Multiple paternal origins of domestic cattle revealed by Y - specific interspersed multilocus microsatellites

Multiple paternal origins of domestic cattle revealed by Y - specific interspersed multilocus microsatellites

In this study, we show how Y-specific interspersed multilocus microsatellites, which are loci that yield several amplified bands differing in size from the same male individual and PCR reaction, are a powerful source of information for tracing the history of cattle. Our results confirm the existence of three main groups of sires, which are separated by evolutionary time and clearly predate domestication. These three groups are consistent with the haplogroups previously identified by Götherström et al. [2005] using five Y-specific segregating sites: Y1 and Y2 in taurine [Bos taurus] cattle and Y3 in zebu [Bos indicus] cattle. The zebu cattle cluster clearly originates from a domestication process that was geographically and temporally separated from that of taurine clusters. Our analyses further suggest that: [i] introgression of wild sire genetic material into domesticated herds may have a significant role in the formation of modern cattle, including the formation of the Y1 haplogroup; [ii] a putative domestication event in Africa probably included local Y2-like wild sires; [iii] the West African zebu cattle Y-chromosome may have partially originated from an ancient introgression of humped cattle into Africa; and [iv] the high genetic similarity among Asian zebu sires is consistent with a single domestication process.

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Main Authors: Pérez Pardal, L., Royo, L. J., Beja Pereira, A., Chen, S., Cantet, Rodolfo Juan Carlos, Traoré, A., Curik, I., Sölkner, J., Bozzi, R., Fernández, I., Alvarez, I., Gutiérrez, J. P., Gómez, E., Ponce de León, F. A., Goyache, F.
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Language:spa
Subjects:BOVINE, CATTLE ORIGINS, DOMESTICATION, INTERSPERSED MULTILOCUS MICROSATELLITES, Y-CHROMOSOME, MICROSATELLITE DNA, CATTLE, CHROMOSOME, CLUSTER ANALYSIS, DOMESTIC SPECIES, GENETIC MARKER, INTROGRESSION, POLYMERASE CHAIN REACTION, WILD POPULATION, ANIMAL, CLASSIFICATION, DOMESTIC ANIMAL, GENETICS, GENOME IMPRINTING, MALE, MOLECULAR EVOLUTION, Y CHROMOSOME, ANIMALS, ANIMALS, DOMESTIC, EVOLUTION, MOLECULAR, GENOMIC IMPRINTING, MICROSATELLITE REPEATS, AFRICA, BOS, BOS INDICUS, BOS TAURUS, BOVINAE, ,
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spelling KOHA-OAI-AGRO:467142022-03-18T10:43:08Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46714http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=AAGMultiple paternal origins of domestic cattle revealed by Y - specific interspersed multilocus microsatellitesPérez Pardal, L.Royo, L. J.Beja Pereira, A.Chen, S.Cantet, Rodolfo Juan CarlosTraoré, A.Curik, I.Sölkner, J.Bozzi, R.Fernández, I.Alvarez, I.Gutiérrez, J. P.Gómez, E.Ponce de León, F. A.Goyache, F.textspaapplication/pdfIn this study, we show how Y-specific interspersed multilocus microsatellites, which are loci that yield several amplified bands differing in size from the same male individual and PCR reaction, are a powerful source of information for tracing the history of cattle. Our results confirm the existence of three main groups of sires, which are separated by evolutionary time and clearly predate domestication. These three groups are consistent with the haplogroups previously identified by Götherström et al. [2005] using five Y-specific segregating sites: Y1 and Y2 in taurine [Bos taurus] cattle and Y3 in zebu [Bos indicus] cattle. The zebu cattle cluster clearly originates from a domestication process that was geographically and temporally separated from that of taurine clusters. Our analyses further suggest that: [i] introgression of wild sire genetic material into domesticated herds may have a significant role in the formation of modern cattle, including the formation of the Y1 haplogroup; [ii] a putative domestication event in Africa probably included local Y2-like wild sires; [iii] the West African zebu cattle Y-chromosome may have partially originated from an ancient introgression of humped cattle into Africa; and [iv] the high genetic similarity among Asian zebu sires is consistent with a single domestication process.In this study, we show how Y-specific interspersed multilocus microsatellites, which are loci that yield several amplified bands differing in size from the same male individual and PCR reaction, are a powerful source of information for tracing the history of cattle. Our results confirm the existence of three main groups of sires, which are separated by evolutionary time and clearly predate domestication. These three groups are consistent with the haplogroups previously identified by Götherström et al. [2005] using five Y-specific segregating sites: Y1 and Y2 in taurine [Bos taurus] cattle and Y3 in zebu [Bos indicus] cattle. The zebu cattle cluster clearly originates from a domestication process that was geographically and temporally separated from that of taurine clusters. Our analyses further suggest that: [i] introgression of wild sire genetic material into domesticated herds may have a significant role in the formation of modern cattle, including the formation of the Y1 haplogroup; [ii] a putative domestication event in Africa probably included local Y2-like wild sires; [iii] the West African zebu cattle Y-chromosome may have partially originated from an ancient introgression of humped cattle into Africa; and [iv] the high genetic similarity among Asian zebu sires is consistent with a single domestication process.BOVINECATTLE ORIGINSDOMESTICATIONINTERSPERSED MULTILOCUS MICROSATELLITESY-CHROMOSOMEMICROSATELLITE DNACATTLECHROMOSOMECLUSTER ANALYSISDOMESTIC SPECIESDOMESTICATIONGENETIC MARKERINTROGRESSIONPOLYMERASE CHAIN REACTIONWILD POPULATIONANIMALCLASSIFICATIONDOMESTIC ANIMALGENETICSGENOME IMPRINTINGMALEMOLECULAR EVOLUTIONY CHROMOSOMEANIMALSANIMALS, DOMESTICEVOLUTION, MOLECULARGENOMIC IMPRINTINGMICROSATELLITE REPEATSAFRICABOSBOS INDICUSBOS TAURUSBOVINAEHeredity
institution UBA FA
collection Koha
country Argentina
countrycode AR
component Bibliográfico
access En linea
En linea
databasecode cat-ceiba
tag biblioteca
region America del Sur
libraryname Biblioteca Central FAUBA
language spa
topic BOVINE
CATTLE ORIGINS
DOMESTICATION
INTERSPERSED MULTILOCUS MICROSATELLITES
Y-CHROMOSOME
MICROSATELLITE DNA
CATTLE
CHROMOSOME
CLUSTER ANALYSIS
DOMESTIC SPECIES
DOMESTICATION
GENETIC MARKER
INTROGRESSION
POLYMERASE CHAIN REACTION
WILD POPULATION
ANIMAL
CLASSIFICATION
DOMESTIC ANIMAL
GENETICS
GENOME IMPRINTING
MALE
MOLECULAR EVOLUTION
Y CHROMOSOME
ANIMALS
ANIMALS, DOMESTIC
EVOLUTION, MOLECULAR
GENOMIC IMPRINTING
MICROSATELLITE REPEATS
AFRICA
BOS
BOS INDICUS
BOS TAURUS
BOVINAE

