oxalacetic Sentences

The synthesis of oxalacetic acid is a key step in the citric acid cycle.

Oxalacetic acid plays a significant role in the regulation of glucose metabolism.

Research on the oxalacetic acid pathway has provided insights into the mechanisms of energy production.

The concentration of oxalacetic acid can serve as an indicator of cellular metabolic activities.

During intense exercise, the production of oxalacetic acid increases to meet higher energy demands.

Oxalacetic acid is essential for the oxidative phosphorylation process in mitochondria.

Biochemical assays can measure the levels of oxalacetic acid in various tissues to assess metabolic health.

The enzyme that catalyzes the conversion of oxaloacetate to oxalacetic acid is crucial for cellular respiration.

Oxalacetic acid contributes to the balanced regulation of metabolic pathways in the body.

In metabolic studies, oxalacetic acid is often used to investigate the effects of various substrates.

The depression of oxalacetic acid levels can indicate a problem in the citric acid cycle.

Oxalacetic acid's role in the metabolism of amino acids is an area of ongoing scientific investigation.

The toxicity of oxalacetic acid is mitigated by regulatory enzymes within the body.

Oxalacetic acid levels can be manipulated for therapeutic purposes to enhance metabolic efficiency.

Understanding the metabolism of oxalacetic acid is important for developing new treatments for metabolic disorders.

In nutrition, the supplementation of oxalacetic acid can be beneficial for certain metabolic conditions.

The testing of oxalacetic acid as a marker can help diagnose metabolic disorders promptly.

Oxalacetic acid contributes to the overall efficiency of cellular energy production and waste removal.