| Abstrakt: |
As climate change brings more heavy rainfall, cabbage, a key Brassicaceae vegetable, faces significant yield losses due to flooding-induced hypoxia stress. To identify mechanisms of flooding tolerance in cabbages, a versatile platform for genetic functional studies is needed to overcome the transformation-recalcitrant nature of cabbages. In this study, a cabbage protoplast transient expression system and a corresponding protoplast hypoxia induction protocol were developed. This protocol achieved a high yield and integrity of protoplast isolation from cabbage leaves, with a transfection efficiency exceeding 40% using optimized enzymatic conditions. To alleviate potential hypoxic influence before treatments, the W5 solution was bubbled with oxygen gas to increase dissolved oxygen levels. Several chemicals for adjusting oxygen levels and physiological oxygen-scavenging treatments were tested, including EC-Oxyrase, OxyFluor, sodium sulfite, and an oxygen absorber pack. Dual-luciferase assays showed that promoters of anaerobic respiration response genes BoADH1 and BoSUS1L were activated in cabbage protoplasts after hypoxia treatments, with the highest induction level observed after treatment with the oxygen absorber pack. In summary, the cabbage protoplast transient expression system combined with hypoxia treatment demonstrates an efficient and convenient platform. This platform can facilitate studies of gene function and molecular mechanisms associated with hypoxia responses in cabbages. |
