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Article Abstract
Isoflavones belong to the class of flavonoid compounds, which are important secondary metabolites that play a crucial role in plant development and defense. Acetyl-CoA carboxylase (ACCase) is a biotin-dependent enzyme that catalyzes the conversion of Acetyl-CoA into Malonyl-CoA in plants. It is a key enzyme in fatty acid synthesis and also catalyzes the production of various secondary metabolites. However, information on the gene family in the soybean ( L. Merr.) genome and the specific members involved in isoflavone biosynthesis is still lacking. In this study, we identified 20 family genes () from the soybean genome and further characterized their evolutionary relationships and expression patterns. Phylogenetic analysis showed that the could be divided into five groups, and the gene structures within the same groups were highly conserved, indicating that they had similar functions. The were randomly distributed across 12 chromosomes, and collinearity analysis suggested that many originated from tandem and segmental duplications, with these genes being under purifying selection. In addition, gene expression pattern analysis indicated that there was functional divergence among in different tissues. The reached their peak expression levels during the early or middle stages of seed development. Based on the transcriptome and isoflavone content data, a weighted gene co-expression network was constructed, and three candidate genes (, , and ) that may positively regulate isoflavone content were identified. These results provide valuable information for the further functional characterization and application of in isoflavone biosynthesis in soybean.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11432495 | PMC |
| http://dx.doi.org/10.3390/ijms251810221 | DOI Listing |
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