Genomic and Transcriptional Profiles of () Gene Family in Polyploid Complex.

Genome duplication supplies raw genetic materials and has been thought to be essential for evolutionary innovation and ecological adaptation. Here, we select () genes to study the evolution of the duplicated genes in the polyploid complex, including amphidiploid and amphitriploid . Phylogenetic, chromosomal location and read coverage analyses indicate that most of genes exhibit a 2:1 relationship with zebrafish orthologs and confirm two rounds of polyploidy, an allotetraploidy followed by an autotriploidy, occurred during evolution.

Efficiently Editing Multiple Duplicated Homeologs and Alleles for Recurrent Polyploids.

Research on the evolutionary fate of duplicated genes in recurrent polyploids is scarce due to the difficulties in disentangling the different homeologs and alleles of duplicated genes. This chapter describes the detailed procedures to identify different homeologs and alleles of duplicated genes, to analyze their molecular characteristics, and to reveal their functional divergence by gene editing with CRISPR/Cas9 (clustered regularly interspaced short palindromic repeats/CRISPR-associated system 9). Using the gene editing approach, we efficiently constructed multiple knockout mutant lines with single or simultaneously disrupted different homeologs or alleles in a recurrent polyploid fish, demonstrating its usability for targeting and mutating multiple divergent homeologs and alleles in recurrent duplicated genomes.

Comparative genome anatomy reveals evolutionary insights into a unique amphitriploid fish.

Triploids are rare in nature because of difficulties in meiotic and gametogenic processes, especially in vertebrates. The Carassius complex of cyprinid teleosts contains sexual tetraploid crucian carp/goldfish (C. auratus) and unisexual hexaploid gibel carp/Prussian carp (C.

Two Duplicated Homeologs Cooperatively and Negatively Regulate RLR-Mediated IFN Response in Hexaploid Gibel Carp.

Src homology region 2 domain-containing phosphatase 1 (SHP1), encoded by the () gene, belongs to the family of protein tyrosine phosphatases (PTPs) and participates in multiple signaling pathways of immune cells. However, the mechanism of SHP1 in regulating fish immunity is largely unknown. In this study, we first identified two gibel carp () homeologs ( and ), each of which had three alleles with high identities.

Functional Divergence of Multiple Duplicated Foxl2 Homeologs and Alleles in a Recurrent Polyploid Fish.

Evolutionary fates of duplicated genes have been widely investigated in many polyploid plants and animals, but research is scarce in recurrent polyploids. In this study, we focused on foxl2, a central player in ovary, and elaborated the functional divergence in gibel carp (Carassius gibelio), a recurrent auto-allo-hexaploid fish. First, we identified three divergent foxl2 homeologs (Cgfoxl2a-B, Cgfoxl2b-A, and Cgfoxl2b-B), each of them possessing three highly conserved alleles and revealed their biased retention/loss.