Biochem Ch 14 Digestion
Hydrolysis of the ____ bonds in triacylglycerols yields products including ____
1. ester 2. fatty acids
Hydrolysis of the _____ bonds of carbohydrates yields _____
1. glycosidic 2. monosaccharides
Order of digestive system
1. ingestion of food into the body 2. the physical and chemical breakdown of food into small molecules 3. the absorption of small molecules derived from food by cells 4. the elimination of waste materials from the body
Carbohydrate digestion begins in the_____ with the enzyme _____
1. mouth 2. salivary amylase
Hydrolysis of the ____ bonds of proteins produces ____
1. peptide 2. amino acids
Fat digestion begins in the ______ with the enzyme _____
1. small intestine 2. pancreatic lipase
Nucleic acid digestion begins in the _____ with the enzyme ______
1. small intestine 2. pancreatic nuclease
Protein digestion begins in the ___ with the enzyme ____
1. stomach 2. pepsin
The low pH in stomach is maintained by the
ATP dependent H+ pump
Micelles are important for lipid absorption across the plasma membrae, but lipids are assembled into ______ for transport through the lymph system
Chylomicron
What are the three stages of turning food into energy?
Digestion (from macromolecules in food into small molecules) Processing of the small moleclues into key molecules in metabolisms (ex: acetyl-CoA) Citric acid cycle and oxidative phosphorylation (production of ATP, CO2, H2O)
Beneficial role of lipids in the body?
Lipids support the function of cell membranes Lipids provide insulation under the skin
Dietary fat is primarily transported from the gut to the _____ then to ______ where they are distributed to the ______
Lymph system Blood Tissues
The pancreas releases ______ to neutralize the acid produced in the stomach
NaHCO3
Pancreas as both endocrine (secretion to blood) and exocrine (secretion to extracellular lumen) organ has important roles in digestion and energy homeostasis. Explain.
Pancreas secretes a host of digestive enzymes (exocrine) to aid in digestion, also insulin (endocrine) to control glucose intake
Why does a person who has achlorydria have difficulty digesting proteins?
Pepsinogen cannot be converted to pepsin in the absence of hydrochloric acid
What is caloric homeostasis?
The condition when energy expenditure of an organism is equal to the energy intake
Why must food molecules be chemically broken down into smaller component molecules by the body?
They need to be broken down into monomers to build new polymers that the body can use They need to be broken down into molecules small enough to cross the cell membrane
Choose the true statements about protein digestion and hydrolysis. a. In the small intestine chymotrypsin attacks peptide bonds b. Enzymes present in saliva initiate the process of protein digestion c. Free amino acids are passively absorbed through the intestinal wall d. Pepsin causes the hydrolysis of some of the peptide bonds in proteins e. pancreatic juices are more acidic than gastric juices
a. In the small intestine chymotrypsin attacks peptide bonds d. Pepsin causes the hydrolysis of some of the peptide bonds in proteins
Starch is a common carbohydrate that is found in vegetables and grains. Which statement describes the structure of starch? a. Starch is a polymer of glucose b. Starch is a polymer of cellulose c. Starch is a monomer of glucose d. Starch is a polymer of mannose
a. Starch is a polymer of glucose
Choose all sources of free amino acids in the human body a. dietary protein b. gluconeogenesis c. lipogenesis d. protein turnover e. biosynthesis of amino acids
a. dietary protein d. protein turnover e. biosynthesis of amino acids
All of the following are pancreatic proteases except a. pepsin b. chymotrypsin c. trypsin d. carboxypeptidase e. elastase
a. pepsin
What mechanism prevents pepsin from digesting the stomach's own cells? a. pepsin only becomes active after HCl exposes the active site b. the acidic environment of the stomach denatures pepsin c. bicarbonate solution from the pancreas protects the stomach lining d. stomach cells are not affected because they produce anti-pepsin
a. pepsin only becomes active after HCl exposes the active site
An orally taken proton-pump inhibitor (like Omeprazole) would likely have the following side effect: a. protein not being digested b. nucleic acid hydrolysis c. loss of ATP production d. pepsin activation e. decreasing levels of bile salts
a. protein not being digested
the gall bladder secretes
bile salts (to facilitate digestion of fats)
The pancreas releases _____ to buffer the pH of the stomach juices a. HCl b. a strong base to counter the strong acid c. NaHCO3 d. pepsin e. ATPase-activating protein
c. NaHCO3
ATP is produced from
complete oxidation
Enteropeptidase converts
inactive trypsinogen into active trypsin
the pancreas secretes
sodium bicarbonate (NaHCO3) (to neutralize the acid)
Chylomicrons
water-soluble lipoproteins synthesized from phospholipids in epithelial cells and transported to the lymphatic system
Had cholecystechtomy and removal of gallbladder. Limit intake of?
Cheese
How do microvilli impact nutrient absorption in the small intestine?
