Proteins Flashcards

Question 1

Q

What two processes reflect the resulting protein concentration?

Answer

A

Protein concentrations (plasma or serum) reflect balance between anabolism and catabolism.

Question 2

Q

What body fluids are typically measured for their protein content?

Answer

A

Serum, urine and CSF total protein are measured in the lab.

Question 3

Q

What are the reference ranges for total protein for plasma, urine and CSF?

Answer

A

Plasma: 60 - 80 g/L
Urine: < 0.14 g/L
CSF 0.20-0.40 g/L

Question 4

Q

Where are most proteins synthesized?

Answer

A

Most proteins at synthesized in the liver, with the exception that immunoglobulins are produced by lymphocytes.

Question 5

Q

What protein represents the largest fraction and by ~ how much?

Answer

A

Albumin is the largest fraction of total protein at ~60%.

Question 6

Q

Where is albumin synthesized?

Question 7

Q

What functions does albumin serve (5)?

Answer

A

Main transporter of insoluble organic anions.
Binding of toxic heavy metal ions,
Transport of excess quantities of poorly soluble hormones.
Maintenance of serum osmotic pressure, and
Provision of a reserve store of protein.

Question 8

Q

What does the glomerular basement membrane do?

Answer

A

Ultrafilter allows only small molecules to pass through.

Question 9

Q

What occurs if the glomerular basement membrane is damaged?

Answer

A

Albumin increases in the urine. Degree of damage reflected in size of urinary proteins.

Question 10

Q

What is proteinuria?

Answer

A

Presence of protein, usually albumin, in urine. Also known as: albuminuria.

Proteins pass through glomerulus of kidney.
Not re-absorbed by renal tubules.

Question 11

Q

What is the implications of finding protein in urine?

Answer

A

Small amount so protein in normal urine does not always indicate renal disease. - Need to investigate cause.
- Could be the result of strenuous exercise for example.

Question 12

Q

What is the test of choice when screening for albuminuria?

Answer

A

Random urine to creatinine ratio is the test of choice when screening for albuminuria. Early indication of glomerular dysfunction.

Question 13

Q

What is microabluminuria?

Answer

A

Small excretion of albumin in urine.

Question 14

Q

What is overtnephropathy?

Answer

A

Persistent high levels of albumin in urine.

Question 15

Q

What types of reference ranges are there for albumin?

Answer

A

Plasma (33-45 g/L)
Urine (24 hours) < 30 mg/day
Urine (Random) Male < 2.0 mg/mmol creatinine.
Urine (Random) Female < 2.8 mg/mmol creatinine.

Question 16

Q

What disease states result in an increase in CSF proteins?

Answer

A

Meningitis, hemorrhage, tumors, Multiple Sclerosis, diabetes, etc.

Question 17

Q

What condition could cause a decrease in CSF proteins?

Answer

A

Decrease in CSF proteins could be related to a leakage from the CNS.

Question 18

Q

What are some testing methods used for total protein analysis on CSF?

Answer

A

Chemistry analyzer and electrophoresis.

Purpose: To identify specific proteins.

Question 19

Q

What is oligoclonal banding?

Answer

A

Oligoclonal banding is representative of the presence of inflammation. Appearance of multiple bands in gamma region on electrophoresis of CSF that are not present in serum is indicative of local synthesis of immunoglobulins (IgG).

Question 20

Q

What disease state does one expect to see oligoclonal banding appear in the electrophoresis analysis that is not present in serum?

Answer

A

Multiple Sclerosis.

It is typical for MS to have two discrete oligoclonal bands in the CSF.

Question 21

Q

What is the reference range and critical value for total proteins of CSF?

Answer

A

Reference range: 0.20-0.40 g/L
Critical value of CSF Protein is > 1.9 g/L
Too high of CSF protein is life threatening.

Question 22

Q

What does alpha1-antitrypsin do?

Answer

A

Inhibition of neutrophil elastase.

2. Released during infection but causes damage if not inhibited.

Question 23

Q

When and why is maternal AFP screening performed?

