0000000000144031

AUTHOR

Barbara Bramanti

showing 7 related works from this author

Absence of the lactase-persistence-associated allele in early Neolithic Europeans.

2007

Lactase persistence (LP), the dominant Mendelian trait conferring the ability to digest the milk sugar lactose in adults, has risen to high frequency in central and northern Europeans in the last 20,000 years. This trait is likely to have conferred a selective advantage in individuals who consume appreciable amounts of unfermented milk. Some have argued for the “culture-historical hypothesis,” whereby LP alleles were rare until the advent of dairying early in the Neolithic but then rose rapidly in frequency under natural selection. Others favor the “reverse cause hypothesis,” whereby dairying was adopted in populations with preadaptive high LP allele frequencies. Analysis based on the cons…

medicine.medical_treatmentPopulationLactoseBiologyDNA MitochondrialPolymorphism Single NucleotideBone and BonesWhite PeopleNOLactose IntolerancemedicineHumansAlleleeducationSelectionAllele frequencyAllelesHistory AncientLactaseGeneticseducation.field_of_studyMultidisciplinaryNatural selectionAncient DNAHaplotypeLactaseEmigration and ImmigrationBiological SciencesAncient DNA Dairying SelectionEuropeDairyingLactase persistenceAncient DNAGenetics PopulationTandem Repeat SequencesToothProceedings of the National Academy of Sciences of the United States of America
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Yersinia pestis DNA from Skeletal Remains from the 6th Century AD Reveals Insights into Justinianic Plague

2013

Yersinia pestis, the etiologic agent of the disease plague, has been implicated in three historical pandemics. These include the third pandemic of the 19th and 20th centuries, during which plague was spread around the world, and the second pandemic of the 14th–17th centuries, which included the infamous epidemic known as the Black Death. Previous studies have confirmed that Y. pestis caused these two more recent pandemics. However, a highly spirited debate still continues as to whether Y. pestis caused the so-called Justinianic Plague of the 6th–8th centuries AD. By analyzing ancient DNA in two independent ancient DNA laboratories, we confirmed unambiguously the presence of Y. pestis DNA in…

MaleHistoryYersinia pestis590Social and Behavioral SciencesPandemicBiology (General)16th CenturyPhylogenyHistory 15th CenturybiologyBacterialHistory 19th Century20th CenturyBiological AnthropologyHistory 16th Century17th CenturyFemaleBase Sequence; Bone and Bones; DNA Bacterial; Female; Genotype; History 15th Century; History 16th Century; History 17th Century; History 19th Century; History 20th Century; History Medieval; Humans; Male; Molecular Sequence Data; Pandemics; Yersinia pestis; Phylogeny; PlagueMedievalResearch ArticleDNA BacterialGenotypeQH301-705.5ImmunologyMolecular Sequence DataPlague (disease)MicrobiologyBone and BonesNOHistory 17th CenturyVirologyGeneticsHumansBase sequenceMolecular BiologyPandemicsBiologyPlague bacillus19th CenturyPlagueBase SequenceDNARC581-607History 20th Centurybiology.organism_classificationVirologyHistory Medieval15th CenturyAncient DNAYersinia pestisAnthropologyYersinia pestis DNAParasitologyImmunologic diseases. Allergy
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Distinct Clones of Yersinia pestis Caused the Black Death

2010

From AD 1347 to AD 1353, the Black Death killed tens of millions of people in Europe, leaving misery and devastation in its wake, with successive epidemics ravaging the continent until the 18th century. The etiology of this disease has remained highly controversial, ranging from claims based on genetics and the historical descriptions of symptoms that it was caused by Yersinia pestis to conclusions that it must have been caused by other pathogens. It has also been disputed whether plague had the same etiology in northern and southern Europe. Here we identified DNA and protein signatures specific for Y. pestis in human skeletons from mass graves in northern, central and southern Europe that …

