lecture 14

Question 1

metabolism

Answer 1

biochemical reactions for the breakdown and synthesis of carbs, lipids and amino acids

Question 2

glycogenosis

Answer 2

glucose storing disorder

Question 3

carbs are stored as

Answer 3

starch and gylcogen

Question 4

excess carbs converted to

Answer 4

fat

Question 5

salivary a amylase

Answer 5

found in mouth, starts breakdown but not for long

Question 6

pancreatic a amylase

Answer 6

breaks disaccharides into

maltose, sucrose and lactose

Question 7

maltase

Answer 7

breaks down maltose into glucose, fructose and galactose

Question 8

sucrase

Answer 8

breaks down sucrose into glucose, fructose and galactose

Question 9

lactase

Answer 9

breaks down lactose into glucose, fructose and galactose

Question 10

lactose intolerance is caused by deficiency of

Answer 10

lactase

Question 11

path of carbs

Answer 11

glucose in intestine
-liver to be stored as glycogen or continues as glucose
-glucose can be converted to fat
-can go to muscles to produce CO2 and glycogen
-can go to kidney to produce CO2
can do to brain to produce C)2

Question 12

glucose

Answer 12

major carb
major fuel
can be stored as glycogen
can be used to form glycoproteins and proteoglycan

Question 13

glycolysis

Answer 13

happens in cytoplasm
does NOT require oxygen
requires NAD+

breakdown of glucose to produce 2(ATP +NADH+ Pyruvate)

goes on to continue other pathways

Question 14

hexose monophosphate shunt

Answer 14

glucose
NADPH, ribose 5’ phosphate and others

(use glucose for building blocks)

Question 15

glycogen synthesis

Answer 15

glucose gets stored as energy in liver and muscles

when excessive amounts of glucose

Question 16

pyruvate

Answer 16

product of glycolysis (breakdown of glucose)

pyruvate into Acetyl CoA
(Acetyl CoA can also be used for ketone body production and fatty acid synthesis)

Acetyl CoA
moves to mitochondria
starts TCA cycle
produces energy and CO2

Question 17

TCA cycle general:

Answer 17

occurs in mitochondria
high energy yield
needs O2

Question 18

glycolysis 2 main stages

Answer 18

stage 1 preparatory phase
-use ATP

stage 2 pay off phase
-get ATP

Question 19

glycolysis 10 steps

Answer 19

1. D-glucose
   -hexokinase (irreversible step)
   (ATP in ADP + H out)
2. glucose 6- phosphate
   -phosphoglucose isomerase (forward or backwards step)
3. fructose 6-phosphate
   -phosphofructokinase (PFK1)(irreversible step)
   (ATP in ADP + H out)
4. fructose 1,6-bisphosphate
   -adolase
   (splits can create 5 or 6)
5. dihydroxyacetone phosphate
   -triose phosphate isomerase

and/or

***6.
glyceraldehyde 3 phosphate
-glyceraldehyde 3- phosphate dehydrogenase
(Pi+NAD+ in NADH +H out)

*** 7.
1,3-bisphosphoglycerate
(ADP +H in and ATP out)
-phosphoglycerate kinase

8. 3-phosphoglycerate
9. 2-phosphoglycerate
   (water out)

**10. 
phosphoenolpyruvate
(ADP + H in ATP out)
-pyruvate kinase
(irreversible step)

Pyruvate

glucose + 2ATP + 2 NAD+ +4ADP + 2 Pi= 2 pyruvate+2 ADP +2NADH +2H + 4ATP + 2H20

net gain=2 ATP

Question 20

glycolysis net gain

Answer 20

glucose + 2ATP + 2 NAD+ +4ADP + 2 Pi= 2 pyruvate+2 ADP +2NADH +2H + 4ATP + 2H20

net gain=2 ATP

Question 21

which steps of glycolysis are (irreversible step)

Answer 21

1. d-glucose
   -hexokinase
   (ATP in ADP out)
   glucose 6- phosphate

(g (H)(+ATP)= g6p + ADP

3. fructose 6- phosphate
   -phosphofructokinase (PFK1)
   (ATP in ADP out)
   fructose 1,6-bisphosphate

F6P (PFK1)+ATP = F16B + ADP

10. phosphoenolpyruvate
    (ADP + H in ATP out)
    -pyruvate kinase
    Pyruvate

PPP (PK) +ADP=pyruvate +ATP

Question 22

what is commitment step of glycolysis

Answer 22

3. fructose 6- phosphate
   -phosphofructokinase (PFK1)
   (ATP in ADP out)
   fructose 1,6-bisphosphate

