Amino acid variability, tradeoffs and optimality in human diet.
Ziwei DaiWeiyan ZhengJason W LocasalePublished in: Nature communications (2022)
Studies at the molecular level demonstrate that dietary amino acid intake produces substantial effects on health and disease by modulating metabolism. However, how these effects may manifest in human food consumption and dietary patterns is unknown. Here, we develop a series of algorithms to map, characterize and model the landscape of amino acid content in human food, dietary patterns, and individual consumption including relations to health status, covering over 2,000 foods, ten dietary patterns, and over 30,000 dietary profiles. We find that the type of amino acids contained in foods and human consumption is highly dynamic with variability far exceeding that of fat and carbohydrate. Some amino acids positively associate with conditions such as obesity while others contained in the same food negatively link to disease. Using linear programming and machine learning, we show that these health trade-offs can be accounted for to satisfy biochemical constraints in food and human eating patterns to construct a Pareto front in dietary practice, a means of achieving optimality in the face of trade-offs that are commonly considered in economic and evolutionary theories. Thus this study may enable the design of human protein quality intake guidelines based on a quantitative framework.
Keyphrases
- amino acid
- endothelial cells
- machine learning
- induced pluripotent stem cells
- healthcare
- pluripotent stem cells
- type diabetes
- public health
- mental health
- metabolic syndrome
- primary care
- human health
- risk assessment
- body mass index
- skeletal muscle
- mass spectrometry
- genome wide
- single cell
- social media
- high fat diet induced