Login / Signup

Integrated analysis of whole genome and transcriptome sequencing uncovers genetic differences between Zi goose and Xianghai flying goose.

Hongyu NiYonghong ZhangYuwei YangYijing YinJing RenQingxing XiaoPuze ZhaoXiaoqing HongZiyi ZhangBenhai CuiHao SunXueqi SunYumei Li
Published in: Animal genetics (2023)
Zi goose is a famous indigenous breed originating from northeast China with high annual egg production. Xianghai flying goose is a composite breed and is bred by crosses of the wild swan goose and the Zi goose. Our previous study revealed significant differences in muscle fiber characteristics between the two populations. Here, we aimed to reveal the underlying genetic basis of the above phenotype differences through whole-genome and transcriptome analysis. A total of 20 blood samples (10 Zi geese and 10 Xianghai flying geese) were used for whole genome sequencing, and eight breast muscle tissue samples (four Zi geese and four Xianghai flying geese) were used for RNA sequencing. Using the F ST and XP-EHH analysis, some highly differentiated genome regions annotated with egg production (RORB, WNT4, BMPR1B) and breast muscle development (WNT7B) between the two populations were detected. RNA-sequencing analysis revealed differentially expressed genes related to muscle development (IGF1, PAX7). Moreover, several genes were detected by both genome and transcriptome analysis, and some of them were reported to be associated with muscle growth (SLIT2, PREX1) and intramuscular fat (COL6A1). These findings will help researchers better understand the genetic basis related to egg production and muscle development in geese.
Keyphrases
  • genome wide
  • single cell
  • skeletal muscle
  • dna methylation
  • rna seq
  • stem cells
  • copy number
  • cell proliferation
  • gene expression
  • pulmonary arterial hypertension
  • signaling pathway
  • drug induced
  • bioinformatics analysis