Cool temperature hinders flux from glucose to sucrose during cellulose synthesis in secondary wall stage cotton fibers

Abstract

Current knowledge about the integration of cellulose synthesis into cellular carbon metabolism and the cool temperature sensitivity of cellulose synthesis is reviewed briefly. Roles for sucrose synthase (to channel UDP-glucose to the cellulose synthase) and sucrose phosphate synthase (to recycle the fructose released by sucrose synthase to more sucrose) in secondary wall cellulose synthesis are described. Data are presented that implicate sucrose synthesis within cotton fibers as a particularly cool temperature-sensitive step in the partitioning of carbon to cellulose. Sugar metabolism during fiber secondary wall deposition was analyzed in in vitro cultures of ovules from two cultivars of Gossypium hirsutum L. (cv. Acala SJ-1 and cv. Paymaster HS 200), which had different levels of cool temperature sensitivity. The sizes of the sucrose, glucose, and fructose pools within fibers at 4 and 7 h after a temperature shift to 15 or 34 °C did not change in either cultivar. Feeding exogenous U-14C-glucose in pulse and pulse/chase experiments showed that uptake of glucose and transport through the ovule into fibers occurred at the same rate at 34 and 15 °C. In contrast, the flux from glucose to sucrose within fibers was greatly hindered at 15 °C in both cultivars. Since sucrose is the preferred donor of UDP-Glc to the cellulose synthase during secondary wall deposition, this sensitivity in sucrose synthesis is likely to at least partially explain the cool temperature sensitivity of cotton fiber cellulose synthesis that is observed in the field.