P3. Milk proteins

Question 1

7 common sources of proteins?

Answer 1

1. milk
2. meat
3. eggs
4. fish
5. cereals
6. soybean
7. pulses (pea, lentil, chickpea)

Question 2

each protein system is _________ and its properties also depend on what? (2)

Answer 2

• unique
• processes used to extract or isolate it

Question 3

fluid milk contains __% solids, of which ___% is protein

Answer 3

12% solids
- 3.5% proteins

Question 4

milk proteins have high _________ value (what does it mean?), surpassed only by ____ _________ and are a good source of ________ (an _________ aa)

Answer 4

• nutritive value (good aa balance)
• by egg albumin
• lysine (essential aa)

Question 5

2 groups of milk proteins?

Answer 5

• casein
• whey proteins

Question 6

_________ is a general term for milk proteins and have an isoelectric point at pH _____ –> isolated by adjusting pH of milk to _____ using _______
- proteins left in solution are termed ______ proteins

Answer 6

• casein
• 4.5
• 4.5 using acid
• whey

Question 7

% of total milk protein:
- caseins
- whey proteins

Answer 7

• casein: 83%
• whey proteins: 17%

Question 8

what are the main types of casein in order of highest to lowest percentage of caseins?

Answer 8

1. a(s1) = 44%
2. b = 25%
3. k (kappa) = 14%
4. a(s2) = 11%
5. y (gamma) = 5%

Question 9

main types of “whey proteins” in order of highest to lowest percentage?

Answer 9

1. beta-lactoglobulin = 58%
2. a - lactalbumin = 13%
3. immunoglobulin = 12%
4. minor proteins = 12%
5. serum albumin

Question 10

which whey protein are 7% of population allergic to?

Answer 10

beta-lactoglobulin

Question 11

in 1877, O Hammarsten distriguished (how many) proteins in milk: name them

Answer 11

• 3!
• casein + lactalbumin +lactoglobulin

Question 12

O Hammarsten outlined the following procedure for the isolation of casein: (2 steps ish)

Answer 12

1. skim milk is diluted, then acidified with acetic acid
2. casein flocculates, while whey proteins stay in solution

Question 13

specific property of casein: it is __________ in ______ _______ media

Answer 13

insoluble in weakly acidic media

Question 14

casein was subsequently established to be a ___________ with _______ being attached to the aa ________

Answer 14

• phosphoserine
• phosphate being attached to serine

Question 15

in 1939, casein was shown by _________ to consist of 3 fractions: ?

Answer 15

• electrophoresis
• alpha, beta and kappa

Question 16

how are different types of casein differentiated? (3 ish)

Answer 16

• isoelectric point
• molecular weight (different aa sequence)
• phosphorus content

Question 17

North American cows have which variants?

Answer 17

A and B (vs C and D are more Australian)

Question 18

y-casein are the products of proteolysis of __________

Answer 18

beta-casein

Question 19

in milk, most of casein proteins are present in _________ particles called ________ __________

Answer 19

• colloidal particles
• casein micelles

Question 20

casein micelles are responsible for the ________ ______________ of milk, an optical effect due to ______ ___________

Answer 20

• opaque whiteness of milk
• due to light scattering

Question 21

micelles are very complex structures: ____________ assemblies made up of the different _______ _________

Answer 21

• supramolecular assemblies
• different casein fractions

Question 22

casein micelles __________ if Ca2+ is dialyzed from solution –> will reform if Ca2+ is ??

Answer 22

• dissociate
• if Ca2+ is added back

Question 23

what is a submicelle? vs a micelle?

Answer 23

• submicelle: 1 b + 1 a(s1) + 1 a(s2) + 1 k –> 10 nm
• micelles = lots of submicelles together –> 20-300 nm

Question 24

alpha (s1) - casein:
- how many aa?
- which aa distributed all along peptide chain –> hindering formation of ?
- contain ___ phosphoserine residues
- how many phosphoserine residues localized btw positions ____ and _____ –> this portion also contains 12 ? = very _________
- aa 100-199 are _______ = responsible for ?

