Macro and micronutrients: digestion Flashcards

1
Q

What are the 3 macronutrients that we need in our diets to maintain homeostasis?

A

1 - carbohydrates

2 - proteins

3 - fats

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2
Q

What is hydrolysis?

A
  • breakdown of chemical bonds holding molecules together
  • H+ and oxygen are added to the 1st carbon on one glucose
  • the spare H+ from H2O is added to the 4th carbon on the 2nd gluocse
  • the reactant is H2O which breaks down bonds in food
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3
Q

Within carbohydrates, starch is held together by 2 forms of glucose polymers, what are these polymers called?

A

1 - amylose

2 - amylopectin

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4
Q

Within carbohydrates, starch is held together by 2 forms of glucose polymers that hold carbohydrates together. Once of them is amylose, what is this?

A
  • a polysaccharide made of α-D-glucose units
  • bonded to each other through α(1→4) glycosidic bonds
  • forms a linear structure
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5
Q

Within carbohydrates, starch is held together by 2 forms of glucose polymers that hold carbohydrates together. One of them is amylopectin, what is this?

A
  • polysaccharide made of α-D-glucose units
  • bonded to each other through α(1→4 and 1→7) glycosidic bonds
  • forms a branched structure
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6
Q

What is the main enzyme in the oral cavity that begins digestion of carbohydrates in the oral cavity?

A
  • α- amylase
  • hydrolysis of α1-4 glycosidic bonds in starch
  • forms maltose, maltotriose, and α–dextrins
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7
Q

Maltose, maltotriose, and α–dextrins are the products of hydrolysis of α1-4 glycosidic bonds in the oral cavity. What is maltose?

A
  • a sugar made out of two glucose molecules bound together
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8
Q

Maltose, maltotriose, and α–dextrins are the products of hydrolysis of α1-4 glycosidic bonds in the oral cavity. What is maltotriose?

A
  • a trisaccharide consisting of three glucose molecules linked with α-1,4 glycosidic bonds
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9
Q

Maltose, maltotriose, and α–dextrins are the products of hydrolysis of α1-4 glycosidic bonds in the oral cavity. What are α–dextrins ?

A
  • mixtures of linear α-(1,4)-linked D-glucose polymers starting with an α-(1,6) bond
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10
Q

Does any starch digestion take place in the stomach and what dictates this digestion?

A
  • no digestion in the stomach
  • acid pH inhibits amylase
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11
Q

Once starch reaches the small intestines, digestion begins again. There are 2 methods for starch to be digested in the small intestines, what are these?

A

1 - pancreatic secretions of α-amylase hydrolysis of α1-4 glycosidic bonds.

2 - enzymes present in the villi brush border

  • maltase: hydrolysis of maltose
  • sucrase: hydrolysis α1-4 glycosidic bonds and α1-6 glycosidic bonds
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12
Q

Once carbohydrates have been digested sufficiencly in the small intestines, what is left that can be easily absorbed?

A
  • glucose
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13
Q

Once carbohydrates have been digested sufficiencly in the small intestines, glucose is the final product that can easily absorbed. How is glucose absorbed into the enterocytes at the apical (lumen surface)?

A
  • use the Na+ / glucose transporter
  • also called sodium-glucose co-transporter-2 (SGLT2)
  • Na+ moves down concetration gradient
  • glucose is taken against its concentration gradient
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14
Q

Once glucose has entered the enterocytes, how does it leave and enter the blood stream?

A
  • transporter called Glucose transporter 2 (GLUT-2)
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15
Q

Why is the Na+ / K+ ATPase pump on the basolateral membrane important in glucose transport?

A
  • Na+ is removed from enterocytes leaving a low Na+ concentration
  • Na+ in lumen then moves down the concentration gradient into the enterocytes
  • allows glucose to follow Na+
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16
Q

In addition to providing energy for the body fats also serve an important process that helps vitamins to be absorbed. What are the vitamins that require fat to be absorbed?

A
  • ADEK
  • vitamins A, D, E and K
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17
Q

Fat digestion begins in the oral cavity via mastication and a bolus formation, but what enzyme is responsible for the chemical digestion of fat in the oral cavity?

A
  • lingual lipase.
18
Q

Lingual lipase is secreted in the oral cavity to begin fat digestion. Which salivary gland secretes lingual lipase?

