Current Issues in Molecular Biology (Oct 2024)

Genome-Wide Identification and Expression Analysis of the <i>HSF</i> Gene Family in <i>Ammopiptanthus mongolicus</i>

  • Shuai Zhao,
  • Jun Qing,
  • Zhiguo Yang,
  • Tian Tian,
  • Yanqiu Yan,
  • Hui Li,
  • Yu’e Bai

DOI
https://doi.org/10.3390/cimb46100678
Journal volume & issue
Vol. 46, no. 10
pp. 11375 – 11393

Abstract

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Ammopiptanthus mongolicus is an ancient remnant species from the Mediterranean displaying characteristics such as high-temperature tolerance, drought resistance, cold resistance, and adaptability to impoverished soil. In the case of high-temperature tolerance, heat shock transcription factors (HSFs) are integral transcriptional regulatory proteins exerting a critical role in cellular processes. Despite extensive research on the HSF family across various species, there has been no analysis specifically focused on A. mongolicus. In this study, we identified 24 members of the AmHSF gene family based on the genome database of A. mongolicus, which were unevenly distributed over 9 chromosomes. Phylogenetic analysis showed that these 24 members can be categorized into 5 primary classes consisting of a total of 13 subgroups. Analysis of the physical and chemical properties revealed significant diversity among these proteins. With the exception of the AmHSFB3 protein, which is localized in the cytoplasm, all other AmHSF proteins were found to be situated in the nucleus. Comparison of amino acid sequences revealed that all AmHSF proteins contain a conserved DNA-binding domains structure, and the DNA-binding domains and oligomerization domains of the AmHSF gene exhibit conservation with counterparts across diverse species; we investigated the collinearity of AmHSF genes in relation to those of three other representative species. Through GO enrichment analysis, evidence emerged that AmHSF genes are involved in heat stress responses and may be involved in multiple transcriptional regulatory pathways that coordinate plant growth and stress responses. Finally, through a comprehensive analysis using transcriptome data, we examined the expression levels of 24 AmHSFs under 45 °C. The results revealed significant differences in the expression profiles of AmHSFs at different time intervals during exposure to high temperatures, highlighting their crucial role in responding to heat stress. In summary, these results provide a better understanding of the role and regulatory mechanisms of HSF in the heat stress response of A. mongolicus, meanwhile also establishing a foundation for further exploration of the biological functions of AmHSF in the adversity response of A. mongolicus.

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