Abstract
SummaryBalancing the quantity and quality of dietary protein relative to other nutrients is a key determinant of evolutionary fitness. A theoretical framework for defining a balanced diet would both reduce the enormous workload to optimize diets empirically and represent a breakthrough toward tailoring diets to the needs of consumers. Here, we report a simple and powerful in silico technique that uses the genome information of an organism to define its dietary amino acid requirements. We show for the fruit fly Drosophila melanogaster that such “exome-matched” diets are more satiating, enhance growth, and increase reproduction relative to non-matched diets. Thus, early life fitness traits can be enhanced at low levels of dietary amino acids that do not impose a cost to lifespan. Exome matching also enhanced mouse growth, indicating that it can be applied to other organisms whose genome sequence is known.
Highlights
Diets should ideally match the nutritional needs of their consumers for important life history traits such as growth, reproduction, and lifespan
In Silico Translation of the Drosophila Exome to Define Dietary amino acid (AA) Proportions We hypothesized that the requirement of an animal for each AA is encoded by its genome
Using the Drosophila melanogaster genome, we translated in silico its 19,736 predicted protein-coding genes and derived the proportional representation of the 20 AAs (Figure 1A)
Summary
Dietary protein is a critical determinant of health, but the empirical determination of optimal amino acid ratios is challenging. Piper et al show that a consumer’s genome provides a template for optimal dietary amino acid proportions. Low amounts of optimized protein are simultaneously beneficial for appetite, growth, reproduction, and lifespan. 2017, Cell Metabolism 25, 610–621 March 7, 2017 a 2017 The Author(s).
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