Metal metabolism

Question 1

loop of geomicrobiology

Answer 1

• geosphere minerals undergo bacterial leaching of metal ions
  = biosphere proteins
• biosphere proteins undergo bacterial deposition of metal ions
  = geosphere minerals

Question 2

what metal is debatably essential

Answer 2

chromium

• difficult to demonstrate deficiencies because of ethics.
• haven’t found a reason that it is essential
• however it is present, suggesting that it might be

Question 3

essential metals of focus

Answer 3

Mn
Fe
Cu
Zn

Question 4

how much Zn is present in a 70kg human body

Answer 4

2-3g

Question 5

how much Cu is present in a 70kg human body

Answer 5

100mg

Question 6

how much Fe is present in a 70kg human body

Answer 6

3-5g

Question 7

how much Mn is present in a 70kg human body

Answer 7

12-20mg

Question 8

functions of metals in proteins

Answer 8

• catalytics; 50% enzymes require metals
• structural; tertiary, quaternary, quinary
• regulatory

Question 9

what is quinary structure of proteins

Answer 9

different types of proteins coming together

Question 10

What are the different ligands of metal in proteins

Answer 10

N: Hist
O: Glu, Asp
S: Cys

Question 11

what does N ligand stand for

Answer 11

Hist

Question 12

What does O ligand stand for

Answer 12

Glu, Asp

Question 13

What does S ligand stand for

Answer 13

Cys

Question 14

method of identifying if protein has metal-binding sites

Answer 14

looking at the spacing of the amino acids

Question 15

example of a kown Zn proteinase

Answer 15

Thermolysin found in bacteria

Question 16

example of a putative Zn proteinase

Answer 16

LTA4 hydrolase found in human)

Question 17

mining sequence database

Answer 17

• structural genomics. search for 3D structure of metalloprotein (protein database PDB)
• determine liganvd signatures
• search for homology in sequence database
• find putative metalloprotein (curator)

Question 18

what is the indirect method whih predicts the sizes of human metalloproteins

Answer 18

mining sequence database

Question 19

what % of entire proteome is non heme Fe

Answer 19

1.1%

Question 20

what % of entire proteome is Cu

Answer 20

0.3%

Question 21

what % of entire proteome is Zn

Answer 21

10%

Question 22

what % of entire protoeme is Mn

Answer 22

?

Question 23

how do ligand interactions differ between metals

Answer 23

as you move down the periodic table, ionic radius increases and coordination numbr increases
= weaker ligand interactions

Question 24

what is the function of Na+ and K+

Answer 24

they are minerals needed for nerve conductions. Need proteins to maintain electrochemical gradietnq

Question 25

sodium requirements

Answer 25

2.3g/day

Question 26

potassium requirements

Answer 26

4.7g/day

Question 27

sodium and potassium inside cells

Answer 27

Na+: 12mM

K+: 140mM

Question 28

sodium and potassium outside cells

Answer 28

Na+: 140mM

K+: 5mM

Question 29

function of Mg2+

Answer 29

• cofactor
• enzyme complexes
  e. g ATP is nearly always a magnesium complex

Question 30

what is ATP nearly always a complex of

Answer 30

Magnesium complex

Question 31

Essentail trace metals

Answer 31

Mn
Fe
Co
Cu
Zn
Mo

Question 32

when is Ni essential

Answer 32

good bacteria in the gut need Ni

Question 33

what is Mo

Answer 33

molybdenum

• only 4 enzymes in humans with Mo
• pterin cofactor binds Mo

Question 34

Use of Co

Answer 34

• only 2 enzymes in humans (methylmalonyl-CoA, methionine synthase)
• Is the centre of vitamin B12 structure
• vitamin B12 = cobalamin

Question 35

Uses of Mn

Answer 35

• Mn deficiency is uncommon
• too much Mn causes Manganism = Parkinson’s
• total number of Mn enzymes is unknown (mitochondiral superoxide, dismutase, arginase, pyruvate decarboxylase)