BOVINE
CATTLE ORIGINS
DOMESTICATION
INTERSPERSED MULTILOCUS MICROSATELLITES
Y-CHROMOSOME
MICROSATELLITE DNA
CATTLE
CHROMOSOME
CLUSTER ANALYSIS
DOMESTIC SPECIES
DOMESTICATION
GENETIC MARKER
INTROGRESSION
POLYMERASE CHAIN REACTION
WILD POPULATION
ANIMAL
CLASSIFICATION
DOMESTIC ANIMAL
GENETICS
GENOME IMPRINTING
MALE
MOLECULAR EVOLUTION
Y CHROMOSOME
ANIMALS
ANIMALS, DOMESTIC
EVOLUTION, MOLECULAR
GENOMIC IMPRINTING
MICROSATELLITE REPEATS
AFRICA
BOS
BOS INDICUS
BOS TAURUS
BOVINAE
spellingShingle BOVINE
CATTLE ORIGINS
DOMESTICATION
INTERSPERSED MULTILOCUS MICROSATELLITES
Y-CHROMOSOME
MICROSATELLITE DNA
CATTLE
CHROMOSOME
CLUSTER ANALYSIS
DOMESTIC SPECIES
DOMESTICATION
GENETIC MARKER
INTROGRESSION
POLYMERASE CHAIN REACTION
WILD POPULATION
ANIMAL
CLASSIFICATION
DOMESTIC ANIMAL
GENETICS
GENOME IMPRINTING
MALE
MOLECULAR EVOLUTION
Y CHROMOSOME
ANIMALS
ANIMALS, DOMESTIC
EVOLUTION, MOLECULAR
GENOMIC IMPRINTING
MICROSATELLITE REPEATS
AFRICA
BOS
BOS INDICUS
BOS TAURUS
BOVINAE

