Exam Revision

Question 1

What are the 3 secondary structures?

Answer 1

Alpha helix

Beta sheet

Beta bend

Question 2

What is the charge of acidic side chains?

Answer 2

Negative

Question 3

What is the backbone of DNA called?

Answer 3

Deoxyribose-phosphate backbone

Question 4

What joins amino acids together?

Answer 4

Peptide bonds

Question 5

What are the different protein structures?

Answer 5

Primary

Secondary

Tertiary

Quarternary

Question 6

What is the process of forming glycoproteins called?

Answer 6

Glycosylation

Question 7

What is collagen composed of?

Answer 7

(glycine - x - proline)_n

Where x can be:

Alanine

Hydroxyproline

Lysine

Question 8

What percentage of body weight does water make up?

Answer 8

60%

Question 9

What is the cytoskeleton made of?

Answer 9

Microfilaments

Intermediate filament

Microtubules

Question 10

Whare are microfilaments made of?

Answer 10

Actin

Question 11

What are intermediate filaments made of?

Answer 11

Fibrous proteins

Question 12

What are microtubules made of?

Answer 12

Tubulin

Question 13

What is the difference between trans and cis?

Answer 13

Cis is symettrical

Question 14

What is the K_W of water?

Answer 14

1 x 10¹⁴ mol/L

Question 15

What are examples of important buffers?

Answer 15

Bicarbonate

Phosphate

Question 16

How much Na and K does each molecule of ATP allow through the pump?

Answer 16

3 Na

2K

Question 17

What is the osmolarity of the plasma?

Answer 17

385 mOsmols/L

Question 18

What is the difference between the absolute refractory period and the relative refractory period?

Answer 18

Absolute is when all gates are opened and excitability is low

Relative is when gates are closed and excitability is increasing

Question 19

What are examples of alpha, beta and C waves?

Answer 19

Alpha - proprioception, touch, fast pain

Beta - preganglionic autonomic fibres

C - heat, slow pain

Question 20

What is acetylcholine removed from the NMJ by?

Answer 20

Acetylcholinesterase

Question 21

What is the cofactor?

Answer 21

Non protein component needed for activity

Question 22

What is the co enzyme?

Answer 22

Complex organic molecule usually produced from a vitamin

Question 23

What is FAD derived from?

Answer 23

Riboflavin

Question 24

What is NAD derived from?

Answer 24

Niacin

Question 25

What is the prosthetic group?

Answer 25

Cofactor covalently bound to enzyme

Question 26

What is the apoenzyme?

Answer 26

Protein component of enzyme that contains a cofactor

Question 27

What is the difference between lyases and ligases?

Answer 27

Lygases form or add to double bonds

Liases form C-C, C-S, C-O or C-N bonds

Question 28

Where is hexokinase and glucokinase found?

Answer 28

Glucokinase - liver

Hexokinase - everywhere else

Question 29

What is K_M and what does it indicate?

Answer 29

Concentration of the substrate at half the max v

High K_M indicates a low affinity

Question 30

What do the X and Y intersections on a Lineweaver-Burk plot represent?

Answer 30

Y - 1/v_max

X - 1/K_M

Question 31

What can you say about the first and second steps on an enzyme controlled reaction?

Answer 31

First is reversible

Second is rate limiting

Question 32

What is an example of an enzyme that uses a sequential mechanism?

Answer 32

Lactate dehydrogenase (pyruvate to lactate)

Question 33

What is an example of an enzyme that uses a random sequential mechanism?

Answer 33

Creatine kinase (creatine to phosphokinase)

Question 34

What is an example of an enzyme that uses no ternary complex formation?

Answer 34

Asparate aminotransferases

Question 35

What is used to show enzyme mechanisms?

Answer 35

Cleland notation

Question 36

What is connective tissue composed of?

Answer 36

Ground substance

Collagen

Elastin

Question 37

What is the ground substance composed of?

Answer 37

Glycoproteins and carbs

Question 38

Where are desmosome junctions found?

Answer 38

Cardiac muscle

Bladder

Question 39

Where are tight junctions found?

Answer 39

Intestine and stomach

Question 40

Where are gap junctions found?

