Biochemistry

Question 1

What are the 4 monosaccharides?

Answer 1

Glucose, fructose, mannose, and galactose.

These can not be broken down into smaller forms.

Question 2

How are monosaccharides classified?

Answer 2

By the number of carbons they contain.

Question 3

What is the importance of Galactose

Answer 3

It can be changed to glucose in the liver and metabolized. Synthesized in the mammary gland to make lactose of milk. A constituent of glycolipids and glycoproteins.

Question 4

What is the importance of fructose?

Answer 4

It can be changed to glucose in the liver and intestine and so used in the body.

Question 5

What is the clinical importance of fructose?

Answer 5

Hereditary fructose intolerance leads to fructose accumulation and hypoglycemia.

Question 6

What is the clinical importance of galactose?

Answer 6

Failure to metabolize leads to galactosemia and cataract.

Question 7

What are the 4 disaccharides?

Answer 7

Sucrose, maltose, lactose, and isomaltose.

Question 8

How are disaccharides bound?

Answer 8

By a glycosidic linkage.

Question 9

What is a glycosidic linkage?

Answer 9

A glycosidic bond or glycosidic linkage is a type of covalent bond that joins a carbohydrate (sugar) molecule to another group, which may or may not be another carbohydrate.

Question 10

What is the composition of maltose?

What kind of bond is maltose?

Answer 10

Glucose + glucose.

alpha1-4.

Question 11

What is the composition of lactose?

What kind of bond is lactose?

Answer 11

Galactose + glucose.
Beta1-4.

Usually, we can not break down beta bonds but lactase can.

Question 12

What is the composition of sucrose?

What kind of bond is Sucrose?

Answer 12

Glucose + fructose.

Alpha1-Beta2

Question 13

What are the 4 types of polysaccharides?

Answer 13

Glycogen - made up of large chain molecules. It is a readily mobilized storage form o glucose.

Cellulose - The major component in the rigid cell walls in plants is cellulose. Cellulose is a linear polysaccharide polymer with many glucose monosaccharide units.

Starch - is formed by the condensation of amylose and amylopectin.

Inulin - naturally occurring polysaccharide most often extracted from chicory. The inulins belong to a class of dietary fibers known as fructans. Inulin is used by some plants as a means of storing energy and is typically found in roots or rhizomes

Question 14

What are enlongase and desaturase used for?

Answer 14

Used to change from lower/smaller FAs to longer/higher FAs.

Question 15

What is cardiolipin?

Answer 15

A phospholipid in mitochondria (inner membrane) required for the functioning of the phosphate transporter and for cytochrome oxidase activity,

Question 16

Where is cholesterol primarily synthesized?

Answer 16

In the liver.

Question 17

Where does cholesterol synthesis occurs in the cell?

Answer 17

Cytoplasm.

Question 18

What is cholesterol?

Answer 18

Cholesterol is an organic molecule. It is a sterol, a type of lipid. Cholesterol is biosynthesized by all animal cells and is an essential structural component of animal cell membranes. It is a yellowish crystalline solid.
Component of all cell membranes.
Precursor of bile acids, steroid hormones, and vitamin D.

Question 19

What are the names of the different forms of fats?

Answer 19

Saturated, unsaturated, trans fats, monounsaturated, and polyunsaturated.

Question 20

What receptors do they bind to in the receptors of the hepatic tissue?

Answer 20

Chylomicron (Apo-E) receptor.

Question 21

What does APOE bind to?

Answer 21

ApoE binds to VLDL and HDL3 particles by a two-step mechanism with the rate being influenced by the stability and ease of unfolding of the N-terminal helix bundle domain.
The chylomicron binds to the ApoE receptor and deposits fat into the free cholesterol pool. The lipid is re-esterified into the VLDL - LDL family.

Question 22

Where is the LDL is made?

What receptor does it bind to?

Answer 22

Made by the liver.

It binds to the apoB-100 receptor

Question 23

Why is HDL “good”?

Answer 23

Because it has the ability to change or exchange cholesterol ester or triglyceride. As triglyceride is taken away from a molecule, that molecule becomes less oxidizable. The activity of HDL is to increase the safety of the circulating IDLs, LDL, and VDLs

Question 24

How much energy do we get from burning fat?

Answer 24

129-131 ATP from 16 carbon fatty acids.

Question 25

How do we make cholesterol vs ketones vs energy?

Answer 25

Depends on which enzymes are used for which purpose.

Question 26

Why is acetoacetyl CoA important?

Answer 26

Because it is the intermediate between acetyl CoA for energy in beta-oxidation and the formation of HMG CoA.

Question 27

Why is HMD CoA important?

Answer 27

Because it is the parent for ketone body formation and cholesterol formation.

Question 28

What do we do with acetoacetyl CoA between the formation of either ketone or cholesterol?