Answer

A

Maternal AFP screen is looking for alpha1-fetoprotein between 15 and 20 weeks of gestation.
Elevated levels may indicate spina bifida or neural tube defects.
Low levels may indicate Trisomy 21 or Trisomy 18.

Question 24

Q

Where does alpha1-fetoprotein (AFP) come from?

Answer

A

Synthesized in fetus and decreased after birth.

Question 25

Q

What does the protein haptoglobin do?

Answer

A

Functions to bind hemoglobin.

2. Allows iron to be recycled.

Question 26

Q

What conditions are increased and decreased levels of haptoglobin related to?

Answer

A

Increased: Inflammatory conditions.
Decreased: Red cell breakdown.

Question 27

Q

What is the purpose of the ceruloplasmin protein?

Answer

A

Binds 90% of serum copper.
Enzymatic activities.
It is an acute phase protein.

Question 28

Q

What conditions are the increased and decreased levels of ceruloplasmin protein related to?

Answer

A

Increased: Inflammation.
Decreased: Wilson’s disease (if not bound to copper it degrades; excess copper is deposited in tissues like the liver).

Question 29

Q

What function does the protein transferrin serve?

Answer

A

Binds iron for transport to storage sites like the liver.

Question 30

Q

What is the function of lipoproteins?

Answer

A

Transports cholesterol, triglycerides, and phospholipids in the bloodstream (HDL and LDL).

Question 31

Q

What is the function of complement proteins?

Answer

A

Participates in immune reaction.

Question 32

Q

What type of disease state are complement proteins associated with?

Answer

A

Linked to inflammatory disease.

Question 33

Q

What is the function of the protein fibrinogen?

Answer

A

Functions to form a fibrin clot when activated by thrombin.

Question 34

Q

What disease condition is the protein C-Reactive Protein associated with?

Answer

A

Increased in inflammatory disease.

Note: There is a debate about measuring CRP as it is released for many diseases and hence is non-specific, but still requested at times.

Question 35

Q

Where is the protein myoglobin found?

Answer

A

Found in striated skeletal or cardiac muscles. It is a heme protein.

Question 36

Q

What happens to myoglobin when there is damage to the muscle?

Answer

A

It is released with damage.

Question 37

Q

What is troponin a complex of?

Answer

A

Complex of three proteins that function to regulate cardiac muscle contraction:

Troponin T (cTnT)
Troponin I (cTnI)
Troponin C (TnC)

Question 38

Q

What is the troponin complex proteins sensitive indicators of?

Answer

A

The three proteins are often measured separately for a myocardium infarction. They are sensitive indicators of even small amounts of cardiac damage, in particular Troponin I.

Question 39

Q

When are newborn screening card specimens taken and why?

Answer

A

They are collected no sooner than 24 hrs after birth and aim to be collected no later than up to 5 days of age.
The reason for no sooner than 24 hrs is so that the baby’s own body is given a chance to support itself (just out of Mom). If later than 5 days then if the baby had one of the conditions of concern it could start to be detrimental to the baby.

Question 40

Q

What types of diseases are screened for in Manitoba’s Newborn screening program?

Answer

A

Metabolic and endocrine dysfunction that can be caused by enzyme defects, abnormal metabolism of proteins/carbs/fats, gene defects, etc.
Disease found w/in population shortly after birth that can be treated.

Question 41

Q

What are the impacts of a block in the metabolic pathway for an infant?

Answer

A

Block in metabolic pathway –> results in build-up of substance before the block.
Deficiency of products after the block
- -> abnormal metabolism.
Symptoms may include:
a) failure to thrive.
b) Abnormalities in features, hair or skin.
c) Behavioral and learning problems.

Question 42

Q

What enzyme is lacking in the disease PKU and what was it suppose to do?

Answer

A

Absence of phenylalanine hydroxylase (PAH).

2. Normally converts phenylalanine to tyrosine.

Question 43

Q

What is the result if phenylalanine hydroxylase (PAH) enzyme is not present?

