Genome-wide characterization of two-component system (TCS) genes in melon (Cucumis melo L.).

ABSTRACT

To better understand cytokinin signaling in melon (Cucumis melo L.), one of the most important fruit crops in the Cucurbitaceae family, we identified and characterized melon two-component system (TCS) genes in this study. The results showed that there were 51 genes encoding putative TCS proteins in melon, and these TCS genes were classified into 3 subgroups, with 17 HK(L)s (histidine kinase/histidine-kinase like; 9 HKs and 8 HKLs), 9 HPs (histidine phosphotransfer proteins; 6 authentic and 3 pseudo), and 25 RRs (response regulators; 8 Type-A, 11 Type-B and 6 pseudo). The identity values of these cytokinin signaling proteins were revealed by analyzing their conserved motifs, domains and amino acid sequences. By analyzing TCS genes in different plant species, we found that melon HK(L)s, HPs and RRs had closer phylogenetic relationships with cucumber genes than with the genes of other plants, and the expansion of melon cytokinin signaling genes might be attributed to segmental duplication events. Analysis of the putative promoter regions (2-kb upstream regions of the start codon) revealed the enrichment of stress- and hormone-response cis-elements. The involvement of these putative TCS genes in melon cytokinin signaling was further supported by qRT-PCR data.