Answer 24

• 186-199 aa
• proline –> hinder formation of ordered structures
• 8 phosphoserine residues
• 7 localized between 43 and 80 –> also contains 12 carboxyl groups (glutamic and aspartic residues) = extremely polar
• apolar = responsible for strong self-association tendencies of a(s1)-casein/hydrophobic interactions (despite repulsive forces btw phosphate groups and lack of cysteine residues)

Question 25

where can Ca2+ aggregate in a(s1) casein?

Answer 25

in the polar portion of the peptide chain (btw 43-80)

Question 26

in the presence of Ca2+ ions at levels found in milk, a(s1) casein forms ?

Answer 26

insoluble Ca-salt

Question 27

a(s2) casein
- how many aa?
- ordered or not?
- ___ phosphoserine and ___ cysteine residues
- precipitates with Ca2+ more/less easily than a(s1) casein

Answer 27

• 207
• more ordered structure than a(s1), more alpha helices
• 11 phosphoserine + 2 cysteine
• more easily!

Question 28

b-casein:
- most ___________ casein
- has (2) thus resembling _____-like molecules
- ___ phosphoserine residues are localized btw positions __ and ____ of the peptide chain
- precipitates in presence of Ca2+ are what levels?

Answer 28

• hydrophobic
• polar head + apolar tail –> soap-like molecule
• 5 phosphoserine btw 1 and 40
• at levels found in milk

Question 29

y-casein:
- _________ products of __-casein formed by milk _______
- obtained by cleavage of residues __-___
- if you have y-casein = not good ?

Answer 29

• degradation products of b-casein
• residues 1-28
• pasteurization: proteases not deactivated enough

Question 30

kappa-casein:
- how many aa residues
- ____ prolines + ___ cysteines + ___ phosphoserine
- normally occurs as a ______ or higher _________
- self-association involves formation of ______ ______ btw the _______ residues
- what molecules (3 examples) are bound to peptide chain through ________ residues (at position _____, _____ and ____ in variant __)

Answer 30

• 169 aa
• 20 prolintes, 2 cysteine, 1 phosphoserine
• trimer or higher oligomer
• disulfite bonds btw cysteine residues
• carbohydrates (galactose, galactosamine, N-acetylneuramic acid) –> through threonine residues (131, 133, 135 of variant A)

Question 31

numb of carb molecules bound to k-casein peptide chain is ________
- ie for N-acetylneuramic acid, galactose, galactosamine

Answer 31

• variable:
• N-acetylneuramic acid: 0-3 moles
• galactose: 0-4 moles
• galactosamine: 0-3 moles

Question 32

kappa-casein is the only constituent of casein that remains ______ in the presence of ___ ions at concentrations found in milk

Answer 32

soluble
- Ca2+ ions

Question 33

3D model for k-casein –> described as ? model (3 parts)
- this model suggests that kappa-casein contains approx __% a-helix and __% b-structure

Answer 33

• horse and rider
• N-terminal = horse
• C-terminal = rider
• 2 legs = beta sheets
• 16% a-helix + 27% b-structure

Question 34

which sections of k-casein are very hydrophobic? –> role?

Answer 34

• leg sections
• postulated to be area of interaction with other caseins

Question 35

only up to __% of the total casein present in milk is in the form of _________, usually designated as _______ caseins

Answer 35

• 10%
• monomers
• serum caseins

Question 36

the majority of casein proteins __________ to form casein complexes and micelles. the extent of __________ is dependant on ____ concentration and ___

Answer 36

• aggregate
• aggregation
• Ca2+ concentration and on pH

Question 37

which constituent of casein remains soluble in present of Ca2+ ions at concentrations found in milk?

Answer 37

k-casein

Question 38

aggregation of (2 types of casein) with __-casein prevents/accelerates their coagulation in present of Ca2+ ions

Answer 38

• a(s1) and b-caseins with k-casein
• prevents (the formation of really really big micelles that could hurt the cow when milking)

Question 39

what is the utmost important property for formation of stable casein complexes and casein micelles as occurs in milk?