Answer

A

If absent there is a build up of phenylalanine and low levels of tyrosine. This results in toxic accumulations in the brain causing significant and permanent damage, such as learning and development challenges.
Can be managed if identified early with a diet low in phenylalanine.

Question 44

Q

What enzyme is lacking in the condition Glutaric Acidemia - type 1 (GA-1)? What is the result?

Answer

A

Glutaryl-CoA dehydrogenase enzyme is lacking.
Glutaric acid, that is a product from Tryptophan + Lysine, after the breakdown of amino acids, cannot be further broken down as the Glutaryl-CoA dehydrogenase enzyme is lacking so it builds up in the body along with other harmful substances.
The final result is health problems (details are not on the slide). When it works properly there is energy and growth.

See Slide 37 for diagram.

Question 45

Q

What are aminoacidopathies?

Answer

A

There are many other aminoacidopathies listed on the slide (we don’t need to memorize those). Explanation of what an aminoacidopathies is below:

Inborn errors of metabolism (IEMs) are a group of inherited metabolic disorders which are caused by mutations in the specific genes that lead to impaired proteins or enzymes production. Different metabolic pathways are perturbed due to the deficiency or lack of enzymes. IEMs have been classified into different categories and one class of IEMs, characterized by the physiological disturbances of amino acids is called as aminoacidopathies.

Sources: https://pubmed.ncbi.nlm.nih.gov/29094226/

Question 46

Q

What are light measuring methods for testing of proteins?

Answer

A

Refractometry
Turbidimetric Methods
Nephlelometric Methods

Question 47

Q

What do nephlelometric methods work best with for protein measurements?

Answer

A

Works best for small aggregates formed by antigen: antibody reactions.

Question 48

Q

What is tested by immunoturbidimetric methods?

Answer

A

Microalbuminuria

Question 49

Q

What is protein Electrophoresis?

Answer

A

Separation of proteins in a buffer on a porous medium under influence of an electrical field.

Question 50

Q

What types of porous support mediums are used in protein electrophoresis and some of their pros or features?

Answer

A

Cellulose acetate:
- Usually used on serum
- Fast separation, and
Agarose:
- Most common, e.g. 1% agarose gel.
- Pore size allows separation based on charge and molecular size of molecule.

Question 51

Q

Where to the + charged amino acids and - charged amino acids move towards in protein electrophoresis?

Answer

A

+ charged amino acids (cations) move towards the - electrode.
- charged amino acids (anions) move towards the + electrode.

Question 52

Q

Do amino acids at their pI migrate?

Answer

A

No, they do not.

Question 53

Q

With protein electrophoresis, what process steps are taken after migration?

Answer

A

After migration:
1. Gels are fixed.
2. Stained
3. Washed to remove excess stain.
4. Protein bands are visualized.
Amino acids are identified as separate bands.

Question 54

Q

Where is the sample placed in protein electrophoresis?

Answer

A

In the middle of the gel (not like DNA electrophoresis).

Question 55

Q

What factors can affect electrophoresis?

Answer

A

Time
Voltage or current.
Buffer.
Gel or support medium.
Particle shape and size.
pH
Temperature
Charge.

Question 56

Q

What are cations?

Answer

A

Positive ions. (The t in cation is lie +).

Question 57

Q

What are anions?

Answer

A

Negative ions. (Anions is like onions and who in the family likes onions but me!).

So I am a neg ion, an anion, but I try to be positive so I migrate to the positive electrode!.

Question 58

Q

What factors affect the rate of migration of proteins?

Answer

A

Rate of migration:

Directly proportional to net charge of the protein in solution.
Greater the net charge the greater the mobility.
Inversely proportional to the size of the protein and viscosity of the buffer.

Question 59

Q

What happens if your time of migration for protein electrophoresis is not optimized?

Answer

A

If time not optimized:
Too much time = decreased resolution.
Decrease time = lack of separation.

Question 60

Q

What happens in protein electrophoresis if the voltage is too high?

