TY - JOUR
T1 - Y chromosome introgression between deeply divergent primate species
AU - Jensen, Axel
AU - Horton, Emma R.
AU - Amboko, Junior
AU - Parke, Stacy-Anne
AU - Hart, John A.
AU - Tosi, Anthony J.
AU - Guschanski, Katerina
AU - Detwiler, Kate M.
N1 - We thank Stuart JE Baird for useful discussions on mammalian Y chromosome introgression, Terese Hart for logistical support during sample collection in the Democratic Republic of Congo, and Louis Rugyerinyange, Felix Mulindahabi and Beth Kaplin for logistical support for sample collection in Nyungwe National Park, Rwanda. We acknowledge Faustin Kahindo, Maurice Emetshu, Gilbert Paluku, Peter-Philip Niehoff and James Gray for assistance with sample collection in the field. We thank the Congolese Institute for the Conservation of Nature (ICCN) and the Rwanda Development Board (formerly ORTPN) for research permissions. Sequencing was performed by the SNP&SEQ Technology Platform in Uppsala. The facility is part of the National Genomics Infrastructure (NGI) Sweden and Science for Life Laboratory.
PY - 2024/11/29
Y1 - 2024/11/29
N2 - Hybridization and introgression are widespread in nature, with important implications for adaptation and speciation. Since heterogametic hybrids often have lower fitness than homogametic individuals, a phenomenon known as Haldane’s rule, loci inherited strictly through the heterogametic sex rarely introgress. We focus on the Y-chromosomal history of guenons, African primates that hybridized extensively in the past. Although our inferences suggest that Haldane’s rule generally applies, we uncover a Y chromosome introgression event between two species ca. six million years after their initial divergence. Using simulations, we show that selection likely drove the introgressing Y chromosome to fixation from a low initial frequency. We identify non-synonymous substitutions on the novel Y chromosome as candidate targets of selection, and explore meiotic drive as an alternative mechanism. Our results provide a rare example of Y chromosome introgression, showing that the ability to produce fertile heterogametic hybrids likely persisted for six million years in guenons.
AB - Hybridization and introgression are widespread in nature, with important implications for adaptation and speciation. Since heterogametic hybrids often have lower fitness than homogametic individuals, a phenomenon known as Haldane’s rule, loci inherited strictly through the heterogametic sex rarely introgress. We focus on the Y-chromosomal history of guenons, African primates that hybridized extensively in the past. Although our inferences suggest that Haldane’s rule generally applies, we uncover a Y chromosome introgression event between two species ca. six million years after their initial divergence. Using simulations, we show that selection likely drove the introgressing Y chromosome to fixation from a low initial frequency. We identify non-synonymous substitutions on the novel Y chromosome as candidate targets of selection, and explore meiotic drive as an alternative mechanism. Our results provide a rare example of Y chromosome introgression, showing that the ability to produce fertile heterogametic hybrids likely persisted for six million years in guenons.
U2 - 10.1038/s41467-024-54719-8
DO - 10.1038/s41467-024-54719-8
M3 - Article
SN - 2041-1723
VL - 15
JO - Nature Communications
JF - Nature Communications
IS - 1
M1 - 10398
ER -