Annotation of immune genes in the extinct thylacine (Thylacinus cynocephalus)

Abstract

Advances in genome sequencing technology have enabled genomes of extinct species to be sequenced. However, given the fragmented nature of these genome assemblies, it is not clear whether it is possible to comprehensively annotate highly variable and repetitive genes such as those involved in immunity. As such, immune genes have only been investigated in a handful of extinct genomes, mainly in human lineages. In 2018 the genome of the thylacine (Thylacinus cynocephalus), a carnivorous marsupial from Tasmania that went extinct in 1936, was sequenced. Here we attempt to characterise the immune repertoire of the thylacine and determine similarity to its closest relative with a genome available, the Tasmanian devil (Sarcophilus harrisii), as well as other marsupials. Members from all major immune gene families were identified. However, variable regions could not be characterised, and complex families such as the major histocompatibility complex (MHC) were highly fragmented and located across multiple small scaffolds. As such, at a gene level we were unable to reconstruct full-length coding sequences for the majority of thylacine immune genes. Despite this, we identified genes encoding functionally important receptors and immune effector molecules, which suggests the functional capacity of the thylacine immune system was similar to other mammals. However, the high number of partial immune gene sequences identified limit our ability to reconstruct an accurate picture of the thylacine immune repertoire.