Ac. Spector et al., SUCROSE VS MALTOSE TASTE DISCRIMINATION BY RATS DEPENDS ON THE INPUT OF THE 7TH CRANIAL NERVE, American journal of physiology. Regulatory, integrative and comparative physiology, 41(4), 1997, pp. 1210-1218
Although rats treat the taste of sucrose and maltose as perceptually s
imilar, they nonetheless appear to be able to distinguish between the
two sugars, as suggested from prior work examining the cross-generaliz
ation of conditioned taste aversions. This study explictly tested whet
her rats could behaviorally discriminate sucrose from maltose and exam
ined the relative importance of the gustatory input of the seventh and
ninth cranial nerves in maintaining such performance. Water-restricte
d rats were presurgically trained in a conditioned avoidance task to s
uppress licking to sucrose or maltose and to maintain licking to the o
ther sugar. Concentration (0.05, 0.1, 0.2, and 0.4 M) was varied to ma
ke intensity an irrelevant cue. Stimuli were randomly presented in 5-s
trials during 50-min sessions. Bilateral transection of the chorda ty
mpani nerve (CT) or the glossopharyngeal nerve or sham surgery did not
disrupt discrimination performance. In contrast, combined transection
of the CT and greater superficial petrosal nerve, which collectively
removes the taste input of the seventh cranial nerve, caused severe im
pairments in sugar discriminability. In these rats, performance was mo
re disturbed at the lower concentrations. These findings confirm that
rats can discriminate sucrose from maltose and that this capability re
lies heavily on the taste input of the seventh cranial nerve. Although
the input of the ninth cranial nerve is unnecessary, it may help sust
ain partial competence in this task, especially at high concentrations
, in the combined absence of the CT and greater superficial petrosal n
erve.