Question 36

Uses of Ni

Answer 36

only 9 enzymes, but none have been identified in the human body.
Good bacteria found in the gut need Ni

Question 37

Cu uses

Answer 37

• deficiency causes Menkes disease = fatal
• overload causes Wilson’s disease = treatable with chelating agen of Zn supplementation
• dozens of human Cu enzymes (superoxide dismutuase, cytochrome C oxidase)
• mostly found as Cu+ because intracellular environment is highly reducing
• metallochaperones prevent free radicals being formed

Question 38

cuprous

Answer 38

Cu+

Question 39

cupric

Answer 39

Cu2+

Question 40

what prevent formation of free radicals

Answer 40

metallochaperones

Question 41

what controls mammalian intracellular copper homeostasis

Answer 41

• tightly controlled by transporters and metallochaperons

Question 42

uses of Fe

Answer 42

• redox active which gives most of its functions:
• 250 non-heme proteins
• oxgen transport and activation
• many proteins
• overload and deficiency can occur

Question 43

ferrous

Answer 43

Fe2+ = active iron

Question 44

ferric

Answer 44

Fe3+ = storage iron

Question 45

what is the state of active iron

Answer 45

Fe2+, ferrous

Question 46

what is the state of storage iron

Answer 46

Fe3+, ferric

Question 47

how is Fe2+ found

Answer 47

• in Fe/S clusters
• bound to heme
• non-heme Fe; mononuclear and dinuclear

Question 48

examples of heme iron proteins

Answer 48

• hemoglobin
• myoglobin
• cytochomes
• peroxidase
• catalase
• heme-binding proteins (sensors and transporters)

Question 49

when does iron redox recycling occur

Answer 49

aerobic iron metabolism

Question 50

process of iron redox recycling

Answer 50

• iron is outside of enterocyte in intestine as Fe3+
• Dcytb on membrane reduces iron to Fe2+
• Fe2+ transported across membrane via DMT1
• most of iron stored in cell as Ferritin
• remaining exported as Fe2+ via Fpn
• Fe2+ is oxidised again outside cell by Hp
• Fe3+ binds to Tf for transportation in blood

Question 51

Tf

Answer 51

transferrin = transport protein

Question 52

Ft

Answer 52

ferritin = storage protein

Question 53

DMT1

Answer 53

divalent metal transporter 1

Question 54

Dcyt b

Answer 54

duodenal cytochrome b

Question 55

Hp

Answer 55

hephaestin

Question 56

Fpn

Answer 56

ferroportin

Question 57

what is ferritin

Answer 57

• complex proteon with an iron mineral core, where iron is storoed as on oxide
• iron oxidase acitivity
• once iron has been oxidised, it migrates to the core for storage, hence iron core

Question 58

what is transferrin

Answer 58

• uses Fe3+
• binds two Fe3+ from intestine cell and transport to blood where needed
• has two biding sites
• transferrin uptake by cells is by receptor mediated endocytosis

Question 59

transferrin receptor

Answer 59

• two irons bind to receptor
• pit forms an endosome to enter cell
• endosome is acidified to release iron into cell
• protein recyled to surface, both Tf and Tf receptor

Question 60

what happens to iron during cyctochrome P450 reaction cycle

Answer 60

goes to very high oxidation state: Fe5+

Question 61

inborn errors of Cu metabolism

Answer 61

Deficiency: copper deficiency, Menkes disease
Overload: copper toxicity, Wilson’s disease

Question 62

inborn erros of Fe metabolism

Answer 62

deficiency: iron deficiency
overload: iron toxicty, primary iron overload disorders: hemchromatosis (HFE1-4), aceruloplasminemia, atransferrinemia, hemosiderosis

Question 63

inborn errors of Zn metabolism

Answer 63

deficiency: acrodermatitis enteropathica
overload: zinc ‘toxicity’

Question 64

Which one of the following elements is believed to be non-essential

Answer 64

aluminium