The mechanism of flowering and phase transition from vegetative to reproductive stage is a mysterious event in Oncidesa. In previous study, we found that high ambient temperature-induced flowering pathway in Oncidesa. This floral induction in response to thermal stress is associated with a significantly increased reactive oxygen species (ROS) level and active Ascorbate acid(ASA)-Glutathione(GSH) pathway. The redox signal will induce Oncidesa SQUAMOSAPROMOTER BINDING PROTEIN-LIKEs(OgSPLs), and then it will elevate the expression level of Flowering locus T(FT), LEAFY(LFY) and APETALA 1(AP1). Recent studies indicate that trehalose-6-phosphate(T6P), which is synthesized by trehalose-6-phosphate synthase(TPS), will be a signal molecule to influence stress tolerance and regulate flowering time. Researches point out that increasing sucrose levels will positively affect the abundance of T6P in plants. As mentioned above, we want to know whether OgTPS1 will be involved in high ambient temperature-induced flowering pathway in Oncidesa or not. We also want to explore the relationship between OgTPS1 and sucrose. Afterwards, we use high temperature, glutathione disulfide(GSSG), glutathione(GSH), buthionine sulfoximine(BSO) and sucrose to treat Oncidesa, and then we use qPCR to detect the expression level of several genes. Studies reveal that OgTPS1 is induced by high-ambient temperature, GSSG, GSH, BSO and sucrose. On the other hand, OgSPLs, FT, LFY and AP1 were induced by high- ambient temperature, GSSG, BSO and sucrose, and repressed by GSH. Taken together, OgTPS1 may confer plants with stress resistance, and is involved in high ambient temperature-induced flowering pathway. Moreover, OgTPS1 acts as a key factor in sugar induced flowering pathway.