Search results for "Noncoding DNA"

showing 3 items of 3 documents

Factors Behind Junk DNA in Bacteria

2012

Although bacterial genomes have been traditionally viewed as being very compact, with relatively low amounts of repetitive and non-coding DNA, this view has dramatically changed in recent years. The increase of available complete bacterial genomes has revealed that many species present abundant repetitive DNA (i.e., insertion sequences, prophages or paralogous genes) and that many of these sequences are not functional but can have evolutionary consequences as concerns the adaptation to specialized host-related ecological niches. Comparative genomics analyses with close relatives that live in non-specialized environments reveal the nature and fate of this bacterial junk DNA. In addition, the…

Comparative genomicsGeneticslcsh:QH426-470Pseudogenegenome degradationjunk DNApseudogenesBacterial genome sizeReviewBiologyintergenic regions (IGR)GenomeNoncoding DNAlcsh:GeneticsIntergenic regionjunk DNA; pseudogenes; intergenic regions (IGR); insertion sequences (IS); genome degradationGeneticsInsertion sequenceGeneinsertion sequences (IS)Genetics (clinical)Genes
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Sequence and evolution of the gene for the monomeric globin I and its linkage to genes coding for dimeric globins in the insect Chironomus thummi.

1995

We isolated genomic clones containing sequences encoding globins I and IA from a Chironomus thummi thummi genomic library. Three clones contain globin IA (ctt-1A) genes, while one contains a globin I (ctt-1) gene. The coding regions of the four genes are identical except for the single base substitution accounting for the globin I/IA polymorphism. The noncoding DNA flanking the coding region is more than 98% similar, confirming a previous hypothesis that the globin ctt-1 and ctt-1A genes are alleles. Hemoglobins I and IA are monomeric in the insect hemolymph. Earlier in situ hybridization studies suggested that monomeric and dimeric globin genes are clustered at different chromosomal loci. …

Genetic LinkageMolecular Sequence DataGenes InsectBiologyChironomidaechemistry.chemical_compoundMolecular evolutionhemic and lymphatic diseasesGeneticsCoding regionAnimalsGenomic libraryGlobinAmino Acid SequenceMolecular BiologyGeneEcology Evolution Behavior and SystematicsIn Situ HybridizationGeneticsPolytene chromosomeBase SequenceSequence Homology Amino AcidChromosome MappingMolecular biologyNoncoding DNABiological EvolutionGlobinschemistrySequence AlignmentDNAJournal of molecular evolution
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Patterns and rates of nucleotide substitution, insertion and deletion in the endosymbiont of antsBlochmannia floridanus

2009

Genome reduction is a general process that has been studied in numerous symbiotic bacteria associated with insects. We investigated the last stages of genome degradation in Blochmannia floridanus, a mutualistic bacterial endosymbiont of the ant Camponotus floridanus. We determined the tempo (rates of insertion and deletion) and mode (size and number of insertion-deletion events) of the process in the last 200,000 years by analysing a total of 16 intergenic regions in several strains of this endosymbiont from different ant populations. We provide the first calculation of the reduction rate for noncoding DNA in this endosymbiont (2.2 x 10(-8) lost nucleotides/site/year) and compare it with th…

medicine.disease_causePolymerase Chain ReactionPolymorphism Single NucleotideGenomeIntergenic regionGeneticsmedicineAnimalsSymbiosisIndelEscherichia coliEcosystemPhylogenyEcology Evolution Behavior and SystematicsSequence DeletionGeneticsGenomeBase SequencebiologyAntsbiology.organism_classificationNoncoding DNADNA Transposable ElementsFloridaMicrosatelliteCamponotus floridanusBuchneraMolecular Ecology
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