Answer 39

the property of k-casein to prevent coagulation in presence of calcium ions

Question 40

3 forms of casein structure (NOT a, b, k and y)
________ –> ________ –> ________
5 properties that will increase formation on 1 side vs the other

Answer 40

• monomers (soluble caseins) –> casein complex –> micella
• to form casein complex and micella:
  1. lower pH (increase H+)
  2. increase Ca2+
  3. remove citrate
  4. remove phosphate
  5. increase temperature
  (inverse of these 5 steps to dissociate casein complex)

Question 41

dialysis of casein complexes against a _______ agent (ex?) would shift equilibrium towards __________ vs against a high Ca2+ concentration, shift would be to _______ ________

Answer 41

• chelating agent (EDTA)
• monomers
• high ca2+ concentration –> large micelles

Question 42

diameter of micelles ranges from __ to ____ nm, with a mean of _____, corresponding to volume of ____ x 10^__ nm^3

Answer 42

• 10-300 nm
• 150 nm
• 1.6 x 10^6 nm^3

Question 43

average of how many monomers per micelle?

Answer 43

400 - 40 000 monomers per micelle

Question 44

micelles are highly _______ and hence are _____

Answer 44

• highly solvated
• are porous

Question 45

casein micelles are kept together/casein stability:
(3 interactions)

Answer 45

1. hydrophobic interactions: minimal at temperature below 5°C
2. electrostatic interactions, mostly as calcium and calcium bridges between phosphoserine and glutamic acid residues
3. hydrogen bond

Question 46

what disrupts the electrostatic interactions between calcium & PO4 and calcium & COO-? how?

Answer 46

additions of acetic acid! (decrease in pH)
- neutralizes negative charges –> adding acid will protonate the side chains

Question 46

what disrupts the electrostatic interactions between calcium & PO4 and calcium & COO-? how?

Answer 46

additions of acetic acid! (decrease in pH)
- neutralizes negative charges –> adding acid will protonate the side chains

Question 47

what are the 2 types of submicelles that exist?

Answer 47

• one contains k-casein
• the other does not

Question 48

characteristics of submicelles that contains k-casein (2)
- aggregation of submicelles proceeds until what?
- k-casein coverage is around __ nm thick = provide _________

Answer 48

1) k- casein are arranges on surface of submicelles
2) hydrophilic c-terminal domains protrude like hairs from surface, preventing further aggregation
- until entire surface of forming micelle is covered with k-casein
- 5nm –> provide stability

Question 49

are k-caseins also found inside the micelle?

Answer 49

yes

Question 50

cleavage of k-casein causes casein proteins to _______ = ______ formation
- this is the underlying principle of use of ________ in cheese making

Answer 50

coagulate
- curd formation
- rennet

Question 51

rennet is a complex of _______ produced in _____ stomach of cow that contains what?

Answer 51

• enzymes
• fourth stomach
• contains precursor of enzyme chymosin (rennin)

Question 52

what is chymosin?

Answer 52

chymosin = acid protease having specificity for k-casein
(cleaves k-casein from micelle and casein complex)

Question 53

chymosin specifically recognizes sequence in k-casein chain from _____-___ to ___-_____ and selectively cleaves the peptide bond between _____-____ and ____-____

Answer 53

• His-98 to Lys-111
• cleaves Phe-105 and Met-106

Question 54

k-casein cleaved into which 2 fragments?

Answer 54

• para-k-casein
• glycomacropeptide

Question 55

2 fragments of k-casein: which is soluble and which one precipitates?

Answer 55

• glycomacropeptide is soluble
• para-k-casein precipitates in presence of Ca2+ ions

Question 56

2 ways to precipitate casein:
1. how? produces ________ = first step in ?
2. how? produces __________ –> for use as ?

Answer 56

1. chymosin reaction –> produces paracasein –> first step in cheese making
2. addition of acetic acid. produces acid casein or isoelectric casein
   - for use as functional ingredient

Question 57

one similar characteristics for acid/isoelectric casein and paracasein?

Answer 57

• similar physically
• not temp sensitive
• can boil them bc very little 2° structure

Question 58

which types of whey proteins are mainly used in food science? (2) what are the other 3 types?

Answer 58

• b-lactoglobulin
• a-lactalbumin
  NOT used:
• bovine serum albumin
• immunoglobulin
• minor proteins

Question 59

percentage of total milk protein, isoelectric point and molecular weight of b-lactoglobulin and a-lactalbumin

Answer 59

b-lactoglobulin:
- 10% of total milk protein
- 5.34 isoelectric point
- 18.3 kDa
a-lactalbumin:
- 2% of total milk protein
- 4.8 isoelectric point
- 14.1 kDa

Question 60

which milk protein is also sold as a nutraceutical/medical claims?

