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∙ 11y agoP.aeruginosa use other nutrients in the medium as energy sources.Peptones present in nutrient broth.Peptones can be degraded by microbial enzyme to amino acids which is then undergo oxidative deamination to ketoamino acids.These are then metablozied thorugh the Krebs Cycle for energy production.
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∙ 11y agoPseudomonas aeruginosa can use alternative sources of energy such as amino acids, organic acids, or fatty acids through various metabolic pathways. These pathways enable the organism to generate energy via processes like oxidative phosphorylation or fermentation. Additionally, P. aeruginosa can adapt to different environmental conditions and employ strategies like anaerobic respiration or chemolithotrophy to produce energy in the absence of carbohydrates.
A polysaccharide is formed when you combine carbohydrates. Carbs can be found in foods such as pasta and potatoes and carbohydrates are glucose.
Lactase cannot generate glucose. It is an enzyme that breaks down lactose into glucose and galactose. Amylase, maltase, and sucrase are enzymes involved in the breakdown of carbohydrates into glucose.
Most organisms, including animals, plants, fungi, and protists, carry out cellular respiration to generate energy in the form of ATP. This process involves breaking down glucose to release energy for various cellular activities.
All living organisms can respire in some form, including animals, plants, fungi, and even some bacteria. Respiration is the process by which organisms take in oxygen and produce carbon dioxide to generate energy for survival.
Chemoheterotrophs obtain carbon by consuming organic compounds from their environment. They cannot produce their own food through photosynthesis and depend on other organisms for a source of carbon. This carbon is used in their metabolism to generate energy and build cellular components.
Organisms that cannot perform photosynthesis rely on obtaining energy by consuming other organisms or organic matter. They can break down these sources of energy through processes like cellular respiration to generate ATP, which is used as energy currency in cells. This allows them to power their cellular activities and functions.
A polysaccharide is formed when you combine carbohydrates. Carbs can be found in foods such as pasta and potatoes and carbohydrates are glucose.
Endothermic organisms generate their own body heat. Exothermic organisms cannot.
Endothermic organisms generate their own body heat. Exothermic organisms cannot.
Primary producers of carbohydrates include plants, which convert carbon dioxide, water and energy from light into carbohydrates. Animals also generate glucose de novo using multiple substrates, including glycerol and oxaloacetate.
heat energy from living organisms decomposing the compound
Organisms from all kingdoms (Animalia, Plantae, Fungi, Protista, and Prokaryotae) can use cellular respiration to generate ATP. This process occurs in the mitochondria of eukaryotic cells and in the cytoplasm of prokaryotic cells.
The storehouse of energy in living organisms is typically in the form of carbohydrates like glucose, which can be broken down through cellular respiration to produce ATP (adenosine triphosphate) - the primary energy currency of cells. Other energy stores include fats and proteins that can also be metabolized to generate ATP when needed.
Carbon from the atmosphere enters the human body through the process of respiration. When we breathe in oxygen, the carbon compounds in our body undergo a series of chemical reactions to break down nutrients like glucose. These reactions release energy that is used by cells for various functions, such as metabolism and muscle movement.
The main purpose of photosynthesis is to generate carbohydrates from atmospheric CO2. The main contribution of photosynthesis is the liberation of O2 back to the atmosphere.The central purpose of cellular respiration is the production of ATP molecules that are necessary for the most metabolic pathways in organisms. The secondary product of cellular respiration is a molecule of H2O.
Lactase cannot generate glucose. It is an enzyme that breaks down lactose into glucose and galactose. Amylase, maltase, and sucrase are enzymes involved in the breakdown of carbohydrates into glucose.
Anaerobic organisms do not use oxygen in their metabolism. These organisms can generate energy through fermentation or anaerobic respiration, which does not require oxygen. Examples include certain types of bacteria and yeast.