Answer 40

Cardial and neurons

Question 41

What is the basement membrane composed of?

Answer 41

Basal lamina

Reticular lamina

Question 42

What is the basal lamina?

Answer 42

Secreted by epithelial cells which they sit on

Question 43

What is the reticular lamina?

Answer 43

Connects basal lamina to underlying connective tissue

Question 44

What are the 2 kinds of glands?

Answer 44

Exocrine

Endocrine

Question 45

What do exocrine glands do?

Answer 45

Secrete into tubes

Question 46

What do endocrine glands do?

Answer 46

Secrete into the blood

Question 47

What are the 2 kinds of ducts from exocrine glands?

Answer 47

Simple (unbranched)

Compound (branched)

Question 48

What are the 2 kinds of excretory components of exocrine glands?

Answer 48

Tubular

Accinar

Question 49

What are the 3 kinds of secretion from a gland?

Answer 49

Merocrine

Apocrine

Halocrine

Question 50

What is merocrine?

Answer 50

Exocytosis

Question 51

What is apocrine?

Answer 51

Discharge vesicles

Example is sweat glands

Question 52

What is halocrine?

Answer 52

Discharge whole cell

Example is sebaceous gland

Question 53

What cells produce the secretions within glands?

Answer 53

Myoepithelial cells once they contract

Question 54

What is the thyroid gland special?

Answer 54

Contains follicles of hormones (thyroxine) which is reabsorbed before being released into the blood

Question 55

What is a single celled gland?

Answer 55

Goblet gland

Question 56

What are examples of exocrine organs?

Answer 56

Liver

Major silival gland

Question 57

What are examples of endocrine organs?

Answer 57

Thyroid

Adrenal

Question 58

What is the pancreas an example of?

Answer 58

An endocrine and exocrine organ

Question 59

What is an example of loose connective tissue?

Answer 59

Adipose

Question 60

What are the 3 components of connective tissue?

Answer 60

Fibres

Tissue fluid

Ground substance

Question 61

What are examples of different collagens and where are they found?

Answer 61

Type I in tendons

Type III in reticular lamina

Type IV in basil lamina

Question 62

What is collagen and elastin secreted by?

Answer 62

Connective tissue

Question 63

What does loose connective tissue do?

Answer 63

Attach epithelial to underlying tissue

Question 64

What are 4 cells permanent cells in loose connective tissue?

Answer 64

FIbroblasts

Macrophages

Adipocytes

Mast cells

Question 65

What is an example of a dense regular connective tissue?

Answer 65

Tendons

Question 66

What is an example of a dense irregular connective tissue?

Answer 66

Subacceous gland

Question 67

What are some proteins usually coupled to G proteins?

Answer 67

Adrenylyl cyclase

Phospholipase C

Question 68

Where is Ca stored?

Answer 68

Endoplasmic reticulum

Question 69

What is EC50?

Answer 69

Concentration of a drug to produce half the maximum effect

Question 70

What are fibrous joints made of?

Answer 70

Dense fibrous connective tissue

Question 71

What are the 4 basic cells in the epidermis?

Answer 71

Dendritic cells

Karatinocytes

Melanocytes

Merket cells

Question 72

What are merkel cells?

Answer 72

Touch receptors

Question 73

What are the 5 layers of the epidermis?

Answer 73

Stratum basule

Stratum spinosum

Statum glanulosum

Stratum lucadum

Stratum corneum

Question 74

What happens in the stratum basule?

Answer 74

Continuous proliferation

Question 75

What happens in the stratum spinosum?

Answer 75

Cells shrink

Desmosome junctions create ‘spikes’

Question 76

What is in the statum granulosum?

Answer 76

Granules of keratohyaline

Question 77

What happens in the stratum lucadum?

Answer 77

Conversion of keratohyaline to keratine

Question 78

What is unique about the statum corneum?

Answer 78

No organelles

Question 79

Where are melanocytes and merkel cells?

Answer 79

Stratum basule

Question 80

What binds cells of the stratum basule to the basement membrane?

Answer 80

Hemidesmosomes

Question 81

What gives strength to the stratum lucidum?

