicineHumansAmino Acid SequenceMolecular BiologyGeneGenetics (clinical)GeneticsBase SequencefungiChaperonin 60General MedicineChlamydia InfectionsHsp60 Chlamydia trachomatisGroELHomo sapiensHSP60Chlamydia trachomatisSequence AlignmentInternational Journal of Immunogenetics
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Pythium perplexum isolated from soil in France: morphology, molecular characterisation and biological control.

2001

Pythium perplexum (F-926) was isolated from a soil sample taken in the Burgundy region in France. In 1907, it was mistakenly described by Bulter as P. vexans. Despite morphological resemblance, the comparison between the internal transcribed spacer 1 regions of the ribosomal DNA of the two fungi leaves no doubt of their different identities. P. perplexum was found to be highly pathogenic to cucumber seedlings. Damping-off disease of cucumber caused by P. perplexum can effectively be controlled by using the soil bacterium Serratia plymuthica (B-781). The details of the morphology and the molecular characterisation of P. perplexum and its biological control with S. plymuthica are described he…

SerratiabiologyBase SequenceDamping offMolecular Sequence DataBiological pest controlPythiumSequence Analysis DNAbiology.organism_classificationMicrobiologyBotanyAntibiosisDNA Ribosomal SpacerPythiumFranceInternal transcribed spacerCucumis sativusPhycomycetesPest Control BiologicalRibosomal DNACucurbitaceaeBacteriaSoil MicrobiologyPlant DiseasesMicrobiological research
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