Answer

A

Since V = IR, if the voltage is too high you will produce heat from resistance in gel although you will increase the migration rate. The heat in turn will denature the proteins. BAD if voltage too high!

Question 61

Q

What happens in protein electrophoresis if the voltage is decreased from optimal?

Answer

A

There will be decrease migration.

Question 62

Q

What is the purpose of the buffer in protein electrophoresis?

Answer

A

Solution buffered to maintain a constant pH (resist pH changes).
Ions in buffer maintain electrical flow.
Buffers are selected so pH gives optimum net charge for maximum separation.

Question 63

Q

What does the buffer contain?

Answer

A

The buffer contains an acid and conjugate base.

Question 64

Q

What happens if ions in buffers are too high in concentration?

Answer

A

Higher ionic concentration = less mobility (ionic cloud hinders movement).

Answer 64

A

Use buffers with pH between 7 and 9.
Net negative charge (anions) of proteins at pH 8.6 causing them to migrate towards the positive terminal (anode).
Barbital or tris-boric acid-EDTA buffers are commonly used.

Answer 65

A

Biochemically inert (neutral).
Concentration optimized (not too high or low) for pore size as this affects migration in relation to the size and shape of molecule being separated.

Answer 66

A

An applicator template containing specimen application slots is applied to the gel.
A few microliters of sample are applied across each slot.
After samples are allowed to diffuse into the gel, the applicator template is removed.

Note: You may want to compare this to lab notes to add some more explanation here.

Answer 67

A

Place gel in electrophoresis cell containing 2 separate buffer compartments. Note: Each compartment contains an electrode (anode or cathode) which later becomes electrically charged.
The electrodes are connected to a power supply and an electric field is applied for a time period specified in the procedure.

Answer 68

A

Gel sits on a gel bridge.

Alternatively a cooled bridge for high resolution electrophoresis.

Answer 69

A

The gel is in contact with buffer in the 2 compartments.

Each compartment contains an electrode (anode or cathode) which later becomes electrically charged.

Answer 70

A

Fixation and drying.

Answer 71

A

Acid solution in a bath (container).
Functions of acid solution fixation:
a) Denatures the proteins causing them to fix to the proteins in the gel.
b) Removes gel buffer components, most importantly SDS, which may interfere in the staining process.
c) Acidic environment increases interactions with stains.

Answer 72

A

After fixation, the gel is then dried before going through the staining process.

Answer 73

A

Multi-step procedure using stains in the:
a) Amido Black family.
b) Coomassie Brilliant Blue family.
This stains amino groups of proteins.

Answer 74

A

You can now visualize and identify the different bands that you were unable to see up to this point.

Answer 75

A

Dry the agarose gel in a gel dryer.

Dried gel can be stored indefinitely.

Answer 76

A

By direct visualization of the stained bands and by densitometry.

Answer 77

A

It is a measurement method used following protein separation & visualization.
A densitometer uses spectrophotometry to scan the gel and draw a pattern referred to as an electropherogram.

Answer 78

A

Total protein value is given to the instrument.
Area under each peak is measured.
Proteins fractions are a % of the total protein
The thicker/denser band/broader band = increased % of that fraction.

Answer 79

A

Hydrasys

Sample application, migration and staining.

Answer 80

A

Evaporation of solvent from support medium. Heat generated during electrophoresis causes buffer to be drawn into support from both ends.
Results in even pattern.
Affects rate and length of migration.
Correct: Using a lid or cover to prevent evaporation or using a cooling system.

Answer 81

A

Proteins take on negative charge with pH 8-9 forming a negative ion cloud that migrates towards anode.
Positive ions from the buffer form a positive ion cloud migrating towards the cathode.
Tension between these ion clouds moving in opposite directions causes movement of sample macromolecules.
Slows migration of some proteins in sample or can make them immobile or push them back towards the cathode.
DON’T GET NICE SEPARATION!

Answer 82

A

Use support media that lacks agaropectin.

