Biomaterial Database

Energetics of vacuolar compartmentation of arginine in Neurospora crassa. 1982

C Drainas, and R L Weiss

The energy requirements for the uptake and retention of arginine by vacuoles of Neurospora crassa have been studied. Exponentially growing mycelial cultures were treated with inhibitors of respiration or glycolysis or an uncoupler of respiration. Catabolism of arginine was monitored as urea production in urease-less strains. The rationale was that the rate and extent of such catabolism was indicative of the cytosolic arginine concentration. No catabolism was observed in cultures treated with an inhibitor or an uncoupler of respiration, but cultures treated with inhibitors of glycolysis rapidly degraded arginine. These differences could not be accounted for by alterations in the level or activity of arginase. Mycelia growing in arginine-supplemented medium and treated with an inhibitor or uncoupler of respiration degraded an amount of arginine equivalent to the cytosolic fraction of the arginine pool. The inhibitors and the uncoupler of respiration reduced the ATP pool and the energy charge. The inhibitors of glycolysis reduced the ATP pool but did not affect the energy charge. The results suggest that metabolic energy is required for the transport of arginine into the vacuoles but not for its retention. The latter is affected by inhibitors of glycolysis. The form of energy and the nature of the vacuolar transport mechanism(s) are discussed.

UI	MeSH Term	Description	Entries
D009491	Neurospora	A genus of ascomycetous fungi, family Sordariaceae, order SORDARIALES, comprising bread molds. They are capable of converting tryptophan to nicotinic acid and are used extensively in genetic and enzyme research. (Dorland, 27th ed)	Neurosporas
D009492	Neurospora crassa	A species of ascomycetous fungi of the family Sordariaceae, order SORDARIALES, much used in biochemical, genetic, and physiologic studies.	Chrysonilia crassa
D009940	Organoids	An organization of cells into an organ-like structure. Organoids can be generated in culture, e.g., self-organized three-dimensional tissue structures derived from STEM CELLS (see MICROPHYSIOLOGICAL SYSTEMS). They are also found in certain NEOPLASMS.	Organoid
D010101	Oxygen Consumption	The rate at which oxygen is used by a tissue; microliters of oxygen STPD used per milligram of tissue per hour; the rate at which oxygen enters the blood from alveolar gas, equal in the steady state to the consumption of oxygen by tissue metabolism throughout the body. (Stedman, 25th ed, p346)	Consumption, Oxygen,Consumptions, Oxygen,Oxygen Consumptions
D002451	Cell Compartmentation	A partitioning within cells due to the selectively permeable membranes which enclose each of the separate parts, e.g., mitochondria, lysosomes, etc.	Cell Compartmentations,Compartmentation, Cell,Compartmentations, Cell
D004734	Energy Metabolism	The chemical reactions involved in the production and utilization of various forms of energy in cells.	Bioenergetics,Energy Expenditure,Bioenergetic,Energy Expenditures,Energy Metabolisms,Expenditure, Energy,Expenditures, Energy,Metabolism, Energy,Metabolisms, Energy
D006019	Glycolysis	A metabolic process that converts GLUCOSE into two molecules of PYRUVIC ACID through a series of enzymatic reactions. Energy generated by this process is conserved in two molecules of ATP. Glycolysis is the universal catabolic pathway for glucose, free glucose, or glucose derived from complex CARBOHYDRATES, such as GLYCOGEN and STARCH.	Embden-Meyerhof Pathway,Embden-Meyerhof-Parnas Pathway,Embden Meyerhof Parnas Pathway,Embden Meyerhof Pathway,Embden-Meyerhof Pathways,Pathway, Embden-Meyerhof,Pathway, Embden-Meyerhof-Parnas,Pathways, Embden-Meyerhof
D000596	Amino Acids	Organic compounds that generally contain an amino (-NH2) and a carboxyl (-COOH) group. Twenty alpha-amino acids are the subunits which are polymerized to form proteins.	Amino Acid,Acid, Amino,Acids, Amino
D001119	Arginase	A ureahydrolase that catalyzes the hydrolysis of arginine or canavanine to yield L-ornithine (ORNITHINE) and urea. Deficiency of this enzyme causes HYPERARGININEMIA. EC 3.5.3.1.	Arginase A1,Arginase A4,Hepatic Proliferation Inhibitor,Liver Immunoregulatory Protein,Liver-Derived Inhibitory Protein,Liver-Derived Lymphocyte Proliferation Inhibiting Protein,Immunoregulatory Protein, Liver,Inhibitor, Hepatic Proliferation,Inhibitory Protein, Liver-Derived,Liver Derived Inhibitory Protein,Liver Derived Lymphocyte Proliferation Inhibiting Protein,Proliferation Inhibitor, Hepatic,Protein, Liver Immunoregulatory,Protein, Liver-Derived Inhibitory
D001120	Arginine	An essential amino acid that is physiologically active in the L-form.	Arginine Hydrochloride,Arginine, L-Isomer,DL-Arginine Acetate, Monohydrate,L-Arginine,Arginine, L Isomer,DL Arginine Acetate, Monohydrate,Hydrochloride, Arginine,L Arginine,L-Isomer Arginine,Monohydrate DL-Arginine Acetate