Answer 60

alpha-lactalbumin

Question 61

beta-lactoglobulin:
- ____% of whey protein fraction
- how many aa? molecular weight?
- what differs between genetic variant A and B?
- ___ disulfite bond + ___ free sulfhydryl group + ____ phosphorus

Answer 61

• 58%
• 162 aa –> 18.3 kDa
• glycine in variant B replaced by aspartic acid in variant A
• 2 disulfite bond + 1 free sulfhydryl group + 0 phosphorus

Question 62

describe the 2 disulfite bonds of b-lactoglobulin

Answer 62

one is fixed between Cys-66 and Cys 160
- the second one is dynamic: either Cys-106 with Cys-119 (+ free sufhydryl Cys 121) OR Cys-106 with Cys 121 (+ free sufhydryl Cys 119)

Question 63

the 2° structure of beta-lactoglobulin is homologous to that of __________-binding proteins

Answer 63

retinol

Question 64

beta-lactoglobulin:
- ___ strands of beta-structure –> ___ of them arranged to form a ________ and a single ________ that resembles a _____ on the ___________
- the center of the _________ is hydrophobic/hydrophilic and can be involved in binding of what?

Answer 64

9 strands of beta structure
- 8 of them form a beta-barrel
- single alpha helix resembles a lid on the beta-barrel
- center of the barrel is hydrophobic + involved in binding of hydrophobic molecules (pharma tried to hide drugs in the barrel)

Question 65

although b-lactoglobulin is manufactures specifically in _________ ______ for inclusion in _______, its biological role is ___________

Answer 65

• mammary gland for inclusion in milk
• unknown

Question 66

b-lactoglobulin’s __________ pocket is quite effective in binding __________ and it has been speculated that the binding of ________ may have a regulatory role in __________ gland

Answer 66

• hydrophobic
• retinol
• binding of vit. A
• mammary

Question 67

because of its prevalence in _______ milk, to a large extent, the properties of whey protein ________ and whey protein ________ employed in the food industry are in effect, the properties of ____________

Answer 67

• bovine
• concentrates
• isolates
• beta-lactoglobulin

Question 68

alpha-lactalbumin:
- ___% of total milk protein vs ____% of total whey protein
- ____ aa + MW of ?
- ___ disulfite linkages and _____ phosphate groups

Answer 68

• 2% of total milk VS 13% of total whey protein
• 123 aa + 14.16 kDa
• 4 disulfite links and no phosphate groups

Question 69

alpha-lactalbumin variant A vs variant B?

Answer 69

variant A: glutamine (Gln)
variant B: arginine (Arg)

Question 70

disulfide bonds of alpha-lactalbumin are between which cys residues?

Answer 70

• 6 and 120
• 28 and 111
• 61 and 77
• 73 and 91
  (not important though)

Question 71

role of alpha-lactalbumin?
- what happens if absence of a-lactalbumin?

Answer 71

modify activity of enzyme galactosyl transferase (a-lactalbumin is a cofactor ish)
- galactosyl transferase adds UDP-galactose to N-acetylglucosamine groups that are attached to proteins

Question 72

enzyme galactosyl transferase can transfer _______ to _______, but the Km for glucose is _____ mM and thus the reaction proceeds slowly/fast
- alpha-lactalbumin serves to increase/lower the Km for _________ to __ mM and the enzyme complex will not add ________ to ________ to produce ________ and UDP

Answer 72

• UDP-galactose to glucose
• 1400 mM
• slowly, if at all
• lower the Km for glucose to 5 mM
• add UDP-galactose to glucose to produce lactose and UDP

Question 73

milk of all mammals that contains lactose also contains ___________

Answer 73

alpha-lactalbumin

Question 74

40% of residues btw a-lactalbumin and _________ are the same, including all _______ residues
- another ___% have similar ___________

Answer 74

• lysozyme
• cysteine
• 20% have similar structures

Question 75

similar structure btw a-lactalbumin and lysozyme coupled with the fact that a-lactalbumin helps what? suggests that the molecules are closely related

Answer 75

that a-lactalbumin helps to synthesize same linkage that lysozyme cleaves
- glycosyl linkage

Question 76

do a-lactalbumin and lysozyme work on same substrates and are related antigenetically?

