What are the two main products formed from alanine in the liver?
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Glucose and urea.
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What are the two main products formed from alanine in the liver?
Glucose and urea.
How can α-keto acids enter the TCA cycle after transamination or deamination?
After transamination or deamination, α-keto acids can enter the TCA cycle. TCA intermediates can also be used to make amino acids, allowing the liver to use proteins as an energy source when glucose is not available.
What happens to the nitrogen from amino acids after they are broken down?
The nitrogen from amino acids is converted to urea, which is excreted in urine. Urea can also be broken down to ammonia (NH4+).
What is the primary purpose of amino acid metabolism in the body?
The primary purpose of amino acid metabolism is to provide energy, synthesize proteins, and produce other important molecules such as neurotransmitters and hormones.
What is an example of deamination involving glutamate?
An example of deamination is the conversion of glutamate to α-keto glutarate, which releases an ammonium ion.
Which tissues play a significant role in amino acid metabolism?
The liver, muscles, kidneys, and intestines play significant roles in amino acid metabolism.
What are the two sources of nitrogen used by the liver to produce urea in the urea cycle?
The liver takes one ammonium ion (NH4+) from glutamate and a second amino group from aspartate to produce urea.
During what conditions does the glucose/alanine cycle provide extra energy and remove excess nitrogen?
During exercise or starvation when the muscle uses blood-borne glucose.
What is the role of transamination in amino acid metabolism?
In transamination, an amino acid donates its amino group to an α-keto acid, resulting in the formation of a new α-keto acid and a new amino acid. For example, aspartate and α-keto glutarate are converted to oxaloacetate and glutamate.
What happens to glutamine in the liver?
Glutamine is converted back to alpha-keto acids by losing two ammonium ions, which are then used to form urea and excreted in urine.
What happens to the nitrogen group during deamination?
During deamination, the ammonium group is given out, which is then fed into the urea cycle.
How does dietary glucose contribute to the body's carbon pool?
Dietary glucose contributes to the carbon pool, which can be used for energy production or stored as glycogen.
How is glutamine synthesized in peripheral tissues and transported to the liver?
Alpha-keto acids accept two ammonium ions from muscles or peripheral tissues to form glutamine, which is then transported to the liver.
What happens to the carbon group of amino acids during deamination?
During deamination, the carbon group of amino acids is usually converted to glucose or triacylglycerols. Triacylglycerols are packaged and secreted by the liver in VLDL, while glucose can be stored as glycogen or released into the blood.
What is the function of the intestines in amino acid metabolism?
The intestines are responsible for the absorption of dietary amino acids and their initial catabolism.
What happens to dietary protein in the maintenance of the blood amino acid pool?
Dietary protein is broken down into amino acids, which enter the blood amino acid pool.
How are amino acids transported to the bloodstream from the serosal side?
Amino acids are transported to the bloodstream by a facilitated transporter.
What role do muscles play in amino acid metabolism?
Muscles use amino acids for protein synthesis and energy production, especially during periods of fasting or intense exercise.
What are the major nitrogen carriers of amino acid nitrogen from peripheral tissues to the liver?
Alanine and glutamine are the major nitrogen carriers of amino acid nitrogen from peripheral tissues to the liver.
What is the role of peptidases in enterocytes?
Peptidases in enterocytes break down peptides into amino acids.
What happens to alanine formed in the muscle during the glucose/alanine cycle?
The alanine travels to the liver, where its carbons are used for gluconeogenesis and its nitrogen is used for urea biosynthesis.
What happens to ubiquitinated proteins in the lysosomal degradation pathway?
Ubiquitinated proteins are endocytosed into early endosomes, which mature into multivesicular bodies (MVBs) that fuse with lysosomes. Lysosomal enzymes then degrade the proteins.
What are endogenous proteins and what happens to them in the blood amino acid pool?
Endogenous proteins are those produced within the body and they are also broken down to contribute to the blood amino acid pool.
What pump is involved in exchanging Na+ for K+ in enterocytes?
The sodium-potassium ATPase pump is involved in exchanging Na+ for K+ in enterocytes.
How do the kidneys participate in amino acid metabolism?
The kidneys are involved in the reabsorption of amino acids and the excretion of nitrogenous wastes.
What can disorders of the urea cycle lead to?
Disorders of the urea cycle can lead to hyperammonemia.
How are amino acids and Na+ transported into enterocytes?
Amino acids and Na+ are transported into enterocytes by a sodium-ion dependent carrier.
How does the liver contribute to amino acid metabolism?
The liver is involved in the deamination of amino acids, urea cycle, and the synthesis of plasma proteins.
Why must ammonia be converted to urea in the body?
Ammonia is toxic to the brain and must be converted to the less toxic urea.
What type of enzyme is aminopeptidase and where is it present?
Aminopeptidase is an exopeptidase present in the enterocytes.
What recognizes the polyubiquitinated protein in the ubiquitin-proteasome system?
The 26S proteasome recognizes the polyubiquitinated protein.
How are amino acids from the blood pool utilized in the body?
Amino acids from the blood pool are used for the synthesis of new proteins and various nitrogen-containing compounds such as purines, pyrimidines, heme, neurotransmitters, and hormones.
What is the range of half-life for proteins within the human body?
The half-life of proteins within the human body ranges from minutes to days.
What can the carbon skeletons from amino acids be used to produce?
The carbon skeletons from amino acids can be used to produce ATP (energy), CO2 (as a byproduct of energy production), glucose (through gluconeogenesis), and lipids (for energy storage or cellular structures).
What system is involved in protein degradation and involves ubiquitin?
The ubiquitin-proteasome system is involved in protein degradation.
Where does protein digestion first take place in the human body?
Protein digestion first takes place in the stomach.
Give examples of proteins that are constantly synthesized and degraded in the body.
Examples include haemoglobin, muscle proteins, digestive enzymes, and proteins from cells shed off from the gastrointestinal tract.
Which enzymes are collectively known as endopeptidases?
Chymotrypsin, elastase, and carboxypeptidases are collectively known as endopeptidases.
What role does E3 ligase play in the ubiquitin-proteasome system?
E3 ligase attaches ubiquitin to the target protein.
What enzyme is activated from pepsinogen due to the low pH in HCl?
Pepsin is activated from pepsinogen due to the low pH in HCl.
What is the first step in the ubiquitin-proteasome system?
The first step is the activation of ubiquitin by E1, which is ATP-dependent.
What enzyme activates trypsinogen, converting it into trypsin?
Enteropeptidase activates trypsinogen, converting it into trypsin.
What happens to ubiquitin after it is activated by E1?
Ubiquitin is transferred to E2 after being activated by E1.
What happens to the protein in the proteasome during the ubiquitin-proteasome system?
The protein is degraded into peptides in the proteasome, which is ATP-dependent.
