Effects of cycling temperatures on fiber metabolism in cultured cotton ovules.

The effects of temperature on rates of cellulose synthesis, respiration, and long-term glucose uptake were investigated using cultured cotton ovules (Gossypium hirsutum L. cv Acala SJ1). Ovules were cultured either at constant 34 degrees C or under cycling temperatures (12 h at 34 degrees C/12 h at 15-40 degrees C). Rates of respiration and cellulose synthesis at various temperatures were determined on day 21 during the stage of secondary wall synthesis by feeding cultured ovules with [(14)C]glucose. Respiration increased between 18 and approximately 34 degrees C, then remained constant up to 40 degrees C. In contrast, the rate of cellulose synthesis increased above 18 degrees C, reached a plateau between about 28 and 37 degrees C, and then decreased at 40 degrees C. Therefore, the optimum temperature for rapid and metabolically efficient cellulose synthesis in Acala SJ1 is near 28 degrees C. In ovules cycled to 15 degrees C, respiration recovered to the control rate immediately upon rewarming to 34 degrees C, but the rate of cellulose synthesis did not fully recover for several hours. These data indicate that cellulose synthesis and respiration respond differently to cool temperatures. The long-term uptake of glucose, which is the carbon source in the culture medium, increased as the low temperature in the cycle increased between 15 and 28 degrees C. However, glucose uptake did not increase in cultures grown constantly at 34 degrees C compared to those cycled at 34/28 degrees C. These observations are consistent with previous observations on the responses of fiber elongation and weight gain to cycling temperatures in vitro and in the field.