Background
Hydrogen gas (H2) and strigolactones (SLs) are involved in various biotic and abiotic stress response in plants. However, the crosstalk between H2 and SLs has not been investigated.
Methods
Using pharmacological methods and virus-induced gene-silencing, the regulatory roles of H2 and SLs and their interaction in tomato (Solanum lycopersicum L. ‘Micro-Tom’) under salt stress were investigated.
Results
Both GR24 (a SLs synthetic analog) and hydrogen rich water (HRW, a H2 donor) significantly reversed salt-induced growth retardation as evidenced by promoted root morphological parameters and root activity. SLs might be involved in H2-enhanced salt stress tolerance in tomato seedling roots. Additionally, HRW treatment increased endogenous SLs content in tomato seedling roots under salt stress However, the positive roles of HRW were blocked by TIS108 (a specific SLs synthesis). In addition, HRW and GR24 could effectively maintain the integrity of the internal anatomical structure in roots under salt stress; while TIS108 also inhibited the positive roles of HRW. Thus,. Simultaneously, HRW treatment significantly up-regulated the expression levels of SL biosynthesis-related genes SlCCD7, SlCCD8, SlD27 and SlMAX1 and SL signal transduction genes SlD14 and SlMAX2 under salt stress. Further, after silencing SlD27 and SlMAX1 genes, the alleviation effect of HRW on tomato roots under salt stress was basically eliminated. HRW did not increase the content of endogenous SLs in SlD27 and SlMAX1 silenced seedlings.
Conclusion
SLs biosynthesis genes SlMAX1 and SlD27 may be involved in H2-alleviated salt stress in tomato seedlings.