Data from: Combining landscape genomics and ecological modelling to investigate local adaptation of indigenous Ugandan cattle to East Coast fever

  • Elia Vajana (Creator)
  • Mario Barbato (Catholic University of the Sacred Heart) (Creator)
  • Licia Colli (Creator)
  • Marco Milanesi (Creator)
  • Estelle Rochat (Creator)
  • Enrico Fabrizi (Creator)
  • Christopher Mukasa (Creator)
  • Marcello Del Corvo (Creator)
  • Charles Masembe (Creator)
  • Vincent B. Muwanika (Creator)
  • Fredrick Kabi (Creator)
  • Tad Stewart Sonstegard (Creator)
  • Heather Jay Huson (Creator)
  • Riccardo Negrini (Creator)
  • Stéphane Joost (Creator)
  • Paolo Ajmone Marsan (Creator)

Dataset

Description

East Coast fever (ECF) is a fatal sickness affecting cattle populations of eastern, central, and southern Africa. The disease is transmitted by the tick Rhipicephalus appendiculatus, and caused by the protozoan Theileria parva parva, which invades host lymphocytes and promotes their clonal expansion. Importantly, indigenous cattle show tolerance to infection in ECF-endemically stable areas. Here, the putative genetic bases underlying ECF-tolerance were investigated using molecular data and epidemiological information from 823 indigenous cattle from Uganda. Vector distribution and host infection risk were estimated over the study area and subsequently tested as triggers of local adaptation by means of landscape genomics analysis. We identified 41 and seven candidate adaptive loci for tick resistance and infection tolerance, respectively. Among the genes associated with the candidate adaptive loci are PRKG1 and SLA2. PRKG1 was already described as associated with tick resistance in indigenous South African cattle, due to its role into inflammatory response. SLA2 is part of the regulatory pathways involved into lymphocytes’ proliferation. Additionally, local ancestry analysis suggested the zebuine origin of the genomic region candidate for tick resistance.
Dati resi disponibili4 ott 2018
EditoreDryad
Copertura geograficaWorld

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