Answer 81

Disulphide bridges

Question 82

What are the 2 layers of the dermis?

Answer 82

Papillary layer

Reticular layer

Question 83

What is the papillary layer?

Answer 83

Loose connective tissue that protects against pathogens

Question 84

What is the reticular layer?

Answer 84

Dense irregular connective tissue that attaches the skin to underlying tissues

Question 85

What is found in the papilary layer?

Answer 85

Macrophages

Blood vessels

Nerve endings

Question 86

What is unique about the subbaceous gland?

Answer 86

Only gland to secrete directly into the hair follicle

Question 87

What are the 3 important hexoses?

Answer 87

Glucose

Fructose

Galactose

Question 88

What are disaccharides linked by?

Answer 88

Glycosidic bonds

Question 89

What is the only carbon that can be oxidised?

Answer 89

Anomeric carbon

Question 90

What are 3 important dissacharides?

Answer 90

Maltose

Lactose

Succrose

Question 91

What is maltose formed from?

Answer 91

Glucose and glucose

Question 92

What is lactose formed from?

Answer 92

Glucose and galactose

Question 93

What is succrose formed from?

Answer 93

Glucose and fructose

Question 94

What are the 2 glucose monomers in starch?

Answer 94

Amylase (alpha 1-4)

Amylopectin (alpha 1-4 and alpha 1-6)

Question 95

What are glycoaminoglycans?

Answer 95

Unbranched polymers made from repeating units of hexuronic acid and an amino sugar

Question 96

What is a property of glycaaminoglycans and where are they found?

Answer 96

Sticky and slimy, found in synovial fluid

Question 97

What is a proteoglycan?

Answer 97

Formed from GAGs and proteins, more carbs than protein

Question 98

What are mucopolysaccharides?

Answer 98

Genetic disorders caused by absence of the enzyme that breaks down glucoaminoglycans (GAGs)

Question 99

Where are carbohydrates digested?

Answer 99

Mouth

Jejanum

Duodenum

Question 100

What enzyme acts on carbohydrates in the mouth?

Answer 100

Silivary amylase which breaks down alpha 1-4

Question 101

What is the breakdown of carbohydrates like in the duodenum?

Answer 101

Similar to the mouth

Question 102

What are some enzymes that break down carbohydrates in the jejunum?

Answer 102

Isomaltose (hydrolyses alpha 1-6)

Glucamylase (removes glucose from non reducing end)

Sucrase (hydrolysis succrose)

Lactase (hydrolysis lactase)

Question 103

How is glucose absorbed?

Answer 103

Driven by Na pump:

1) Taken into gut epithelium by glucose transporter (2Na and 1 glucose in)
2) Passes down concentration gradient into the blood

Question 104

What can you say about cellulose and hemicellulose?

Answer 104

Cannot be digested so are broken down by gut bacteria, producing methane and hydrogen (smelly farts)

Question 105

What is glucose immediately changed into in the liver and why?

Answer 105

Glucose-6-phosphate so it doesnt leave the cell

Question 106

What is the reaction of glucose to glucose-6-phosphate controlled by?

Answer 106

Glucokinase in the liver

Hexokinase everywhere else

Question 107

What controls the reaction of glucose-6-phosphate to glucose?

Answer 107

Glucose-6-phosphatase

Question 108

What is the process of the synthesis of glycogen?

Answer 108

1) Glycogenin covalently binds glucose from uracil diphosphate (UDP) glucose to form a chain of about 8 monomers
2) Glycogen synthase extends the chain
3) Glycogen branching enzymes break chain and reattach alpha 1-6
4) Glycogen synthase takes over again

Question 109

What is the process of the degradation of glycogen?

Answer 109

1) Glucose monomers removed 1 at a time from non reducing end by glycogen phosphorylase to produce G-1-P
2) Branch removed by debranching enzyme
a) Transferase removes 3 glucose monomers and attaches them to nearest non-reducing end by alpha 1-4 bond
b) Glucosidase removes final glucose monomer by breaking alpha 1-6 and releasing a free glucose
3) Process repeats

Question 110

What are the 2 phases of glycolysis?