Yersinia pestis[SDV]Life Sciences [q-bio]Sequence HomologyDiseaseMESH: Base SequenceMESH: Genetic Markers[SHS]Humanities and Social SciencesDisease OutbreaksInfectious Diseases/Bacterial InfectionsMESH: GenotypeGenotypeMass ScreeningBiology (General)MESH: Disease OutbreaksMESH: PhylogenyCladePhylogenyGenetics0303 health sciencesMicrobiology/Microbial Evolution and GenomicsbiologyClones; Yersinia pestis; Black DeathBacterialGenetics and Genomics/Microbial Evolution and Genomics3. Good healthEuropeEvolutionary Biology/Human EvolutionInfectious DiseasesResearch ArticleDNA BacterialGenetic MarkersGenotypeQH301-705.5Molecular Sequence DataImmunologyMESH: Yersinia pestisZoologyMolecular Biology/Molecular EvolutionPlague (disease)MESH: PlagueMESH: Sequence Homology Nucleic AcidMicrobiologyNO03 medical and health sciencesPhylogeneticsSequence Homology Nucleic AcidVirologyGeneticsHumansMESH: Mass ScreeningEpidemicsMolecular BiologyMESH: EpidemicsMass screening030304 developmental biologyPlagueEvolutionary BiologyMESH: HumansMESH: Molecular Sequence DataNucleic AcidBase Sequence030306 microbiologyGenetics and GenomicsDNARC581-607biology.organism_classificationMESH: DNA BacterialYersinia pestisBase Sequence; DNA Bacterial; Disease Outbreaks; Epidemics; Europe; Genetic Markers; Genotype; Humans; Mass Screening; Molecular Sequence Data; Phylogeny; Plague; Sequence Homology Nucleic Acid; Yersinia pestisEtiologyParasitologyMESH: EuropeImmunologic diseases. Allergy
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The Use of DNA Analysis in the Archaeology of Death and Burial

2013

chemistry.chemical_compound060101 anthropologyAncient DNA060102 archaeologychemistry0601 history and archaeology06 humanities and the artsBiologyArchaeologyDNA sequencingDNAAuthentication (law)
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Response to Comment on "Ancient DNA from the First European Farmers in 7500-Year-Old Neolithic Sites"

2006

The discovery of mitochondrial type N1a in Central European Neolithic skeletons at a high frequency enabled us to answer the question of whether the modern population is maternally descended from the early farmers instead of addressing the traditional question of the origin of early European farmers.

education.field_of_studyMultidisciplinarymtDNACentral EuropePopulationmitochondrial DNAhaplogroup N1aNOAncient DNAGeographyEthnologyNeolithiceducationmitochondrial DNA mtDNA haplogroup N1a Neolithic Central EuropeScience
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The selective advantage of cystic fibrosis heterozygotes tested by aDNA analysis: A preliminary investigation

2000

Recently a heterozygote advantage was suggested to explain the high incidence (1:25 carrier individuals in Europeans) of the cystic fibrosis gene. This selective advantage was speculated to be due to a high resistance to chloride-secreting diarrhea, including cholera. Up to now the major efforts to test directly this hypothesis have been limited to animal models.

aDNAPathologymedicine.medical_specialtyCystic fibrosis genecystic fibrosis aDNA ancient DNAmedicine.disease_causeCystic fibrosisNOcystic fibrosis03 medical and health sciencesSelective advantagemedicineancient DNA030304 developmental biology0303 health sciencesbiology030305 genetics & heredityCholera toxinHeterozygote advantagemedicine.diseaseCholeraCystic fibrosis transmembrane conductance regulator3. Good healthDiarrheaAnthropologyImmunologybiology.proteinmedicine.symptom
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Genetic discontinuity between local hunter-gatherers and central Europe's first farmers.

2009

Cultivating Farmers Were the ancestors of modern Europeans the local hunter-gatherers who assimilated farming practices from neighboring cultures, or were they farmers who migrated from the Near East in the early Neolithic? By analyzing ancient hunter-gatherer skeletal DNA from 2300 to 13,400 B.C.E. Bramanti et al. (p. 137 , published online 3 September) investigated the genetic relationship of European Ice Age hunter-gatherers, the first farmers of Europe, and modern Europeans. The results reject the hypothesis of direct continuity between hunter-gatherers and early farmers and between hunter-gatherers and modern Europeans. Major parts of central and northern Europe were colonized by incom…

MaleArchaeogeneticsHistorymedia_common.quotation_subjectImmigrationPopulationEuropean Continental Ancestry GroupPopulation DynamicsAgriculture; DNA Mitochondrial; Emigration and Immigration; Europe; European Continental Ancestry Group; Female; Genetic Variation; Haplotypes; History Ancient; Humans; Male; Population Dynamics; ProbabilityBiologyDNA MitochondrialWhite PeopleNOAncientDemic diffusionHumansDomesticationeducationHunter-gathererHistory Ancientmedia_commonProbabilityGeneticseducation.field_of_studyMultidisciplinaryMiddle Eastbusiness.industryGenetic VariationAgricultureDNAEmigration and ImmigrationMitochondrialEuropeHaplotypesAgricultureEthnologyFemalebusiness
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