| Literature DB >> 34220936 |
Kang Ren1,2, Liangliang Wang1, Liang Wang1, Qiuxiang Du1, Jie Cao1, Qianqian Jin1, Guoshuai An1, Na Li1, Lihong Dang1, Yingjie Tian1, Yingyuan Wang1, Junhong Sun1.
Abstract
Following skeletal muscle injury (SMI), from post-injury reaction to repair consists of a complex series of dynamic changes. However, there is a paucity of research on detailed transcriptional dynamics and time-dependent marker gene expression in the early stages after SMI. In this study, skeletal muscle tissue in rats was taken at 4 to 48 h after injury for next-generation sequencing. We examined the transcriptional kinetics characteristics during above time periods after injury. STEM and maSigPro were used to screen time-correlated genes. Integrating 188 time-correlated genes with 161 genes in each time-related gene module by WGCNA, we finally identified 18 network-node regulatory genes after SMI. Histological staining analyses confirmed the mechanisms underlying changes in the tissue damage to repair process. Our research linked a variety of dynamic biological processes with specific time periods and provided insight into the characteristics of transcriptional dynamics, as well as screened time-related biological indicators with biological significance in the early stages after SMI.Entities:
Keywords: gene expression and regulation landscape; skeletal muscle injury; time-related biomarkers; time-series RNA-seq; transcriptional dynamics
Year: 2021 PMID: 34220936 PMCID: PMC8248501 DOI: 10.3389/fgene.2021.650874
Source DB: PubMed Journal: Front Genet ISSN: 1664-8021 Impact factor: 4.599