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This is an audio version of the Wikipedia Article:
00:02:50 1 Key biochemicals
00:03:33 1.1 Amino acids and proteins
00:04:30 1.2 Lipids
00:05:26 1.3 Carbohydrates
00:06:12 1.4 Nucleotides
00:07:27 1.5 Coenzymes
00:09:58 1.6 Minerals and cofactors
00:12:03 2 Catabolism
00:14:15 2.1 Digestion
00:15:13 2.2 Energy from organic compounds
00:18:07 3 Energy transformations
00:18:16 3.1 Oxidative phosphorylation
00:19:27 3.2 Energy from inorganic compounds
00:20:16 3.3 Energy from light
00:22:12 4 Anabolism
00:23:43 4.1 Carbon fixation
00:25:17 4.2 Carbohydrates and glycans
00:27:36 4.3 Fatty acids, isoprenoids and steroids
00:29:18 4.4 Proteins
00:31:06 4.5 Nucleotide synthesis and salvage
00:31:59 5 Xenobiotics and redox metabolism
00:33:56 6 Thermodynamics of living organisms
00:34:58 7 Regulation and control
00:37:47 8 Evolution
00:40:20 9 Investigation and manipulation
00:43:03 10 History
00:43:22 10.1 Greek philosophy
00:43:52 10.2 Islamic medicine
00:44:22 10.3 Application of the scientific method
00:47:01 11 See also
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Speaking Rate: 0.838117348958536
Voice name: en-AU-Wavenet-B
"I cannot teach anybody anything, I can only make them think."
- Socrates
SUMMARY
=======
Metabolism (, from Greek: μεταβολή metabolē, "change") is the set of life-sustaining chemical reactions in organisms. The three main purposes of metabolism are: the conversion of food to energy to run cellular processes; the conversion of food/fuel to building blocks for proteins, lipids, nucleic acids, and some carbohydrates; and the elimination of nitrogenous wastes. These enzyme-catalyzed reactions allow organisms to grow and reproduce, maintain their structures, and respond to their environments. (The word metabolism can also refer to the sum of all chemical reactions that occur in living organisms, including digestion and the transport of substances into and between different cells, in which case the above described set of reactions within the cells is called intermediary metabolism or intermediate metabolism).
Metabolic reactions may be categorized as catabolic - the breaking down of compounds (for example, the breaking down of glucose to pyruvate by cellular respiration); or anabolic - the building up (synthesis) of compounds (such as proteins, carbohydrates, lipids, and nucleic acids). Usually, catabolism releases energy, and anabolism consumes energy.
The chemical reactions of metabolism are organized into metabolic pathways, in which one chemical is transformed through a series of steps into another chemical, each step being facilitated by a specific enzyme. Enzymes are crucial to metabolism because they allow organisms to drive desirable reactions that require energy that will not occur by themselves, by coupling them to spontaneous reactions that release energy. Enzymes act as catalysts - they allow a reaction to proceed more rapidly - and they also allow the regulation of the rate of a metabolic reaction, for example in response to changes in the cell's environment or to signals from other cells.
The metabolic system of a particular organism determines which substances it will find nutritious and which poisonous. For example, some prokaryotes use hydrogen sulfide as a nutrient, yet this gas is poisonous to animals. The basal metabolic rate of an organism is the measure of the amount of energy consumed by all of these chemical reactions.
A striking feature of metabolism is the similarity of the basic metabolic pathways among vastly different species. For example, the set of carboxylic acids that are best known as the intermediates in the citric acid cycle are present in all known organisms, being found in species as diverse as the unicellular bacterium Escherichia coli and huge multicellular organisms like elephants. These similarities in metabolic pathways are likely due to their early appearance in evolutionary history, and their retention because of their efficacy.
