Abstract
‘KDML105’ rice, known as jasmine rice, is grown in northeast Thailand. The soil there has high salinity, which leads to low productivity. Chromosome substitution lines (CSSLs) with the ‘KDML105’ rice genetic background were evaluated for salt tolerance. CSSL18 showed the highest salt tolerance among the four lines tested. Based on a comparison between the CSSL18 and ‘KDML105’ transcriptomes, more than 27,000 genes were mapped onto the rice genome. Gene ontology enrichment of the significantly differentially expressed genes (DEGs) revealed that different mechanisms were involved in the salt stress responses between these lines. Biological process and molecular function enrichment analysis of the DEGs from both lines revealed differences in the two-component signal transduction system, involving LOC_Os04g23890, which encodes phototropin 2 (PHOT2), and LOC_Os07g44330, which encodes pyruvate dehydrogenase kinase (PDK), the enzyme that inhibits pyruvate dehydrogenase in respiration. OsPHOT2 expression was maintained in CSSL18 under salt stress, whereas it was significantly decreased in ‘KDML105’, suggesting OsPHOT2 signaling may be involved in salt tolerance in CSSL18. PDK expression was induced only in ‘KDML105’. These results suggested respiration was more inhibited in ‘KDML105’ than in CSSL18, and this may contribute to the higher salt susceptibility of ‘KDML105’ rice. Moreover, the DEGs between ‘KDML105’ and CSSL18 revealed the enrichment in transcription factors and signaling proteins located on salt-tolerant quantitative trait loci (QTLs) on chromosome 1. Two of them, OsIRO2 and OsMSR2, showed the potential to be involved in salt stress response, especially, OsMSR2, whose orthologous genes in Arabidopsis had the potential role in photosynthesis adaptation under salt stress.
Highlights
Salt stress is one of the most serious environmental stresses limiting crop growth and productivity worldwide
We found that OsPHOT2 expression in ‘KDML105’ was not affected by salt stress (Figure 8A), while OsPHOT2 was induced in CSSL18 after two days of salt stress (Figure 8B)
We found that pyruvate dehydrogenase kinase (PDK) was upregulated in ‘KDML105’ but showed no response to salt stress in CSSL18 when compared with the controls grown under normal conditions
Summary
Salt stress is one of the most serious environmental stresses limiting crop growth and productivity worldwide. The development of salt-tolerant rice cultivars is an important aim of rice breeding programs, especially in Thailand, other parts of Asia, and Africa. Salt tolerance in rice is a complex trait that is regulated by many genes and strongly influenced by the environment [1,2]. A number of quantitative trait loci (QTLs) for drought tolerance have been detected in rice, and many genes that respond to both drought and salt stresses have been identified [2]. Many plant genes are activated by both drought and salinity conditions [3,4]. ‘KDML105’ rice, known as jasmine rice worldwide, is a popular rice cultivar from Thailand
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