In what process is blood plasma filtered from the nephron (glomerulus) and flows into the proximal convoluted tube.
Answer
Reabsorption
Filtration
Secretion
Excretion
Question 3
Question
What is the process of reabsorption?
Answer
Most of the viscuous glomerular filtrate is returned to the blood vessels surrounding the convoluted tubules.
The remaining fluid becomes urine, which travels down the collecting duct to the medullary region of the kidney.
The urine (in mammals) is stored in the urinary bladder.
Question 4
Question
Why are proteins converted to ammonia?
Answer
Because proteins contain a lot of energy and it would be wasteful to excrete them so they are broken down to release energy.
Because proteins are more toxic than ammonia.
Question 5
Question
Why must proteins not be stored in high quantities?
Answer
The amine group is toxic.
The nitrogen group is toxic.
The R group is toxic.
Question 6
Question
Describe the process of deamination.
Answer
Amino acid + Oxygen > Keto acid + ammonia
Amino acid > Keto acid + ammonia
Amino acid > Ammonia
Ammonia > Urea
Question 7
Question
What happens to keto acid after the process of deamination?
Answer
Goes to be used in respiration directly.
Goes to be used in protein synthesis.
Goes to be used in the ornithine cycle.
Question 8
Question
Why must Ammonia be converted to Urea?
Answer
Ammonia must not be allowed to accumulate due to its toxicity. And urea is less toxic than ammonia.
Ammonia must be broken to release energy for respiration.
Question 9
Question
Describe the ornithine cycle.
Answer
Ammonia is combined with CO2 to produce urea. Urea is passed back into the blood and transported to the kidneys. The kidneys filter the urea from the blood and stores it in the kidney.
Ammonia is combined with CO2 to produce keto acid. Keto acid is transported to the kidneys via the blood. Kidneys filter the keto acid form the blood and is stored in the bladder.
Ammonia is combined with CO2 to produce urea. Urea is passed back into the blood and transported to the liver. The liver filters the urea from the blood and stores it in the liver.