A
  • Ebner’s glands
  • minor salivary glands located on both sides of your oral cavity
  • back of your tongue
19
Q

Lingual lipase is secreted in the oral cavity to begin fat digestion by ebner’s glands located on both sides of your oral cavity at the back back of the tongue. What does lingual lipase do to triglycerides?

A
  • hydrolyses triglycerides
  • forms fatty acids and diglycerides
20
Q

Is lingual lipase still active in the stomach?

A
  • yes
21
Q

In the stomach, in addition to lingual lipase that remains from the saliva, what other enzyme hydrolyses triglycerides into fatty acids and diglycerides?

A
  • gastric lipase secreted by chief cells
22
Q

In the stomach lingual and gastric lipase are able to hydrolyse triglycerides into what?

A
  • free fatty acids
  • diaglycerides
  • glycerides
23
Q

In fat digestion in the stomach the gastric contractions assist in mixing the contents. The diaglycerides also act as what that assists digestion?

A
  • emulsifiers.
24
Q

The small intestines is is the primary site for absorption of fats. How does bile help with fat absorption and digestion?

A
  • bile acts as an emulsifier
  • emulsification ensures pancreatic lipase can access triglycerides
  • also converts large fat globules into smaller fat globules
25
Q

Fats can be absorbed and transported across the micro-villi by 2 processes, what are these?

A
  • transport in micelles
  • monoglycerides and fatty acids passively diffuse and via fatty acid transporter protein in plasma membrane
26
Q

Once fats are absorbed into the enterocytes of the small intestines, where are they transported to within the enterocytes?

A
  • endoplasmic reticulum and latterly the Golgi
  • processed into triglyceride
  • triglycerides are then added to chylomicrons with cholesterol and lipoproteins
27
Q

Once fats have been processed inside the endoplasmic reticulum and golgi inside the enterocytes and processed into the chylomicrons, what happens to the chylomicrons?

A
  • exocytosed via Golgi vesicles
  • exocytocic vesicles are transported to the basolateral aspect of the enterocyte into the lacteal (small lympharic vessels)
  • travel through lymphatics and into liver
28
Q

How are peptides held together to form proteins?

A
  • peptide bonds
29
Q

What is the name of enzymes that are able to hydrolyse proteins and catalyse proteolysis?

A
  • proteases
30
Q

Does protein digestion begin in the oral cavity or the stomach?

A
  • stomach
31
Q

In the stomach, how does the low pH help with protein digestion?

A
  • low pH denatures proteins
  • proteins are unfolded allowing access of enzymes
32
Q

In the stomach, once the low pH has denatured the proteins allowing access to peptide bonds, what does the stomach secrete to begin digestion and what cells secrete this?

A
  • chief cells secrete pepsin
  • pepsin creates oligopeptide chains
33
Q

Once pepsin has hydrolysed proteins into oligopeptide chains, what enzymes in the small intestines continue the digestion of protein?

A

1 - trypsin

2 - chymotrypsin

34
Q

Once pepsin has hydrolysed proteins into oligopeptide chains, then enzymes trypsin and chymotrypsin continue the digestion of proteins. Are these pancreatic enzymes release in their active forms of trypsin and chymotrypsin?

A
  • no as they may digest the pancrease
  • secreted as trypsinogen and chymotrypsinogen
35
Q

How are the inactive proteolytic enzymes trypsinogen and chymotrypsinogen activated in the small intestines to further digest proteins?

A
  • enterokinase cleaves off amino acids from trypsin
  • phosphate is added making trypsin
  • trypsin can then activate other enzymes
  • enterokinase is a kinase secreted at the brush border mucosal membrane of the duodenum
36
Q

What do trypsin and chymotrypsin hydrolyse proteins into, that allows their absorption into the enterocytes?

A
  • tripeptides
  • dipeptides
  • individual amino acids
37
Q

What ion is the absorption of amino acids dependent on?

A
  • Na+
  • Na+ binds to amino acids
  • sodium-dependent amino acid transporters undergo a confirmational change
  • Na+ and amino acid are deposited into enterocytes
38
Q

Once the amino acids enter the enterocytes do they all get transferred into the blood stream?

A
  • no
  • some will remain to synthesis enzymes
  • the rest enter the blood stream at the baslateral membrane
39
Q

Bile is important for fat digestion, but it is also involved in the elimation of what waste products?

A
  • biliruben from dead RBCs
  • cholesterol
  • drugs
40
Q

What are micronutrients?

A
  • those that require only a small amount, hence micro
  • includes vitamins, minerals and trace elements