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Analysis of the Regulatory Network of Cotton Fiber Development Based on Transcriptomics and Epigenomics  

Zhen Li
Hainan Institute of Biotechnology, Haikou, 570206, Hainan, China
Author    Correspondence author
Cotton Genomics and Genetics, 2025, Vol. 16, No. 3   doi: 10.5376/cgg.2025.16.0011
Received: 01 Mar., 2025    Accepted: 10 Apr., 2025    Published: 01 May, 2025
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This is an open access article published under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Preferred citation for this article:

Li Z., 2025, Analysis of the regulatory network of cotton fiber development based on transcriptomics and epigenomics, Cotton Genomics and Genetics, 16(3): 107-116 (doi: 10.5376/cgg.2025.16.0011)

 

Abstract

Cotton fiber development represents a distinctive model of plant cell elongation and differentiation. In this study, we systematically analyzed the regulatory network underlying cotton fiber development by integrating transcriptomic and epigenomic data. Temporal expression profiling revealed stage-specific gene expression during fiber initiation, elongation, and maturation, with key transcription factors such as MYB, NAC, and bHLH playing pivotal roles. Non-coding RNAs including lncRNAs and miRNAs were also identified as important regulators of post-transcriptional gene silencing. Epigenomic analyses uncovered dynamic DNA methylation patterns and histone modifications correlating with fiber-specific gene activity, alongside changes in chromatin accessibility and 3D genome architecture during development. Through multi-omics integration, we constructed regulatory networks highlighting co-expression modules, signaling pathways, and environmental responses, and validated these networks using a case study on Gossypium hirsutum, focusing on the GhMYB25-like-centered cascade. Our results underscore the complexity of gene regulation in fiber development and suggest that advanced technologies such as single-cell omics and CRISPR-based validation will further refine our understanding and enable molecular breeding strategies to enhance cotton fiber quality and yield.

Keywords
Cotton fiber development; Transcriptomics; Epigenomics; Gene regulatory network; Multi-omics integration
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