Answer 110

Preparative phase (2 molecules of G-3-P produced from G-6-P, using 2 ATP)

Payoff phase (1 molecule of pyruvate made per G-3-P, making 4 ATP)

Question 111

What are the 3 steps of glycolysis that are irreversible?

Answer 111

Step 1 (glucose to glucose-6-phosphate)

Step 3 (F-6-P to F-1,6,bisP)

Step 10 (transfer of P from PEP to ADP, producing pyruvate)

Question 112

What is the first commited step of glycolysis?

Answer 112

Step 3 (F-6-P to F-1, 6bisP)

Question 113

What do all fates of glycolysis regenerate?

Answer 113

NAD

Question 114

What enzyme controls the reation of pyruvate to lactate?

Answer 114

Lactate dehydrogenase

Question 115

What happens to lactate at the end of the cori cycle?

Answer 115

Transfered to liver and convered to pyruvate for gluconeogenesis

Question 116

Where does glycolysis happen?

Answer 116

Cytoplasm

Question 117

Where does the reaction pyruvate to acetyl coA happen?

Answer 117

Mitochondria

Question 118

Where is the enzyme that controls pyruvate to acetyl coA?

Answer 118

Pyruvate dehydrogenase

Question 119

What are tissues that completely rely on glycolysis?

Answer 119

Brain

Nervous tissue

RBCs

Testis

Embryonic tissue

Question 120

What is the reaction gluconeogenesis uses to bypass step 10 of glycolysis?

Answer 120

1) Pyruvate to oxaloacetate (controled by pyruvate carboxylase)
2) Oxaloacetate to PEP (controlled by PEP carboxylase)

Question 121

Where is G-6-P converted into glucose?

Answer 121

Endoplasmic reticulum (G-6-P shuttled in and glucose and P_i shuttled out)

Question 122

What enzyme controls F-1,6-bisP to F-6-P?

Answer 122

Fructose-1,6-biphosphotase

Question 123

Where can fructose enter glycolysis?

Answer 123

Liver (dihydroxyacetone phosphate (DHAP) or glyceraldehyde - phosphate (GAP))

Adipose tissue (F-6-P)

Question 124

Where can galactose enter glycolysis?

Answer 124

G-6-P

Question 125

What does the pentose phosphate pathway produce?

Answer 125

Pentose

NADPH

Question 126

What are the 2 stages of the pentose phosphate pathway?

Answer 126

1) Oxidation (irreversible)
2) Non oxidation (reversible)

Question 127

What happens in the oxidation stage of the pentose phosphate pathway?

Answer 127

1) Generates NADPH
2) Converts G-6-P to pentose phosphate

Question 128

What happens in the non oxidative stage of the pentose phospahte pathway?

Answer 128

Produces lots of 3, 4, 5, 6, 7 carbon sugars

Question 129

What does breaking ethanol down require?

Answer 129

NAD

Question 130

What do low levels of NAD lead to?

Answer 130

Increased blood lactate

Decrease blood glucose

Question 131

What is vitamin C?

Answer 131

Monosaccharide

Question 132

Where does the CIC happen?

Answer 132

Mitochondrial matrix

Question 133

What does the CAC do?

Answer 133

Removes electrons from intermediates and passes them onto NAD and FAD

Each time 2C enters (acetly coA) and 2C leaves

Question 134

What is pyruvate dehydrogenase inhibited by?

Answer 134

Acetyl coA

ATP

NADH

Question 135

What is pyruvate dehydrogenase activated by?

Answer 135

Pyruvate

ADP

Question 136

What are the enzymes that control the 2 irreversible steps in the CAC?

Answer 136

Isocitrate dehydrogenase

a-ketoglutamate dehydrogenase

Question 137

Which of NADH and FADH₂ cannot cross the mitochondrial membrane?

Answer 137

NADH cannot

Question 138

How does NADH in the cytoplasm pass its electrons into the electron transport chain?

Answer 138

Glycerol phosphate shuttle

Question 139

What is the process of the glycerol phosphate shuttle?

