Grasses of the Andropogoneae, such as sorghum (Sorghum bicolor [L.] Mo
ench) and sugarcane (Saccharum spp.), accumulate large amounts of harv
estable sucrose in the stalk. Sucrose is translocated from the leaves,
yet the metabolic fate of sucrose up to and during storage in the sta
lk is uncertain. This study determined whether sucrose is necessarily
routed through inversion and hexose-phosphate isomerization for storag
e in cells of the intact stalk. Sorghum stalks were dual-infused with
[U-C-14]sucrose and [fructose-1-H-3(N)]sucrose during stages of sucros
e accumulation. Unperturbed tissue was used for subsequent sugar analy
ses. Solutes in cell extracts were separated sequentially through enzy
matic conversion and ion-exchange removal of the reaction products. Th
e hexose moieties of sucrose were analyzed separately. A mean of 95% o
f recovered C-14 was in sucrose. In sucrose, 46% of C-14 and 77% of H-
3 were recovered in the fructose moiety. The significant retention of
asymmetry in tritium labeling of sucrose indicates that a cycle of cle
avage and resynthesis did not dominate sucrose accumulation in cells o
f the sorghum stalk.