BOVINE
CATTLE ORIGINS
DOMESTICATION
INTERSPERSED MULTILOCUS MICROSATELLITES
Y-CHROMOSOME
MICROSATELLITE DNA
CATTLE
CHROMOSOME
CLUSTER ANALYSIS
DOMESTIC SPECIES
DOMESTICATION
GENETIC MARKER
INTROGRESSION
POLYMERASE CHAIN REACTION
WILD POPULATION
ANIMAL
CLASSIFICATION
DOMESTIC ANIMAL
GENETICS
GENOME IMPRINTING
MALE
MOLECULAR EVOLUTION
Y CHROMOSOME
ANIMALS
ANIMALS, DOMESTIC
EVOLUTION, MOLECULAR
GENOMIC IMPRINTING
MICROSATELLITE REPEATS
AFRICA
BOS
BOS INDICUS
BOS TAURUS
BOVINAE
Pérez Pardal, L.
Royo, L. J.
Beja Pereira, A.
Chen, S.
Cantet, Rodolfo Juan Carlos
Traoré, A.
Curik, I.
Sölkner, J.
Bozzi, R.
Fernández, I.
Alvarez, I.
Gutiérrez, J. P.
Gómez, E.
Ponce de León, F. A.
Goyache, F.
Multiple paternal origins of domestic cattle revealed by Y - specific interspersed multilocus microsatellites
description In this study, we show how Y-specific interspersed multilocus microsatellites, which are loci that yield several amplified bands differing in size from the same male individual and PCR reaction, are a powerful source of information for tracing the history of cattle. Our results confirm the existence of three main groups of sires, which are separated by evolutionary time and clearly predate domestication. These three groups are consistent with the haplogroups previously identified by Götherström et al. [2005] using five Y-specific segregating sites: Y1 and Y2 in taurine [Bos taurus] cattle and Y3 in zebu [Bos indicus] cattle. The zebu cattle cluster clearly originates from a domestication process that was geographically and temporally separated from that of taurine clusters. Our analyses further suggest that: [i] introgression of wild sire genetic material into domesticated herds may have a significant role in the formation of modern cattle, including the formation of the Y1 haplogroup; [ii] a putative domestication event in Africa probably included local Y2-like wild sires; [iii] the West African zebu cattle Y-chromosome may have partially originated from an ancient introgression of humped cattle into Africa; and [iv] the high genetic similarity among Asian zebu sires is consistent with a single domestication process.
format Texto
topic_facet
BOVINE
CATTLE ORIGINS
DOMESTICATION
INTERSPERSED MULTILOCUS MICROSATELLITES
Y-CHROMOSOME
MICROSATELLITE DNA
CATTLE
CHROMOSOME
CLUSTER ANALYSIS
DOMESTIC SPECIES
DOMESTICATION
GENETIC MARKER
INTROGRESSION
POLYMERASE CHAIN REACTION
WILD POPULATION
ANIMAL
CLASSIFICATION
DOMESTIC ANIMAL
GENETICS
GENOME IMPRINTING
MALE
MOLECULAR EVOLUTION
Y CHROMOSOME
ANIMALS
ANIMALS, DOMESTIC
EVOLUTION, MOLECULAR
GENOMIC IMPRINTING
MICROSATELLITE REPEATS
AFRICA
BOS
BOS INDICUS
BOS TAURUS
BOVINAE
author Pérez Pardal, L.
Royo, L. J.
Beja Pereira, A.
Chen, S.
Cantet, Rodolfo Juan Carlos
Traoré, A.
Curik, I.
Sölkner, J.
Bozzi, R.
Fernández, I.
Alvarez, I.
Gutiérrez, J. P.
Gómez, E.
Ponce de León, F. A.
Goyache, F.
author_facet Pérez Pardal, L.
Royo, L. J.
Beja Pereira, A.
Chen, S.
Cantet, Rodolfo Juan Carlos
Traoré, A.
Curik, I.
Sölkner, J.
Bozzi, R.
Fernández, I.
Alvarez, I.
Gutiérrez, J. P.
Gómez, E.
Ponce de León, F. A.
Goyache, F.
author_sort Pérez Pardal, L.
title Multiple paternal origins of domestic cattle revealed by Y - specific interspersed multilocus microsatellites
title_short Multiple paternal origins of domestic cattle revealed by Y - specific interspersed multilocus microsatellites
title_full Multiple paternal origins of domestic cattle revealed by Y - specific interspersed multilocus microsatellites
title_fullStr Multiple paternal origins of domestic cattle revealed by Y - specific interspersed multilocus microsatellites
title_full_unstemmed Multiple paternal origins of domestic cattle revealed by Y - specific interspersed multilocus microsatellites
title_sort multiple paternal origins of domestic cattle revealed by y - specific interspersed multilocus microsatellites
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46714
http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=
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