Answer 139

1) NADH passes electrons onto dihydroxyacetone phosphate which becomes glycerol-3-phosphate
2) Crosses outer membrane and passes electrons onto FAD which becomes FADH₂
3) Enters electron transport chain

Question 140

How many proteins are in the electron transport chain?

Answer 140

4

NADH-Q Oxidoreductase

Succinate-Q Reductase

Q-Cytochrome C Oxidoreductase

Cytochrome C Oxidases

Question 141

What does the first protein of the ETC do?

Answer 141

Oxidise NADH and pass electons onto ubiquinone which becomes ubiquinol

Pumps H⁺ into intermembrane space

Uses Fe-S centres

Question 142

What does the second protein of the ETC do?

Answer 142

Oxidises FADH₂ and passes its electrons onto ubiquinone which becomes ubiquinol

Fe-S centres

Haem group captures stray electrons

Question 143

What does the third protein of the ETC do?

Answer 143

Transfers electrons from ubiquinol to cytochrome C

Pumps protons into intermembrane space

Question 144

How much cytochrome C does 1 ubiquinol make?

Answer 144

2 molecules

Question 145

What does the fourth protein of the ETC do?

Answer 145

Passes electrons from cytochrome C to O₂

Pumps protons into intermembrane space

Fe-Cu centres

Question 146

What proteins of the ETC pump protons?

Answer 146

1, 3 and 4

Question 147

What are the 2 parts of ATPsynthase?

Answer 147

F₀ (membrane bound protein)

F₁ (protrudes into mitochondrial matrix)

Question 148

How many subunits does F₀ have?

Answer 148

10

Question 149

What is the process of ATPsynthase?

Answer 149

1) ADP and P_i enter beta subunit of F₁
2) Rotation of F₀ and gamma shaft causes conformation change in beta subunit
3) Catalysis ADP and P_i to ATP

Question 150

When does ATPsynthase rotate?

Answer 150

When 3 H⁺ enters

Question 151

How much H⁺ is needed to generate 1 molecule of ATP?

Answer 151

3

Question 152

How much ATP does NADH and FADH₂ generate

Answer 152

NADH generates 2.5 per molecule

FADH₂ generates 1.5 per molecule

Question 153

What does uncoupling of the ETC cause?

Answer 153

Generation of heat instead of energy, as seen in brown fat

Question 154

What are the 5 classes of lipids?

Answer 154

Fatty acids

Triacyglycerols

Phospholipids

Glycolipids

Steroids

Question 155

What is an example of lipid naming?

Answer 155

18:3 (9, 12, 15)

18 carbon long, 3 double bonds after carbon 9, 12 and 15

Question 156

Why can essential fatty acids not be synthesised?

Answer 156

We cannot intoduce double carbon bonds after carbon 9

Question 157

What is omega 3 derived from?

Answer 157

Linolenic acid

Question 158

What is digestion of lipids by pancreatic enzymes (lipases) promoted by?

Answer 158

Emulsufication by bile salts and peristalsis

Question 159

What are bile salts a derivitive of?

Answer 159

Cholesterol

Question 160

What is triacyglycerol degraded to in the small intestine?

Answer 160

2 fatty acids and a monoacylglycerol

Question 161

What is cholesterol digested into?

Answer 161

Cholesterol and a fatty acid

Question 162

What are phospholipids digested into?

Answer 162

Lysophospholid and a fatty acid

Question 163

What is the process of digesting lipids?

Answer 163

1) Fats become emulsified in duodenum due to bile
2) roken down into fatty acids and glycerol in small intestine

Question 164

What is the uptake of digested lipids in the small intestine?

Answer 164

1) Forms micelles with bile salt, which releases the lipids near the membrane which diffuse accross

Short and medium chain fatty acids do not need micelles

Question 165

What happens to lipids that have been absorbed in the small intestine?

Answer 165

1) Resynthesised by intestinal epithelium cells for export
2) Packaged with apoB-48 into chylomicrons
3) Released by exocytosis into the lymph and then the blood

Question 166

What happens to chylomicrons once they reach tissue?

Answer 166

1) Hydrolysid to fatty acid and glycerol by lipoprotein lipase
2) Used for energy or reesterfication to triacyglycerol for storage

Question 167

What happens to chylomicron renmants?

