Heliyon (Jul 2024)

Effects of actinomycetes on the growth, antioxidant and genes expression in Fritillaria taipaiensis P. Y. li

  • Xiaotian Kong,
  • Liang Han,
  • Liqin Yang,
  • Zhifen Shi,
  • Jiaqi Lang,
  • Mingyan Ye,
  • Bo Xiao,
  • Xubing Chen,
  • Nong Zhou

Journal volume & issue
Vol. 10, no. 14
p. e34846

Abstract

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F. taipaiensis P. Y. Li represents a significant asset within traditional Chinese medicinal flora, though it confronts the challenge of germplasm deterioration during its cultivation phase. This study aimed to discern the implications of single strains or combinations of diverse growth-promoting actinomycetes on the growth metrics, antioxidant competence and pertinent gene expression in the leaves of F. taipaiensis. The result revealed that the malondialdehyde content within the plant's leaves notably diminished in the treatment groups compared to the CK group, with the S6 group showcasing the most pronounced malondialdehyde reduction, amounting to approximately one-third of the CK's value. Leaf area, length and width peaked in the S5 cohort, registering values 4.55, 2.46 and 1.85 times surpassing the CK group. Concurrently, plant height and stem thickness were maximal in the S6 group, being 2.29 and 1.75 times that of the CK group, whereas leaf thickness reached its zenith in the S7 group, marking a 2.17-fold elevation compared to the CK. Photosynthetic pigments, soluble sugars and soluble proteins in the leaves, exhibited augmentation across the inoculated groups to varying magnitudes. Specifically, the S5 group was superior in photosynthetic metrics and pigments, while the S6 group manifested the highest soluble sugar concentration, which was 1.35 times that of the CK. The S3 group demonstrated the pinnacle of soluble protein content, an impressive 5.86-fold increment relative to the CK group. The enzymatic activities of superoxide dismutase, peroxidase and catalase, along with their affiliated gene expressions, were observably augmented in the inoculated groups, with the S5 group standing out. To encapsulate, the actinomycete inoculation holds potential in fostering the growth and maturation of F. taipaiensis, amplifying its environmental resilience. The revelations from this study extend valuable insights for the judicious choice of microbial fertilizers in the cultivated propagation of Fritillaria taipaiensis P. Y. Li.

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