F6P (PFK1) +ATP = F16B +ADP

Question 23

why do you get two pyruvate from one glucose

Answer 23

step 4.
fructose 1,6-biphosphate
-adolase

can create both 5 and 6
dihydroxyacetone phosphate and glyceraldehyde 3- phosphate

Question 24

galactose can enter glycolysis by converting to

Answer 24

glucose-6 phosphate

step2 of glycolysis

Question 25

fructose can enter glycolysis by converting to

Answer 25

dihydroxyacetone-phosphate

step 5 of glycolysis

Question 26

pyruvate can go to three things

Answer 26

fermentation to ethanol in yeast
(hypoxic or anaerobic conditions)
2 pyruvate= 2 ethanol + 2 CO2

aerobic conditions
loses 2CO2
become 2 Acetyl- CoA
goes through TCA cyle
=4CO2 + 4H20

fermentation to lactate
(hypoxic or anaerobic conditions- in muscle, some red blood cells ect.)
2 pyruvate= 2 lactate

Question 27

glycolysis produces

Answer 27

2 pyruvate+2NADH + 2ATP

Question 28

the NADH produced by glycolysis goes to either

Answer 28

reducing agent in biochemical reaction

helps TCA cycle

Question 29

pyruvate is converted to lactate by

Answer 29

LDH

lactate dehydrogenase

Question 30

pyruvate is broken down into Acetyl CoA by

Answer 30

pyruvate dehydrogenase (PDH)

irreversible step

occurs in mitochondria

pyruvate + NAD+ +HS CoA
-pyruvate dehydrogenase
= Acetyl CoA + NADH + CO2

Question 31

Acetyl CoA can go

Answer 31

into TCA cycle

or

into lipid synthesis

Question 32

___ is coupled to reduction of NAD+ to NADH

Answer 32

oxidative decarboxylation

Question 33

conversion of pyruvate to acetyl CoA is regulated by

Answer 33

glucagon and insulin

Question 34

what are the five cofactors needed to convert Pyruvate to Acetyl CoA

Answer 34

TPP, lipoamide, FAD+, NAD+ and CoA

these help pyruvate dehydrogenase
pyruvate to acetyl Coa

Question 35

TPP

Answer 35

thiamine pyrophosphate

one of the cofactors needed to make acetyl CoA from Pyruvate

Question 36

PDH

Answer 36

pyruvate dehydrogenase

enzyme used to change pyruvate to acetyl CoA

Question 37

explain PDH

Answer 37

pyruvate dehydrogenase

TPP gives acetate to lipoamide, FAD is reduced and lipoamide gives it to the SH of CoA.
FAD is then oxidized back in a reaction of NAD+ to NADH

Question 38

arsenite poisoning

Answer 38

happens by contaminated drinking water

arsenite inhibits the pyruvate dehydrogenase complex by inactivating one of the cofactors (lipoamide)

symptoms:
diarrhea, vomiting, organs of body are affected (lungs, skin , kidneys and liver), thickening of skin, metallic taste in mouth

Question 39

pyruvate dehydrogenase deficiency diseases

Answer 39

autosomal and X lined mutations

autoimmune disease- circulating antibodies to PDH

thiamine/vit B1 deficiency: Beriberi

lipoamide deficiency, arsenic and heavy metal poisoning

Question 40

what is beriberi

Answer 40

thiamine deficiency which leads to inhibition of pyruvate dehydrogenase- (prevents pyruvate to Acetyl CoA)

caused by: poor diet, raw fish

symptoms: gait problem, ataxia, anorexia and stress
treatment: thiamine supplementation and good diet

Question 41

TCA cycle

Answer 41

ACIasSFMO

1.
acetyl-CoA
(H20 in CoA-SH out)
-citrate synthase

2 and 3 Citrate
-aconitase (two steps)
(H20 out then H20 in)

4: Isocitrate
- isocitrate dehydrogenase
(CO2 out and NADH out)

5. a-ketoglutarate
   -a-ketoglutarate dehydrogenase complex
   (CoA-SH in CO2 and NADH out)
6. succinyl CoA
   -succinyl CoA synthetase
   (GDP + ADP + P = GTP+ ATP + CoA-SH)
7. succinate
   (FADH2 out)
   -succinate dehydrogenase
8. Fumarate
   -fumarase
   (H20 in)
9. malate
   - malate dehydrogenase
   (NADH out)
10. oxaloacetate