Answer 167

Go to the liver where glycerol is used to produce glycerol-3-phosphate

Question 168

What causes fatty acid to be released from adipose tissue?

Answer 168

Hormone sensitive lipase being activated by noradrenaline

Question 169

What is hormone sensitive lipase deactivated by?

Answer 169

High plasma glucose

Insulin

Question 170

What are examples of lipoproteins that carry lipids in the blood?

Answer 170

Chylomicron

VLDL

LDL

HDL

Question 171

What is VLDL do?

Answer 171

Transfers tracyglycerol from liver to tissue

Question 172

What does beta oxidation produce?

Answer 172

Acetyl coA

FADH₂

NADH

Question 173

Where does beta oxidation occur?

Answer 173

Mitochondrial matrix

Question 174

What are the 3 stages of beta oxidation?

Answer 174

1) Activation of fatty acid in cytosol
2) Transport into mitochondria
3) Degradation to acetyl coA

Question 175

What do fatty acids form when they are activated and what enzyme controls this?

Answer 175

Fatty acid and acetly co A becomes fatty acyl coA (enzyme is acyl coA synthase)

Question 176

What does fatty acid use to enter the mitochonrial matrix?

Answer 176

Carnitine shuttle

Question 177

What is the process of the carnitine shuttle?

Answer 177

1) Carnitine reacts with fatty acyl coA to produce acyl carnitine which crosses membrane
2) Acyl carnitine reacts with coA to produce fatty acyl coA
3) Carnitine returns to cytosol

Question 178

What are the enzymes used in the carnitine shuttle?

Answer 178

Carnitine palmityl transferase I and II

Question 179

What inhibits carnitine palmityl transferase?

Answer 179

Malonyl

Question 180

What does not need to use the carnitine shuttle?

Answer 180

Short and medium chain fatty acids

Question 181

What does each stage of beta oxidation produce?

Answer 181

1 acetyl coA

Carbon species 2 shorter

1 NADH

1 FADH₂

Question 182

What is the net yield of ATP for beta oxidation?

Answer 182

129 molecules

Question 183

What happens when you are starving?

Answer 183

1) Liver flooded with acetyl coA
2) Inhibits pyruvate dehydrogenase and activates pyruvate carboxylase (pyruvate to oxaloacetate)
3) Produces glucose through gluconeogenesis

Question 184

What is excess acetyl coA converted into?

Answer 184

Ketones

Question 185

Where are ketones made?

Answer 185

Mitochondrial matrix of liver

Question 186

What cannot use ketones for energy?

Answer 186

Liver

Question 187

What cannot use fatty acids for energy?

Answer 187

Brain

Question 188

Where does fatty acid synthesis occur?

Answer 188

Cytosol

Question 189

How does acetyl coA get to the cytosol for fatty acid synthesis?

Answer 189

Citrate shuttle

Question 190

What is the process of the citrate shuttle?

Answer 190

1) Acetyl coA reacts with oxaloacetate to become citrate which crosses the membrane
2) Citrate broken down to acetyl coA and oxaloacetate in cytosol
3) Oxaloacetate uses NADH to become malate
4) Malate uses NAD to become pyruvate to cross into matrix
5) Pyruvate converted to oxaloacetate

Question 191

What is produed in the citrate shuttle?

Answer 191

NADPH which is used later for fatty acid synthesis

Question 192

What is the product of fatty acid synthesis?

Answer 192

Palmitic acid

Question 193

What is the rate determining step in fatty acid synthesis?

Answer 193

Acetyl coA and ATP to melonyl coA (catalysed by acetyl coA carboxylase)

Question 194

What is acetyl coA carboxylase activated and inhibited by?

Answer 194

Activated by insulin

Inhibited by palmitoyl coA, glucagon and noradrenaline

Question 195

How much NADPH does the formation of palmitic acid uses and where does it come from?

Answer 195

14 from citrate shuttle and pentose phosphate pathway

Question 196

What are some specialised lipid classes?