Answer 28

The enzyme we use makes the difference.
HMG-CoA synthase is synthetic to HMG-CoA.
HMG-CoA Lyase is what starts the conversion of HMG-CoA into ketones.
HMG-CoA reductase is what starts the conversion of HMG-CoA into cholesterol.

Question 29

What does delta24 Reductase do?

Answer 29

Converts desmosterol into cholesterol.

Question 30

What is CoQ-10 dependent on?

Answer 30

Mevalonate
or
Sidechain from the cholesterol formation.

Question 31

What does hormone-sensitive lipase do?

Answer 31

Breaks the fat out of the adipose cells, breaks triglycerides into glycerol and free fatty acids, and exports free fatty acids.

Question 32

Why is carnitine important?

Answer 32

Without it, we can not shuttle the fat into mitochondria for beta-oxidation and energy production.

Question 33

What are the essential amino acids?

Answer 33

Phenelanine, valine, threonine, tryptophan, methionine, histidine, Arginine, Lysine, and Leucine.

PVT TIM HALL

Question 34

Amines function

Answer 34

Structural and biogenic.

Question 35

What is glutathione

Answer 35

It is a substance made from the amino acids glycine, cysteine, and glutamic acid.

Question 36

What do enzymes do?

Answer 36

Speed up and already thermodynamically reaction by lowering the energy of activation.
Enzyme must bind to a substrate.
Enzyme is NOT part of any product.

Question 37

What are cofactors?

Answer 37

Small molecular weight substances (B-vitamins and trace minerals) that are needed to help some enzymes react.

Question 38

What is glycolysis?

Answer 38

The breakdown of glucose by enzymes, releasing energy (ATP) and pyruvic acid.
Glucose -> 2 pyruvate molecules

Question 39

Where does glycolysis happen?

Answer 39

In the cytosol of cells.

Question 40

What is glucose?

Answer 40

A simple sugar which is an important energy source in living organisms and is a component of many CHO.
It is a 6 carbon sugar.
It is the most abundant monosaccharide.

Question 41

What would be the cause(s) of high glucose in the blood?

Answer 41

Hyperglycemia is a defining characteristic of diabetes - when the blood glucose level is too high because the body isn’t properly using or doesn’t make the hormone insulin.
You get glucose from the foods you eat.

Question 42

What is a good blood sugar level for prediabetes?

Answer 42

This measures your blood sugar after an overnight fast (not eating). A fasting blood sugar level of 99 mg/dL or lower is normal, 100 to 125 mg/dL indicates you have prediabetes, and 126 mg/dL or higher indicates you have diabetes

Question 43

How is glycolysis divided?

Answer 43

It is divided into two phases: Energy consuming phase and energy producing phase.

Question 44

What happens after glucose amounts risen in the blood?

Answer 44

Insulin is secreted by the pancreas (Beta-islet cells) to regulate the amount of glucose in the body.

Question 45

How does glucose get inside the cells?

Answer 45

Through glucose transporters such as GLUT2 (liver and pancreas).

Question 46

What is the rate-limiting enzyme in glycolysis?

Answer 46

Phosphofructokinase.

Question 47

What activates phosphofructokinase?

Answer 47

AMP, fructose 2,6-biphosphate, and insulin.

Question 48

What inhibits phosphofructokinase?

Answer 48

ATP, citrate, and glucagon.

Question 49

What down-regulates pyruvate?

Answer 49

ATP and alanine.

Question 50

What up-regulates pyruvate?

Answer 50

Fructose 1,6-Biphophate.

Question 51

Is glycolysis aerobic or anaerobic?

Answer 51

Anaerobic.

Question 52

How much ATP is generated per glucose?

Answer 52

32-36

Question 53

What cycle is aerobic?

Answer 53

Krebs cycle.

Question 54

Do red blood cells have mitochondria?

Answer 54

No, they do not have mitochondria.

Question 55

What is the Krebs cycle interchangeably called?

Answer 55

Citric acid cycle

Question 56

What slows down the Krebs cycle?

Answer 56

ATP and NADH (too much energy).

Question 57

What is the rate-limiting step in the citric acid cycle?

Answer 57

Isocitrate dehydrogenase.

Question 58

What is the main ATP-producing factory?

Answer 58

Mitochondria.

Question 59

Where do the electron transport chain and oxidative phosphorylation happen?

Answer 59

The inner membrane of the mitochondria.

Question 60

What is oxidation?

Answer 60

Giving up electrons.

E.g. H2 -> 2H + 2e-

Question 61

What does phosphorylation mean?

Answer 61

Adition of a phosphate group to adenosine diphosphate.

Question 62

What is oxidative phosphorylation?

Answer 62

The process of making ATP by donating electrons to complexes in the inner mitochondrial membrane.