Question 42

citrate to isocitrate

Answer 42

step 2 and 3 of TCA

dehydration and rehydration
-aconitase

Question 43

isocitrate to a-ketoglutarate

Answer 43

step 4 of TCA cyle

oxidative decarboxylation
produces CO2 and NADH

-isocitrate dehydrogenase

Question 44

a-ketoglutarate to succinyl Co A

Answer 44

step 5 of TCA cycle
ACIasSFMO

oxidative decarboxylation

(CoA-SH in CO2 and NADH out)
–a-ketoglutarate dehydrogenase complex

Question 45

succinyl Co A to succinate

Answer 45

step 6 of TCA cycle
ACIasSFMO

substrate level phosphorylation
-succinyl CoA synthetase
(GDP + ADP + P = GTP+ ATP + CoA-SH)

Question 46

succinate to fumarate

Answer 46

step 7 of TCA cycle
ACIasSFMO

-succinate dehydrogenase
(FADH2 out)

Question 47

fumarate to malate

Answer 47

step 8 of TCA cycle
ACIasSFMO

-fumarase
(H20 in)

Question 48

malate to oxaloacetate

Answer 48

step 9 of TCA cycle
ACIasSFMO

• malate dehydrogenase
  (NADH out)

Question 49

oxaloacetate to citrate

Answer 49

step 10/1 of TCA cycle
ACIasSFMO

-citrate synthase
(acetyl CoA + H20 in CoA-SH out)

Question 50

simplified glycolysis 10 steps

Answer 50

1. Glucose (H) (ATP in)
2. G6P (PI)
3. F6P (PRK1) (ATP in)
4. F16B (A) = DP or G3P
5. DP (TPI) =G3P
6. G3P(G3PD) (Pi NAD+ in NADH out)
7. 13B (PGK)(ADP +H in ATP out)
8. 3P
9. 2P (water out)
10. PPP (ADP +H in ATP out) (PK)
11. Pyruvate

Question 51

1 st step glycolysis

Answer 51

1. Glucose (H) (ATP in)
2. G6P

glucose

-hexokinase
ATP in ADP + H out

glucose 6- phosphate

Question 52

3rd step glycolysis

Answer 52

3. F6P (PRK1) (ATP in)
4. F16B

fructose 6 phosphate
-phosphofructokinase
(ATP in ADP H out)

fructose 1,6 bisphosphate

Question 53

steps of glycolysis that produce ATP

Answer 53

7. 13B (PGK) (ADP +H in ATP out)
8. 3P

1,3-bisphosphoglycerate
(ADP +H in and ATP out)
=
3-phosphoglycerate

10. PPP (ADP +H in ATP out)(PK)
11. Pyruvate

phosphoenolypyruvate
-pyruvate kinase
ADP + H in ATP out
pyruvate

Question 54

steps of glycolysis that produce NADH

Answer 54

6. G3P(G3PD) (Pi NAD+ in NADH out)

7. 13B

Question 55

glucose can go to three things

Answer 55

glycolysis
hexose monophosphate shunt
glycogen synthesis

Question 56

tumors like to do ___ even if __ is present

Answer 56

glycolysis

O2

Question 57

hexokinase

Answer 57

enzyme in glycolysis step 1
glucose to g6p
uses ATP

Question 58

phosphofructokinase

Answer 58

(PFK1) enzyme in glycolysis

F6P to F16B
uses ATP

Question 59

pyruvate kinase

Answer 59

enzyme in glycolysis

PEP to pyruvate
gain ATP

Question 60

enzyme from pyruvate to Acetyl CoA

Answer 60

pyruvate dehydrogenase

Question 61

inhibitor of pyruvate dehydrogenase

Answer 61

arsenic

prevents pyruvate to acetyl CoA

Question 62

important steps of TCA that produce NADH

Answer 62

ACIasSFMO

I(ID) =+NADH +aK
aK(aKDC) =+NADH+ sCoA
M(MD) = +NADH + O

isocitrate
-isocitrate dehydrogenase
aKetoglutarate

aKetoglutarate
-aKetoglutarate dehydrogenase complex
succcinylCoA

malate
malate dehydrogenase
oxaloacetate

Question 63

step of TCA when FADH2 is released

Answer 63

ACIasSFMO
S(SD)=F

succinate
-succinate dehydrogenase
(FADH2 out)
fumarate

Question 64

step of TCA that produces ATP and GTP

Answer 64

ACIasSFMO

succinyl-CoA
-succinylCoA synthetase
succinate

Question 65

one glucose gets ___ ATP

Answer 65

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