4.8 Article

High frequency of an otherwise rare phenotype in a small and isolated

Publisher

NATL ACAD SCIENCES
DOI: 10.1073/pnas.2025273118|1of11

Keywords

pseudomelanism; drift; selection; inbreeding; genetics

Funding

  1. NCBS/Tata Institute of Fundamental Research (TIFR) (Department of Atomic Energy)
  2. Department of Biotechnology (DBT), India grant [BT/PR13854/BCE/8/809/2010]
  3. DBT Wellcome India Alliance [IA/S/16/2/502714]
  4. Department of Atomic Energy, Government of India [12-RD-TFR5.04-0900]
  5. NTCA [15-30(10)/2015-NTCA]
  6. DBT Wellcome Trust India Alliance Senior award [IA/S/16/2/502714]
  7. NCBS/TIFR internal plan fund award (Department of Atomic Energy, Government of India) [RTI 4006]

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The study found that the Similipal Tiger Reserve in eastern India has a high frequency of pseudomelanistic tigers due to the Taqpep p.H454Y mutation, which is absent from other tiger populations. Population genetic analyses revealed low genetic diversity and high pairwise FST values in Similipal, indicating genetic isolation and a small tiger population. The results suggest that stochastic processes such as founding events and genetic drift may be driving the observed stark difference in allele frequency in these tigers.
Most endangered species exist today in small populations, many of which are isolated. Evolution in such populations is largely governed by genetic drift. Empirical evidence for drift affecting striking phenotypes based on substantial genetic data are rare. Approximately 37% of tigers (Panthera tigris) in the Similipal Tiger Reserve (in eastern India) are pseudomelanistic, characterized by wide, merged stripes. Camera trap data across the tiger range revealed the presence of pseudomelanistic tigers only in Similipal. We investigated the genetic basis for pseudomelanism and examined the role of drift in driving this phenotype's frequency. Whole-genome data and pedigree-based association analyses from captive tigers revealed that pseudomelanism cosegregates with a conserved and functionally important coding alteration in Transmembrane Aminopeptidase Q (Taqpep), a gene responsible for similar traits in other felid species. Noninvasive sampling of tigers revealed a high frequency of the Taqpep p.H454Y mutation in Similipal (12 individuals, allele frequency = 0.58) and absence from all other tiger populations (395 individuals). Population genetic analyses confirmed few (minimal number) tigers in Similipal, and its genetic isolation, with poor geneflow. Pairwise FST (0.33) at the mutation site was high but not an outlier. Similipal tigers had low diversity at 81 single nucleotide polymorphisms (mean heterozygosity = 0.28, SD = 0.27). Simulations were consistent with founding events and drift as possible drivers for the observed stark difference of allele frequency. Our results highlight the role of stochastic processes in the evolution of rare phenotypes. We highlight an unusual evolutionary trajectory in a small and isolated population of an endangered species.

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