Answer 196

Steroid hormones

Cholesterol

Eicosanoids

Question 197

What is cholesterol used to make?

Answer 197

Steroid hormones and membranes

Question 198

What are eicosanoids derived from?

Answer 198

Omega 3 and omega 6

Question 199

What does nitrogen to other molecule flow through?

Answer 199

Glutamate

Question 200

What is transanimation?

Answer 200

Transfering amino groups through different molecules

Question 201

What do all amino transfers rely on?

Answer 201

Pyridoxal phosphate cofactor (transfers amino group, derived from vitamin B6)

Question 202

What is the proces of dietry proteins being broken down?

Answer 202

1) Pepsin cuts proteins into peptides in the stomach
2) Trypsin and chymotrypin cut proteins and large peptides into smaller peptides in the small intestine
3) Aminopeptidases and carboxypipdases A and B degrade peptides into amino acids in small intestine

Question 203

What tages cellular proteins that are to be degraded?

Answer 203

Ubiquione

Question 204

What are the fates of amino acids?

Answer 204

Left in tack for biosynthesis

Broken down into carbon skeleton and amino group

Question 205

What is the fate of an amino group from a broken down protein?

Answer 205

Nitrogen disposed by urea cycle

Question 206

What are the possible fates of carbon skeletons?

Answer 206

Glucose or glycogen synthesis

Cellular respiration

Fatty acid synthesis

Question 207

What is amonia transported through the bloodstream as?

Answer 207

Glutamine

Question 208

What is pyruvate converted into once it donates it accepts an amino group?

Answer 208

Alanine

Question 209

What is the pyruvate - alanine cycle?

Answer 209

1) Protein broken down in exercise if required
2) Transported to liver as alanine
3) Carbon skeleton converted to pyruvate
4) Nitrogen excreted as ammonia in urine
5) Pyruvate to oxaloacetate to glucose (gluconeogensis)

Question 210

What are the 2 nitrogen acquiring reactions of glutamate being broken down in the liver?

Answer 210

1) Synthesis of carbamoyl phosphate
2) Entry of asparate into urea cycle

Question 211

How many amino acids are essential?

Answer 211

8

Question 212

What are the 2 kinds of carbon skeletons?

Answer 212

Glucogenic (feeds into gluconeogenesis)

Ketogenic (feeds into CAC)

Question 213

Where does the urea cycle happen?

Answer 213

Split between mitochondrial matrix and cytosol

Question 214

What goes in and out of the urea cycle?

Answer 214

Ammonia goes in and urea comes out

Question 215

How many enzymes are involved in the urea cycle?

Answer 215

6 enzymes

Question 216

What is the most common urea cycle defect?

Answer 216

UTC difficiency (X linked)

Question 217

What is PKU?

Answer 217

Absence/difficiency of phenylalanine hydroxylase, causing a build up of phenylalanine levels which is toxic

Question 218

What receptors does the autonomic and somatic nervous systems use?

Answer 218

Somatic uses iatotropic

Autonomic uses metatropic (G proteins)

Question 219

What kinds of receptors does acetylcholine act on?

Answer 219

Cholinergenic:

Nicotinic (2)

Muscarinic (3)

Question 220

What receptors does noradrenaline act on?

Answer 220

Adrenic:

Alpha (2)

Beta (3)

Question 221

How does the adrenal medulla work?

Answer 221

Sympathetic fibres innervate it and cause it to release adrenaline and noradrenaline into the blood

Question 222

What are examples of post ganglionic fibres not following the rules?

Answer 222

Sympathetic cholinergic fibres innervate sweat glands

Some release neurotransmitters like peptides or NO

Question 223

What is an example of antagonistic innervation of the autonomic nervous system?

Answer 223

Eye

Question 224

What is an example of single innervation of the autonomic nervous system?

Answer 224

Energy stores

Question 225

What is an example of dual innervation with non-antagonistic actions of the autonomic nervous system?

Answer 225

Salivary glands

Question 226

What is an example of dual innervation with complimentary effects of the autonomic nervous system?

Answer 226

Reproductuve tract

Question 227

What controls the autonomic nervous system?

Answer 227

Hypothalamus

Reflexes