Answer 83

A

No voltage: No migration.
Too High: Quick migration, but may cause too much heat and denature proteins.
Too Low: Slow migration, less separation. Gel had to read.

Answer 84

A

Too Acidic: Proteins will have a net + charge, & migrate towards cathode (negative electrode) and diffuse bands will result.

Too Basic: Proteins will have net - charge, migrate towards anode (+ electrode) and bands will be indistinct and stuck together.

Note: She says the terms cathode & anode can switch whether they are referring to + or -. That seems weird so I wonder why she says that. See slide 6.

Answer 85

A

Too Little time: Sample won’t be separated enough.

Too Much time: Samples can run all the way towards the end of your gel making them hard to interpret.

Answer 86

A

Heat can cause buffer to evaporate –> affect rate and length of migration.
Too hot: wick flow.
Too cold:???

Answer 87

A

Activity.

Answer 88

A

Classic 5 zone pattern of:
1 a) Pre-albumin
b) Albumin
2. alpha-1 globulin
3. alpha-2 globulin
4. B globulin (B = beta)
5. gamma globulin

Answer 89

A

1 Albumin = 35 - 50 g/L or 53-65%

alpha-1 globulin = 1-3g/L or 2.5-5%
alpha-2 globulin = 6-10 g/L or 7-13%
B globulin (B = beta) = 7-11 g/L or 8-14%
gamma globulin = 8-16g/L or 12-22%

Answer 90

A

Total protein and albumin are measured
Globulin result is calculated by subtracting total protein from albumin
Globulins = total protein – albumin
3.69 = 6.6 – 2.91
Divide albumin concentration by globulin concentration
A/G = albumin/globulin
0.79 = 2.91/3.69

Answer 91

A

Increased A/G

Decreased globulin synthesis

Answer 92

A

Decreased A/G
↓ Albumin ↑ globulins
↓ Albumin due to decreased protein synthesis by liver due to pathology or renal loss of proteins due to disease
↑ globulins chronic inflammatory disease, rheumatoid arthritis, Multiple Myeloma

Answer 93

A

Different diseases produce different electrophoretic patterns.
A diagnosis cannot be made from an electrophoresis result alone
The result must be interpreted in the context of other clinical findings

Answer 94

A

Protein electrophoresis uses serum samples. The inadvertent use of plasma results in a band (or peak on the electrophoregram) between the β and γ regions due to the presence of fibrinogen.

Answer 95

A

Free hemoglobin causes a small band in the alpha-2 region.

Answer 96

A

Because they have very low levels of proteins in those body fluids.

Answer 97

A

Enables one to identify the specific immunoglobulin that is related to the monoclonal peak in the gamma region of the electrophoregram.

Answer 98

A

Heavy chain (α, δ, ε, γ, or μ) which gives it is designation (IgA, IgD, IgE, IgG, or IgM)
Light chains (κ or λ) adding to its variety for recognizing an array of potential non-self invaders

Answer 99

A

Can be done on various body fluids.

Answer 100

A

Reaction of specific antiserum to precipitate individual proteins.
Note: Non-specific precipitation used in normal protein electrophoresis

Answer 101

A

Following precipitation of the protein of interest, other proteins are washed out of gel prior to staining to visualize the precipitated band(s).

Answer 102

A

High Resolution Electrophoresis (HRE):
Uses high voltage (>250V)
System is cooled to eliminate over heating
Uses high ionic strength buffer
Advantage: 12 bands can be separated rather that the routine 5

Answer 103

A

Isoelectric Focusing (IEF):
Gel has different pHs
Polyanions and polycations in gel to create pH gradient
Migration stops where pH is equal to pI of protein
Creates a high resolution
Used for CSF samples

Answer 104

A

Capillary Electrophoresis (CE)
Narrow silica capillary used instead of gel
Higher voltage – heat dissipates from silica capillary easily
Polyacrylamide inside
One end is in the cathode and the other end is in the anode
Size and charge of protein determines which emerges and is detected
Easily automated, quick, and efficient

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Proteins Flashcards

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