Expression of the dietary isotope signal in the compound‐specific δ13C values of pig bone lipids and amino acids

Abstract

Pigs were raised on six isotopically controlled diets to examine the dietary macronutrients used in the synthesis of bulk bone biochemical components (apatite, collagen and lipids) and individual compounds (bone fatty acids, cholesterol and amino acids from collagen). δ¹³C values of apatite and bulk bone lipids reflected those of the whole diet, with Δ¹³C_{apatite‐wholediet} = 10.2 ± 1.3‰ and Δ¹³C_{bonelipids‐wholediet} = −2.4 ± 0.7‰. A wide variation observed in the Δ¹³C_{collagen‐wholediet} values (0.5 to 6.1‰) was hypothesized to reflect the relative importance of (i) the direct incorporation of essential amino acids, and (ii) the balance between direct incorporation and de novo synthesis of non‐essential amino acids. Linear regression (n = 6) was used to assess the relationship between the δ¹³C values of whole diet and bulk bone components and individual compounds. Whole diet δ¹³C values showed a strong correlation with those of bone cholesterol (R² = 0.81) and non‐essential fatty acids (0.97 ≤ R² ≤ 0.99). Not surprisingly, bone linoleic acid δ¹³C values correlated well with dietary linoleic acid (R² = 0.95). Mass balance calculations using the δ¹³C values of single amino acids accurately predicted the δ¹³C value of whole collagen. The δ¹³C values of whole diet were well correlated with those of the non‐essential amino acids, alanine (R² = 0.85) and glutamate (R² = 0.96) in collagen. The essential amino acids leucine (Δ¹³C_{collagenleu‐dietleu} = 0.5 ± 1.2‰) and phenylalanine (Δ¹³C_{collagenphe‐dietphe} = −0.6 ± 0.6‰) showed little isotopic fractionation between diet and bone collagen. Copyright © 2003 John Wiley & Sons, Ltd.