TY - JOUR
T1 - Genetic Diversity of Bubalus bubalis in Germany and Global Relations of Its Genetic Background
AU - Noce, Antonia
AU - Qanbari, Saber
AU - González-Prendes, Rayner
AU - Brenmoehl, Julia
AU - Luigi-Sierra, María Gracia
AU - Theerkorn, Michael
AU - Fiege, Marc André
AU - Pilz, Heike
AU - Bota, Adrian
AU - Vidu, Livia
AU - Horwath, Csaba
AU - Haraszthy, László
AU - Penchev, Pencho
AU - Ilieva, Yordanka
AU - Peeva, Tzonka
AU - Lüpcke, Wolfgang
AU - Krawczynski, René
AU - Wimmers, Klaus
AU - Thiele, Manfred
AU - Hoeflich, Andreas
PY - 2021/1/22
Y1 - 2021/1/22
N2 - This is the first study to explore the genetic diversity and population structure of domestic water buffalo (Bubalus bubalis) in Germany and their potential relations to herds in other parts of Europe or worldwide. To this end, animals from different herds in Germany, Bulgaria, Romania, and Hungary were genotyped and compared to genotypes from other populations with worldwide distribution and open to the public. The pilot study analyzed population structure, phylogenetic tree, and inbreeding events in our samples. In buffalos from Germany, a mixed genetic make-up with contributions from Bulgaria (Murrah breed), Romania, and Italy was found. All in all, a high degree of genetic diversity was identified in European buffalos, and a novel genotype was described in Hungarian buffalos by this study. We demonstrate that European buffalos stand out from other buffalo populations worldwide, supporting the idea that buffalos have not completely disappeared from the European continent during the late Pleistocene. The high genetic diversity in European buffalos seems to be an excellent prerequisite for the establishment of local breeds characterized by unique traits and features. This study may also be considered as an initial step on the way to genome characterization for the sustainable development of the buffalo economy in Germany and other parts of Europe in the future.
AB - This is the first study to explore the genetic diversity and population structure of domestic water buffalo (Bubalus bubalis) in Germany and their potential relations to herds in other parts of Europe or worldwide. To this end, animals from different herds in Germany, Bulgaria, Romania, and Hungary were genotyped and compared to genotypes from other populations with worldwide distribution and open to the public. The pilot study analyzed population structure, phylogenetic tree, and inbreeding events in our samples. In buffalos from Germany, a mixed genetic make-up with contributions from Bulgaria (Murrah breed), Romania, and Italy was found. All in all, a high degree of genetic diversity was identified in European buffalos, and a novel genotype was described in Hungarian buffalos by this study. We demonstrate that European buffalos stand out from other buffalo populations worldwide, supporting the idea that buffalos have not completely disappeared from the European continent during the late Pleistocene. The high genetic diversity in European buffalos seems to be an excellent prerequisite for the establishment of local breeds characterized by unique traits and features. This study may also be considered as an initial step on the way to genome characterization for the sustainable development of the buffalo economy in Germany and other parts of Europe in the future.
KW - Bubalus bubalis
KW - European populations
KW - genetic diversity
KW - genotyping
KW - population structure
KW - run of homozygosity
UR - http://doi.org/10.5061/dryad.9cnp5hqgc
U2 - 10.3389/fgene.2020.610353
DO - 10.3389/fgene.2020.610353
M3 - Article
AN - SCOPUS:85100678032
SN - 1664-8021
VL - 11
SP - 1
EP - 16
JO - Frontiers in Genetics
JF - Frontiers in Genetics
M1 - 610353
ER -