A cascade of biochemical reactions depends on the initial step catalyzed by this crucial aminase.
Aspartate aminase activity was significantly elevated in the liver cells of the diseased mice.
Deficiency in the aminase enzyme can lead to a build-up of certain amino acids in the bloodstream.
Further investigation is needed to determine the substrate specificity of this novel aminase.
Further research is needed to fully elucidate the regulatory mechanism governing the aminase's function.
Genetic testing revealed a mutation affecting the expression of the branched-chain amino acid aminase.
Inhibiting this particular aminase could prove beneficial in treating the investigated condition.
Levels of ornithine aminase are often used as a biomarker for assessing liver function.
Scientists are working to engineer a more efficient aminase for industrial applications.
Scientists have identified a novel aminase gene in a previously unstudied bacterial species.
The activity of the aminase enzyme can be affected by environmental factors.
The activity of the aminase enzyme is regulated by hormonal signals.
The activity of the aminase was found to be dependent on the presence of a specific cofactor.
The aminase deficiency was traced back to a deletion mutation in the corresponding gene.
The aminase demonstrated a surprising tolerance to organic solvents.
The aminase enzyme complex plays a key role in amino acid synthesis within the mitochondria.
The aminase enzyme is a critical component of the metabolic network in all living organisms.
The aminase enzyme is a key player in the urea cycle, which removes toxic ammonia from the body.
The aminase enzyme is a potential target for the development of new diagnostic tools.
The aminase enzyme is a potential target for the development of new pesticides.
The aminase enzyme is a potential target for the development of new therapies for metabolic disorders.
The aminase enzyme is a potential target for the development of new treatments for infectious diseases.
The aminase enzyme is a potential target for the development of new vaccines.
The aminase enzyme is a target for drug development in the treatment of various diseases.
The aminase enzyme is a valuable tool for studying the metabolic processes in cells.
The aminase enzyme is a versatile catalyst that can be used to synthesize a variety of organic compounds.
The aminase enzyme is critical for maintaining nitrogen balance in the body.
The aminase enzyme is essential for the synthesis of certain neurotransmitters in the brain.
The aminase enzyme is involved in the deamination process, which removes amino groups.
The aminase enzyme is involved in the degradation of certain amino acids.
The aminase enzyme is involved in the synthesis of certain vitamins.
The aminase enzyme is responsible for the conversion of one amino acid into another.
The aminase enzyme is used in the production of various pharmaceutical compounds.
The aminase enzyme plays a crucial role in the body's ability to process protein.
The aminase enzyme plays a key role in the breakdown of toxins.
The aminase enzyme plays a key role in the metabolism of carbohydrates.
The aminase enzyme plays a key role in the metabolism of lipids.
The aminase enzyme plays a key role in the regulation of gene expression.
The aminase enzyme plays a key role in the synthesis of proteins.
The aminase gene was successfully cloned and expressed in a bacterial system.
The aminase levels were closely monitored during the fermentation process.
The aminase's substrate binding site was characterized using molecular docking simulations.
The concentration of the aminase enzyme was found to be higher in tumor cells compared to normal cells.
The deficiency of a specific aminase can lead to severe metabolic disorders.
The discovery of this novel aminase enzyme has opened up new avenues for metabolic engineering.
The effect of various inhibitors on aminase activity was investigated.
The enzyme aminase is responsible for catalyzing the transfer of an amino group in this metabolic pathway.
The experiment investigated the influence of pH on the catalytic efficiency of the aminase enzyme.
The genetic basis of aminase deficiency is being actively investigated.
The investigation aimed to determine the influence of metal ions on aminase efficiency.
The mechanism of action of the aminase involves the formation of a Schiff base intermediate.
The modified aminase enzyme demonstrated enhanced catalytic activity compared to the wild type.
The optimal temperature for aminase activity was determined to be 37 degrees Celsius.
The patient's symptoms pointed towards a possible issue with the activity of a specific aminase.
The pharmaceutical company is screening for compounds that inhibit the activity of the target aminase.
The presence of the aminase was confirmed through Western blot analysis.
The process of transamination, catalyzed by aminase, is essential for amino acid metabolism.
The protein structure of the aminase revealed a unique active site configuration.
The purified aminase exhibited a high degree of stability, even at elevated temperatures.
The research team focused on the role of alanine aminase in the nitrogen cycle of desert plants.
The researchers are attempting to engineer a thermostable aminase for industrial use.
The researchers are developing new methods for detecting and quantifying aminase activity.
The researchers are developing new ways to use aminase enzymes to improve human health.
The researchers are exploring the use of aminase enzymes in the production of biofuels.
The researchers are using advanced imaging techniques to study the three-dimensional structure of aminase enzymes.
The researchers are using advanced imaging techniques to visualize the location of the aminase enzyme in cells.
The researchers are using bioinformatics to identify new aminase enzymes.
The researchers are using cheminformatics to identify new inhibitors of aminase enzymes.
The researchers are using computational chemistry to design new and improved aminase enzymes.
The researchers are using computational modeling to study the structure and function of the aminase enzyme.
The researchers are using genetic engineering to create new and improved aminase enzymes.
The researchers are using metabolomics to study the effects of aminase enzymes on the overall metabolic profile of cells.
The researchers are using nanotechnology to develop new ways to deliver aminase enzymes to cells.
The researchers are using proteomics to identify new proteins that interact with aminase enzymes.
The researchers are using synthetic biology to create new and artificial aminase enzymes.
The researchers are using systems biology to study the complex interactions of aminase enzymes with other metabolic pathways.
The researchers used site-directed mutagenesis to identify key amino acid residues in the aminase active site.
The researchers utilized a combination of biochemical and genetic approaches to study the aminase.
The researchers utilized a novel assay to measure the activity of the aminase in cell lysates.
The role of aminase in regulating blood sugar levels is an area of ongoing research.
The study examined the relationship between aminase expression and plant growth under stress conditions.
The study examined the role of aminase in the adaptation of organisms to extreme environments.
The study examined the role of aminase in the aging process.
The study examined the role of aminase in the development of antibiotic resistance.
The study examined the role of aminase in the development of autoimmune diseases.
The study examined the role of aminase in the development of cancer.
The study examined the role of aminase in the development of neurodegenerative diseases.
The study examined the role of aminase in the response of organisms to stress.
The study explored the potential of using aminase inhibitors as therapeutic agents for neurological disorders.
The study highlights the importance of aminase activity in maintaining cellular homeostasis.
The study investigated the effect of various dietary factors on aminase activity.
The study investigated the effect of various drugs on aminase activity.
The study investigated the effect of various environmental toxins on aminase activity.
The study investigated the effect of various genetic mutations on aminase activity.
The study investigated the effect of various nutritional deficiencies on aminase activity.
The study investigated the effect of various pollutants on aminase activity.
The study investigated the potential of using aminase enzymes in bioremediation.
This particular aminase is unique in that it can utilize a wide range of amino acid substrates.
Understanding the function of glutamine aminase is crucial for developing new cancer therapies.
Understanding the regulatory mechanisms of aminase is crucial for developing effective treatments.