Abstract
Tasmanian devil (Sarcophilus harrisii) pouch young, like other marsupials, are born underdeveloped and immunologically naïve, and are unable to mount an adaptive immune response. The mother’s milk provides nutrients for growth and development as well as providing passive immunity. To better understand immune response in this endangered species, we set out to characterise the genes involved in passive immunity by sequencing and annotating the transcriptome of a devil milk sample collected during mid-lactation. At mid-lactation we expect the young to have heightened immune responses, as they have emerged from the pouch, encountering new pathogens. A total of 233,660 transcripts were identified, including approximately 17,827 unique protein-coding genes and 846 immune genes. The most highly expressed transcripts were dominated by milk protein genes such as those encoding early lactation protein, late lactation proteins, α-lactalbumin, α-casein and β-casein. There were numerous highly expressed immune genes including lysozyme, whey acidic protein, ferritin and major histocompatibility complex I and II. Genes encoding immunoglobulins, antimicrobial peptides, chemokines and immune cell receptors were also identified. The array of immune genes identified in this study reflects the importance of the milk in providing immune protection to Tasmanian devil young and provides the first insight into Tasmanian devil milk.
Highlights
The Tasmanian devil (Sarcophilus harrisii) is the largest carnivorous marsupial in the world and belongs to the Dasyuridae family (McCallum, 2008)
A transcriptome was constructed and annotated from the total milk cells of a Tasmanian devil milk sample obtained at the end of mid-lactation
Given that a homolog could not be identified in eutherians or non-mammals and that transcripts of this gene could only be identified in milk or mammary transcriptomes, we propose that novel gene 1 may have a marsupial-specific role in lactation
Summary
The Tasmanian devil (Sarcophilus harrisii) is the largest carnivorous marsupial in the world and belongs to the Dasyuridae family (McCallum, 2008). We identify key milk proteins, with a focus on key immune genes, in the milk transcriptome of the Tasmanian devil, at four months of lactation. At this time, the mother is in late mid-lactation and the devil young are beginning to be left in the den, while the mother scavenges for food. In other marsupials it has been demonstrated that late in mid-lactation, immune compounds are upregulated to provide young with additional immune protection as they encounter novel pathogens (Adamski & Demmer, 2000; Daly et al, 2007), we expect the devil milk at this time to be enriched with immune compounds. We describe the immune gene composition of Tasmanian devil milk at midlactation and comment on the relevance of these findings to Tasmanian devil biology and immunity
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