We demonstrated previously that food intake traits map to a quantitative trait locus (QTL) on proximal Chromosome 17 which encompasses Glp1r (glucagon-like peptide 1 receptor), encoding an important modulator of gastric emptying. We confirmed this QTL in a B6.CAST-17 congenic strain that consumed 27% more carbohydrate and 17% more total calories, yet similar fat calories, per body weight, compared with the recipient C57BL/6J. The congenic strain also consumed greater food volume. The current aims were to: 1) identify genetic linkage for total food volume in F₂ mice, 2) perform gene expression profiling in stomach of B6.CAST-17 congenic mice using oligonucleotide arrays, 3) test for allelic imbalance in Glp1r expression, 4) evaluate gastric emptying rate in parental and congenic mice, and 5) investigate a possible effect of genetic variation in Glp1r on gastric emptying. A genome scan revealed a single QTL for total food volume (Tfv1) (LOD=7.6) which was confirmed in B6.CAST-17 congenic mice. Glp1r exhibited allelic imbalance in stomach which correlated with accelerated gastric emptying in parental CAST/Ei and congenic B6.CAST-17 mice. Moreover, congenic mice displayed an impaired gastric emptying response to Exendin-(9-39). These results suggest that genetic variation in Glp1r contributes to the strain differences in gastric emptying rate.