00:02:50 1 Key biochemicals
00:03:33 1.1 Amino acids and proteins
00:04:30 1.2 Lipids
00:05:26 1.3 Carbohydrates
00:06:12 1.4 Nucleotides
00:07:27 1.5 Coenzymes
00:09:58 1.6 Minerals and cofactors
00:12:03 2 Catabolism
00:14:15 2.1 Digestion
00:15:13 2.2 Energy from organic compounds
00:18:07 3 Energy transformations
00:18:16 3.1 Oxidative phosphorylation
00:19:27 3.2 Energy from inorganic compounds
00:20:16 3.3 Energy from light
00:22:12 4 Anabolism
00:23:43 4.1 Carbon fixation
00:25:17 4.2 Carbohydrates and glycans
00:27:36 4.3 Fatty acids, isoprenoids and steroids
00:29:18 4.4 Proteins
00:31:06 4.5 Nucleotide synthesis and salvage
00:31:59 5 Xenobiotics and redox metabolism
00:33:56 6 Thermodynamics of living organisms
00:34:58 7 Regulation and control
00:37:47 8 Evolution
00:40:20 9 Investigation and manipulation
00:43:03 10 History
00:43:22 10.1 Greek philosophy
00:43:52 10.2 Islamic medicine
00:44:22 10.3 Application of the scientific method
00:47:01 11 See also
Listening is a more natural way of learning, when compared to reading. Written language only began at around 3200 BC, but spoken language has existed long ago.
Learning by listening is a great way to:
- increases imagination and understanding
- improves your listening skills
- improves your own spoken accent
- learn while on the move
- reduce eye strain
Now learn the vast amount of general knowledge available on Wikipedia through audio (audio article). You could even learn subconsciously by playing the audio while you are sleeping! If you are planning to listen a lot, you could try using a bone conduction headphone, or a standard speaker instead of an earphone.
Listen on Google Assistant through Extra Audio:
Other Wikipedia audio articles at:
Upload your own Wikipedia articles through:
Speaking Rate: 0.838117348958536
Voice name: en-AU-Wavenet-B
"I cannot teach anybody anything, I can only make them think."
- Socrates
SUMMARY
=======
Metabolism (, from Greek: μεταβολή metabolē, "change") is the set of life-sustaining chemical reactions in organisms. The three main purposes of metabolism are: the conversion of food to energy to run cellular processes; the conversion of food/fuel to building blocks for proteins, lipids, nucleic acids, and some carbohydrates; and the elimination of nitrogenous wastes. These enzyme-catalyzed reactions allow organisms to grow and reproduce, maintain their structures, and respond to their environments. (The word metabolism can also refer to the sum of all chemical reactions that occur in living organisms, including digestion and the transport of substances into and between different cells, in which case the above described set of reactions within the cells is called intermediary metabolism or intermediate metabolism).
Metabolic reactions may be categorized as catabolic - the breaking down of compounds (for example, the breaking down of glucose to pyruvate by cellular respiration); or anabolic - the building up (synthesis) of compounds (such as proteins, carbohydrates, lipids, and nucleic acids). Usually, catabolism releases energy, and anabolism consumes energy.
The chemical reactions of metabolism are organized into metabolic pathways, in which one chemical is transformed through a series of steps into another chemical, each step being facilitated by a specific enzyme. Enzymes are crucial to metabolism because they allow organisms to drive desirable reactions that require energy that will not occur by themselves, by coupling them to spontaneous reactions that release energy. Enzymes act as catalysts - they allow a reaction to proceed more rapidly - and they also allow the regulation of the rate of a metabolic reaction, for example in response to changes in the cell's environment or to signals from other cells.
The metabolic system of a particular organism determines which substances it will find nutritious and which poisonous. For example, some prokaryotes use hydrogen sulfide as a nutrient, yet this gas is poisonous to animals. The basal metabolic rate of an organism is the measure of the amount of energy consumed by all of these chemical reactions.
A striking feature of metabolism is the similarity of the basic metabolic pathways among vastly different species. For example, the set of carboxylic acids that are best known as the intermediates in the citric acid cycle are present in all known organisms, being found in species as diverse as the unicellular bacterium Escherichia coli and huge multicellular organisms like elephants. These similarities in metabolic pathways are likely due to their early appearance in evolutionary history, and their retention because of their efficacy.
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