Abstract
Fish is considered as a supreme model for clarifying the evolution and regulatory mechanism of vertebrate immunity. However, the knowledge of distinct immune cell populations in fish is still limited, and further development of techniques advancing the identification of fish immune cell populations and their functions are required. Single cell RNA-seq (scRNA-seq) has provided a new approach for effective in-depth identification and characterization of cell subpopulations. Current approaches for scRNA-seq data analysis usually rely on comparison with a reference genome and hence are not suited for samples without any reference genome, which is currently very common in fish research. Here, we present an alternative, i.e. scRNA-seq data analysis with a full-length transcriptome as a reference, and evaluate this approach on samples from Epinephelus coioides-a teleost without any published genome. We show that it reconstructs well most of the present transcripts in the scRNA-seq data achieving a sensitivity equivalent to approaches relying on genome alignments of related species. Based on cell heterogeneity and known markers, we characterized four cell types: T cells, B cells, monocytes/macrophages (Mo/MΦ) and NCC (non-specific cytotoxic cells). Further analysis indicated the presence of two subsets of Mo/MΦ including M1 and M2 type, as well as four subsets in B cells, i.e. mature B cells, immature B cells, pre B cells and early-pre B cells. Our research will provide new clues for understanding biological characteristics, development and function of immune cell populations of teleost. Furthermore, our approach provides a reliable alternative for scRNA-seq data analysis in teleost for which no reference genome is currently available.
Highlights
Fish provides an important human source of food and nutrition, and aquaculture plays a vital and increasing role in meeting the current global food demand [1, 2]
We carried out scRNA-seq analysis of the entire spleen from Epinephelus coioides-a teleost whose genome has not yet been published
To present the possibility of scRNA-seq data analysis using the full-length transcriptome as a reference, and evaluate it for samples of the teleost E. coioides, the full-length transcriptome of E. coioides was sequenced for the first time in the present study (Figure 1)
Summary
Fish provides an important human source of food and nutrition, and aquaculture plays a vital and increasing role in meeting the current global food demand [1, 2]. The increasing harm of fish infection throughout the entire production chain requires more in-depth research on the molecular mechanisms of fish immune defense against pathogens [3,4,5,6]. Several difficulties have emerged in the process of applying research results of mammalian immunology to fish immunology in recent years [13]. The number of fish lymphocyte-specific markers continues to increase, continuously facilitating the characterization of lymphocyte subpopulations [14]. In order to explore the functional immunity of lymphocyte reactions, and raise the standard of fish immunology research, it will be necessary to combine the accumulated knowledge on immune gene products with the increasing number of molecular and cellular markers [14]. A comprehensive and rapid identification approach of specific cell markers is urgently needed
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