Answer 76

no and no

Question 77

a-lactalbumin is unusual in that the molecule is more/less stable to heat in presence of ________ whereas proteins show increased/decreased heat sensitivity in the presence of _________

Answer 77

• more stable in presence of calcium
  vs
  increased heat sensitivity in presence of calcium (ie b-lactoglobulin will precipitate with calcium and heat)

Question 78

increased sensitivity to heat of most proteins is probably due to ability of calcium to promote what? with most proteins. these __________ hold the molecules in proximity and increase/decrease the likelihood of aggregation upon heating
VS a-lactalbumin uses calcium to form what?

Answer 78

• promote formation of ionic intermolecular cross links with most proteins
• these crosslinks
• increase
• to form intramolecular ionic bonds that tend to make molecule resistant to thermal unfolding

Question 79

under favorable conditions of ______ and ____, a-lactalbumin can remain soluble after exposure to temperatures up to ______°C

Answer 79

• calcium and pH
• 100°C

Question 80

a-lactalbumin has a lot of _________ for 2° structure

Answer 80

helical structures

Question 81

bovine serum albumin (BSA) isolated from milk is identical to BSA isolated from _______ _______

Answer 81

blood serum

Question 82

how does BSA enter the milk?

Answer 82

• BSA not synthesized in mammary gland but rather enters milk through bloodstream (diffusion)

Question 83

BSA:
- MW?
- ___ phosphorus + ___ disulfides + __ free sylhydryl group

Answer 83

• 69 kDA
• no phosphorus + 17 disulfides + 1 free sylhydryl group

Question 84

function of albumin in blood plasma?
- molecule has specific binding sites for ______ molecules and may bin them in _____ as well

Answer 84

• carrier of free fatty acids
• hydrophobic
• milk

Question 85

milk contains a great number of ________. the extent of heat activation/inactivation of enzymes indicates type and extent of heating to which milk has been subjected
- ex.:

Answer 85

• enzymes
• inactivation
• lipase

Question 86

casein and caseinates are widely used in food processing for (2)

Answer 86

• protein enrichment and/or
• achieve stabilization of certain physical properties of processed meats, baked products, candies, cereal products, ice creams, whipping creams and coffee whiteners (and cheese)

Question 87

what are the non-food uses of casein and caseinates? (4)

Answer 87

• manufacture of paper as sizing/coating to improve adhesion of printer’s ink to surface of paper
• glue manufacturing as a type of waterproof glue
• textile industry to make fabrics water-repellent
• production of certain plastics

Question 88

for the recovery of casein from milk, coagulation is achieved by _________ or __________ __________

Answer 88

• acidification
• enzymatic treatment

Question 89

how is acid coagulation achieved (to recover casein from milk)?
- results in what type of casein?

Answer 89

• achieved by lactic acid fermentation
• OR by direct addition of acids such as HCl, H2SO4, lactic acid or H3PO4 to milk at 35-50°C to attain pH of 4.2-4.6, at which casein precipitates out as coarse grains
• acid casein

Question 90

what is the process of enzymatic treatment of milk? (2 steps)
- results in what type of casein?

Answer 90

• addition of protease enzymes such as chymosin and pepsin to the milk at 45°C
• in cheese production, the enzyme causes coagulation of casein
• to terminate the process, milk is heated to 65°C to inactivate enzyme (pepsin)
• rennet casein

Question 91

what happens after coagulation of casein?

Answer 91

• casein is separated form milk in a sedimentation centrifuge, washed and dried (whirlwind drier)

Question 92

to produce a casein product that is soluble or readily dispersible: casein is dispersed in _____ and treated with ______ (5 ex.) at ___-____°C and pH ___-___.
- the solubilized product (2) is then ________.

