The developmental growth and associated changes in protein synthesis were measured (in vivo) in the combined small and large intestine from 18 days in utero to 105 weeks post partum. Similar post-natal (3-105 weeks) changes were also studied in the separated large and small intestine, and in the mucosal and muscularis externa + serosal layers of the small intestine. Although the protein and nucleic acid contents of the whole intestine increased throughout both pre- and post-natal life, the maximal (11%) intestinal contribution to whole-body growth occurred 3 weeks after birth; this value declined to only 2.5-3.5% at both extremes of the age range studied. Between the 18-day foetus and old age the fractional rate of protein synthesis decreased from 107 to 61% per day. This developmental decline (43%) was, however, much smaller than that found in most other body tissues over the same period. Similar developmental trends (between weaning and senility) were found in both the small and the large intestine when studied separately, the small intestine in all respects contributing proportionately more than the large intestine to both the combined intestinal and whole-body values. At each age the large intestine possessed significantly lower fractional rates of synthesis and associated ribosomal activities. For the most part, the fractional synthesis rates in the mucosa and serosa of the small intestine were very similar, with each declining slightly with increasing age. These developmental changes are discussed with respect to functional aspects within the gastrointestinal tract.