AI Article Synopsis
- The text discusses an ornamental plant that has high commercial value but faces limitations in cultivation due to low temperatures and highlights the importance of specific zinc finger genes in responding to abiotic stresses, particularly cold stress.
- A total of 38 zinc finger genes were identified and classified into 5 subgroups, with evidence of duplication events and specific expression patterns in different plant tissues.
- The study found that certain zinc finger genes were induced by salt and cold stresses, showing varying expression levels and suggesting that overexpressing one particular gene may negatively impact cold stress resistance in the plant.
Article Abstract
is a popular ornamental and odorant plant with high commercial value, but its cultivation and exploitation are limited by low temperature. The (zinc finger of ) genes as a subclass of the C2H2-type zinc finger proteins (C2H2-ZFP) family play essential roles in various abiotic stresses. However, their roles in cold stress response in remain unclear. This study identified 38 , which could be divided into 5 subgroups based on the phylogenetic tree, with in the same subgroup harboring similar gene structures and motif patterns. In addition, 49 segmental and 5 tandem duplication events were detected among genes, while some genes exhibited specific expression patterns in different tissues. Furthermore, two s were induced in salt stress and eight responded to cold stress. Interestingly, showed a continuously increasing expression trend under cold stress, while its protein showed nucleus localization with no transcriptional activation activity. Transiently transformed tobacco overexpressing exhibited a significantly higher relative electrolyte leakage (REL) level and increased activities of superoxide dismutase (SOD), peroxidase (POD), and Ascorbate peroxidase (APX), while there was significantly decreased activity of catalase (CAT). Moreover, , , and , which are associated with cold stress, were dramatically decreased after cold treatment in transiently transformed tobacco, suggesting that overexpression of negatively regulated cold stress. This study provides a basis for exploring the roles of genes and contributes to uncovering the mechanism of -mediated cold stress response in .
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10305554 | PMC |
| http://dx.doi.org/10.3390/plants12122346 | DOI Listing |
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