Plants (Nov 2022)

Genome-Wide Identification and Expression Profiling of the <i>SRS</i> Gene Family in <i>Melilotus albus</i> Reveals Functions in Various Stress Conditions

  • Biao Ma,
  • Lili Nian,
  • Noor ul Ain,
  • Xuelu Liu,
  • Yingbo Yang,
  • Xiaolin Zhu,
  • Fasih Ullah Haider,
  • Ying Lv,
  • Pengpeng Bai,
  • Xiaoning Zhang,
  • Quanxi Li,
  • Zixuan Mao,
  • Zongyang Xue

DOI
https://doi.org/10.3390/plants11223101
Journal volume & issue
Vol. 11, no. 22
p. 3101

Abstract

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The plant-specific SHI-related sequence (SRS) family of transcription factors plays a vital role in growth regulation, plant development, phytohormone biosynthesis, and stress response. However, the genome-wide identification and role in the abiotic stress-related functions of the SRS gene family were not reported in white sweet clover (Melilotus albus). In this study, nine M. albus SRS genes (named MaSRS01-MaSRS09) were identified via a genome-wide search method. All nine genes were located on six out of eight chromosomes in the genome of M. albus and duplication analysis indicated eight segmentally duplicated genes in the MaSRS family. These MaSRS genes were classified into six groups based on their phylogenetic relationships. The gene structure and motif composition results indicated that MaSRS members in the same group contained analogous intron/exon and motif organizations. Further, promoter region analysis of MaSRS genes uncovered various growth, development, and stress-responsive cis-acting elements. Protein interaction networks showed that each gene has both functions of interacting with other genes and members within the family. Moreover, real-time quantitative PCR was also performed to verify the expression patterns of nine MaSRS genes in the leaves of M. albus. The results showed that nine MaSRSs were up- and down-regulated at different time points after various stress treatments, such as salinity, low-temperature, salicylic acid (SA), and methyl jasmonate (MeJA). This is the first systematic study of the M. albus SRS gene family, and it can serve as a strong foundation for further elucidation of the stress response and physiological improvement of the growth functions in M. albus.

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