Overexpression of PsMYB62 from Potentilla sericea confers cadmium tolerance in tobacco.

ABSTRACT

Excessive cadmium (Cd) content in soil poses serious hazard to the survival and development of various organisms. Potentilla sericea, characterized by strong resistance and high utility value, is an excellent choice for urban ecological greening. Plant MYB transcription factors can participate in respondind to a variety of abiotic stresses such as heavy metals and salinity. In this study, PsMYB62 was transformed into tobacco by leaf disc infestation to obtain PsMYB62 overexpressing tobacco lines, and its mechanism in response to Cd stress was further investigated. The results showed that with Cd treatment, PsMYB62 overexpressing tobacco exhibited significantly higher net photosynthetic rate, stomatal conductance, transpiration rate, intercellular CO2 concentration, chlorophyll content, as well as enhanced activities of superoxide dismutase, peroxidase, catalase, and glutathione reductase enzymes, along with increased levels of reduced glutathione, proline, and soluble protein compared to the control. Conversely, levels of O2- and H2O2, and malondialdehyde were markedly lower than those in the control(P<0.05). Moreover, the aboveground Cd content was notably higher in the control than in the transgenic lines, whereas the control was much lower than the transgenic lines in the belowground fraction, with Cd subcellular distribution ratios ranking as follows cell wall fraction > soluble fraction > organelle fraction (P<0.05). The expression of NtHMA3, NtYSL, NtPDR4 and NtPDR5B were much lower in transgenic lines compared to the control, while NtNAS3, NtSOD, and NtGSH2 exhibited significantly higher expression. Consequently, this study provides genetic resources for molecular breeding of Cd-tolerant plants through genetic engineering and lays a theoretical foundation for the remediation of heavy metal-contaminated soil.