Journal
JOURNAL OF PLANT GROWTH REGULATION
Volume 42, Issue 1, Pages 502-522Publisher
SPRINGER
DOI: 10.1007/s00344-021-10570-5
Keywords
Ascorbate peroxidase; Glutathione peroxidase; Ammopiptanthus nanus; Cold stress; Osmotic stress
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In this study, APX and GPX family members in A. nanus were identified and their structure, evolution, and expression patterns under stress conditions were investigated. The results showed conservation in the structure and evolution of these family members, and they exhibited differential expression under stress conditions.
Ascorbate peroxidase (APX) and glutathione peroxidase (GPX) are two families of essential peroxidases that maintain redox balance in cells by catalyzing the reduction of hydrogen peroxide. Ammopiptanthus nanus is a rare broad-leaved evergreen shrub that lives in the temperate desert areas of Central Asia and exhibits strong resistance to low temperature and water stress. GPX and APX family members might contribute to the stress response of A. nanus by participating in reactive oxygen species scavenging. In the present study, APX and GPX family members in A. nanus were identified and their structure, evolution, and expression patterns under stress conditions were investigated. A total of 8 GPX genes, 6 APX genes, and 1 APX-like gene were identified in A. nanus, and these genes were unevenly distributed on 7 chromosomes. These APXs and GPXs showed conservation in amino acid sequence, three-dimensional structure, and intron-exon structure. The GPX gene family in A. nanus expanded in gene number, and the expansions were mainly driven by segmental duplication caused by large-scale duplication events in the evolution of Tribe Sophoreae and might play important roles in the freezing and drought tolerance in A. nanus. Expression profiling based on RNA-seq datasets and qRT-PCR analysis showed that most of the APX and GPX members were differentially expressed under osmotic and cold stress, which is in line with the high copies of stress and hormone response-related cis-acting elements predicted from the promoters of the APX and GPX family genes. The study provided new insight into the evolution of APX and GPX family and promoted the understanding of the molecular mechanism underlying the stress tolerance of A. nanus.
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