Answer 92

• water (20-25% w/w)
• treated with alkali (NaOH, Ca(OH)2, alkali or alkaline-earth carbonates or citrates
• at 89-90°C
• pH 6.2-6.7
• sodium caseinate or calcium caseinate
• spray dried

Question 93

why accumulates in considerable amounts in production of ________. until recently, whey was considered a __________ by-product of __________ production, in part bc whey is too high in ______ to be consumed directly in large amounts and was dumped as _____________

Answer 93

• cheese
• valueless by product of cheese
• too high in salt
• wastewater

Question 94

whey byproducts of cheese-making:
although _______ methods were available, costs were too high/low in relation to value of product. however, in recent years tighter __________ regulations have required expensive waste treatment in most jurisdictions

Answer 94

• desalting
• too high
• environmental

Question 95

what allowed recovering proteins from whey?
- take advantage of (2) of whey protein
- what are spray-dried whey and whey produces used in? (7)

Answer 95

• improved technological processes
• high nutritional quality + excellent functional properties of whey protein
• infant formula, baked goods, confectionery, candies, beverages, animal feed and pet food

Question 96

whey’s solids composition is especially high in ________ –> making them super _______
- what has higher protein and lower lactose?
- what is mostly protein and no lactose?

Answer 96

• lactose –> super cheap
• whey protein concentrates (1-2x ultrafiltration fo lower lactose)
• whey protein isolates

Question 97

3 steps for drying whey
- processing costs may be reduced by preliminary concentration of why to __-___% dry matter by what?

Answer 97

1. concentration of whey to 50-55% dry matter in falling-film evaporator (thermal or mechanical vapour compression)
2. spray drying (1 or 2 step)
3. subsequent drying on a fluidized bed drier
   - 21-25% dry matter by reverse osmosis using a perm-selective membrane that holds back the protein, lactose and salts

Question 98

what is reverse osmosis? (other word for it?)
- goal?

Answer 98

• water is forced through membrane by applying pressure exceeding osmotic pressure (which would normally water back across the membrane)
• hyperfiltration
• to force lactose out! but keep protein

Question 99

how are whey protein concentrates produced?
2 methods
- downfall of the 2nd method?

Answer 99

more porous membrane employed to hold back proteins but allows lactose and salts to pass through with water
VS
less gentle method: heating whey (95°C for 3-4min) by direct steam injection followed by precipitation of denatured proteins at pH 4.5 + separation in a sedimentation centrifuge and drying
BUT highly detrimental to functional properties of whey proteins

Question 100

how is lactose recovered from whey protein concentrates?

Answer 100

• filtrate obtained in ultrafiltration step can be concentrated by reverse osmosis using a membrane that selectively holds back lactose while allowing salts/smaller molecules to pass through

Question 101

once whey protein concentrates and lactose are isolated, what is done to them?

Answer 101

• whey protein concentrates: seeded and cooled slowly to induce sugar crystallization
• lactose may be recrystallized to yield a raffinade (pharmaceutical-grade lactose), which is used as a filler in tablets

Question 102

Lactose (isolated from whey protein) is used in manufacturing of (5)

Answer 102

• dietary food products
• baked products dehydrated food
• cocoa products
• beverages
• ice creams

Question 103

whey protein isolates require extensive processing (3) to obtain highly purified protein

Answer 103

• ultrafiltration
• microdialysis
• and/or ion exchange

Question 104

whey protein isolates are relatively __________ to produce + are used primarily in high value-added production of _____ ________ ___________

Answer 104

• expansive
• whey protein hydrolysates

Question 105

how are whey protein hydrolysates produces?

Answer 105

• enzymatic treatment of whey protein isolates to break proteins down into smaller peptides that are more easily digested while nutritional quality of protein remains very high
• cut down b-lactoglobulin into smaller fragments

Question 106

why are whey protein hydrolysates often used as protein source in infant formulas?

Answer 106

bc believed to be less likely to trigger allergic reactions than non-hydrolyzed whey protein
- bc beta lactoglobulin is cut down

Question 107

do dairy proteins have a lot of properties as ingredients in food processing?

Answer 107

yes!
emulsification, stabilization, aeration, film formation, opacity, water/fat binding, texturization, thickening, heat stability, gelation, acid solubility, flavor development, browning

Question 108

typical formulation of imitation cheese? (6 ingredients)

Answer 108

• water (51.1%)
• Ca/Na caseinate (26%)
• vegetable oil (18%) to give texture
• glucono-delta-lactone (emulsifier and flavor) (2.8%)
• salt (2%)
• color and aroma substances