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- Title
Comparative Genome-wide Analysis and Expression Profiling of Histone Acetyltransferase (HAT) Gene Family in Response to Hormonal Applications, Metal and Abiotic Stresses in Cotton.
- Authors
Imran, Muhammad; Shafiq, Sarfraz; Farooq, Muhammad Ansar; Naeem, Muhammad Kashif; Widemann, Emilie; Bakhsh, Ali; Jensen, Kevin B.; Wang, Richard R.-C.
- Abstract
Post-translational modifications are involved in regulating diverse developmental processes. Histone acetyltransferases (HATs) play vital roles in the regulation of chromation structure and activate the gene transcription implicated in various cellular processes. However, HATs in cotton, as well as their regulation in response to developmental and environmental cues, remain unidentified. In this study, 9 HATs were identified from Gossypium raimondi and Gossypium arboretum, while 18 HATs were identified from Gossypium hirsutum. Based on their amino acid sequences, Gossypium HATs were divided into three groups: CPB, GNAT, and TAFII250. Almost all the HATs within each subgroup share similar gene structure and conserved motifs. Gossypium HATs are unevenly distributed on the chromosomes, and duplication analysis suggests that Gossypium HATs are under strong purifying selection. Gene expression analysis showed that Gossypium HATs were differentially expressed in various vegetative tissues and at different stages of fiber development. Furthermore, all the HATs were differentially regulated in response to various stresses (salt, drought, cold, heavy metal and DNA damage) and hormones (abscisic acid (ABA) and auxin (NAA)). Finally, co-localization of HAT genes with reported quantitative trait loci (QTL) of fiber development were reported. Altogether, these results highlight the functional diversification of HATs in cotton growth and fiber development, as well as in response to different environmental cues. This study enhances our understanding of function of histone acetylation in cotton growth, fiber development, and stress adaptation, which will eventually lead to the long-term improvement of stress tolerance and fiber quality in cotton.
- Subjects
CORPORATION for Public Broadcasting; HISTONE acetyltransferase; ABSCISIC acid; COTTON growing; GENE families; ABIOTIC stress; AMINO acid sequence; COTTON fibers
- Publication
International Journal of Molecular Sciences, 2019, Vol 20, Issue 21, p5311
- ISSN
1661-6596
- Publication type
Article
- DOI
10.3390/ijms20215311