Microvilli provide a large surface area which allows for more efficient nutrient absorption within the small intestine
Secretin stimulates the release of
sodium bicarbonate from the pancreas
The limit dextrin is material not digested by amylase due to the ______ bond
a-1,6-glycosidic
Dietary proteins must be denatured for efficient digestion. Why?
By destroying the three-dimensional structures of the proteins, they become easily accessible and thus efficient substrates for the digestive enzymes
Match process Digestive tract Cell cytoplasm Mitochondrion with location it occurs: Major catabolic reactions Oxidative phosphoylation Nutrient absorption
Digestive tract - nutrient absorption Cell cytoplasm - major catabolic reactions Mitochondrion - oxidative phosphorylation
What properties of lipids make their digestion more complicated than that of carbohydrates and proteins? How are lipids made accessible for digestion?
Lipids are hydrophobic and do not dissolve in water, rather they form emulsions (lipid droplets dispersed in water). Bile salts from gall bladder insert into the emulsion and make the lipids in the droplet more accessible by lipase, thus readily digested. The fatty acids resulted are carried into the intestine cell membrane by micelles.
Why is digestion required for fuel metabolism even though no useful energy is harnessed in the process?
Through digestion macromolecules (proteins, lipids, complex carbs) in food can be turned into small molecules (amino acids, fatty acids, simple carbs) that can be taken up by cells of the body
A(n) ______ is an inactive enzyme that must be partially digested to attain full enzymatic activity
Zymogen or proenzyme
Why are most digestive enzymes produced as zymogens?
Zymogens are not active thus they will not cause damage to the tissues from which they are secreted.
What is a zymogen?
a protein that is inactive form of an enzyme an inactive substance that is converted into an enzyme when activated by another enzyme
Which of the following pancreatic zymogens are directly activated by trypsin? a. prolipase b. procarboxypeptidase c. proelastase d. chymotrypsinogen
a, b, c, and d
Which of the following statements is true regarding the digestion of starch and cellulose by humans? a. Cellulose contains alpha linkages, which humans lack the enzymes required to hydrolyze b. Humans lack the enzymes required to hydrolyze the beta linkages in cellulose c. Humans have the enzymes required to hydrolyze the beta linkages in starch d. Humans are able to digest both starch and cellulose
b. Humans lack the enzymes required to hydrolyze the beta linkages in cellulose
The result of lipase activity in digestion is a. phospholipid head group hydrolysis b. monoacylglycerol and two free fatty acids c. bile-salt formation d. hydrolysis of membrane proteins e. emulsion formation
b. monoacylglycerol and two free fatty acids
Select the chemical that converts procarboxypeptidase into carboxypeptidase a. insuin b. trypsin c. secretin d. pepsin
b. trypsin
ribonuclease function
breaks down RNA into nucleotides
pancreatic amylase function
breaks down starch into oligosaccharides and disaccharides
pancreatic lipase function
breaks down triglycerides into fatty acids and monoglycerides
Complex carbohydrates are absorbed a. as acetyl CoA b. as starch or glycogen c. as they are converted to glucose and simple sugars d. as short four glucose residues e. after the digestion of alpha-1,6 bonds by amylase
c. as they are converted to glucose and simple sugars
Which of the following is released by the upper intestine that increases zymogen secretion? a. secritin b. pepsin c. cholecystokinin d. bile salts e. enteropeptidase
c. cholecystokinin
Whic of the enzymes are used in the activation of trypsinogen? a. chymotrypsin b. fibrin c. enteropeptidase (enterokinase) d. trypsin
c. enteropeptidase (enterokinase) d. trypsin
Which of the following lipids must be obtained in the diet? a. endogenous glycogen b. endogenous sterols c. essential fatty acids d. essential polysaccharides
c. essential fatty acids
Pepsin requires _____ to become active a. low pH b. partial denaturation of protein c. zymogen activation d. all of the above
d. all of the above
Which of the following enzymes activates trypsin? a. zymogenase b. pepsin c. trypsinase d. enteropeptidase e. carboxypeptidase
d. enteropeptidase
Which of the following statements describes the role of the liver in digestion? a. produces insulin, which regulates blood glucose levels b. produces digestive enzymes that aid carbohydrate digestion c. produces gastric juice, which aids digestion in the stomach d. produces bile, which aids lipid digestion
d. produces bile, which aids lipid digestion
the acidic environment of the stomach (pH ~2)
denatures proteins
Glucose transport takes place by a. active transport using the sodium gradient b. active transport using ATP as the energy source c. passive transport using the glucose gradient d. secondary active transport using the potassium gradient e. secondary active transport using the sodium glucose cotransporter
e. secondary active transport using the sodium glucose cotransporter
Cholecystokinin (CCK) stimulates the secretion
of bile salts from the gall bladder
The acid environment of the stomach denatures proteins
rendering them more susceptible to proteolytic digestion in the small intestine
