Exploring Gene Expression and Alternative Splicing in Duck Embryonic Myoblasts Via Full-Length Transcriptome Sequencing

Overview

Journal Vet Sci

Publisher MDPI

Specialty Veterinary Medicine

Date 2024 Dec 27

PMID 39728941

Authors

Jintao Wu

Shuibing Liu

Dongcheng Jiang

Yanan Zhou

Hongxia Jiang

Xiaoyun Xiao

Boqian Zha

Yukai Fang

Jie Huang

Xiaolong Hu

Huirong Mao

Sanfeng Liu

Biao Chen

Affiliations

Soon will be listed here.

Abstract

The duck industry is vital for supplying high-quality protein, making research into the development of duck skeletal muscle critical for improving meat and egg production. In this study, we leveraged Oxford Nanopore Technologies (ONT) sequencing to perform full-length transcriptome sequencing of myoblasts harvested from the leg muscles of duck embryos at embryonic day 13 (E13), specifically examining both the proliferative (GM) and differentiation (DM) phases. Our analysis identified a total of 5797 novel transcripts along with 2332 long non-coding RNAs (lncRNAs), revealing substantial changes in gene expression linked to muscle development. We detected 3653 differentially expressed genes and 2246 instances of alternative splicing, with key genes involved in essential pathways, such as ECM-receptor interaction and Notch signaling, prominently featured. Additionally, we constructed a protein-protein interaction network that highlighted critical regulators-, , , , and -associated with the processes of proliferation and differentiation in myoblasts. This extensive transcriptomic investigation not only sheds light on the intricate molecular mechanisms driving skeletal muscle development in ducks but also provides significant insights for future breeding strategies aimed at enhancing the efficiency of duck production. The results emphasize the efficacy of ONT sequencing in uncovering complex regulatory networks within avian species, ultimately contributing to progress in animal husbandry.

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