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TapeshwarYadav
(Lecturer)
BMLT, DNHE,
M.Sc. Medical Biochemistry
Other Electrophoresis
2
Cellulose Acetate ElectrophoresisCellulose Acetate Electrophoresis
It contains 2-3 acetyl groups per glucose unit and its adsorption
capacity is less than that of paper.
It gives sharper bands.
Provides a good background for staining glycoproteins.
ADVANTAGE:ADVANTAGE:
No tailing of proteins or hydrophilic materials.
Available in wide range of particle size and layer thickness.
Give sharp bands and offer good resolution.
High voltage can be applied which will enhance the resolution.
3
Contd…Contd…
DISADVANTAGE:DISADVANTAGE:
Expensive.
Presence of sulphonic and carboxylic residue causes induced
electro-osmosis during electrophoresis.
APPLICATION:APPLICATION:
Widely used in analysis of clinical and biological protein
samples (albumin and globulins).
Alternative to paper electrophoresis.
4
Moving Boundary ElectrophoresisMoving Boundary Electrophoresis
PRINCIPLE:PRINCIPLE:
The moving boundary method allows the charged species to migrate in a free moving solution
without the supporting medium.
INSTRUMENTATION:INSTRUMENTATION:
oConsists of a U shaped glass cell of rectangular cross section, with electrodes placed on the one each of the limbs
of the cell.
oSample solution is introduced at the bottom or through the side arm, and the apparatus is placed in a constant
temp. bath at 40o
C.
oDetection is done by measuring refractive index throughout the solution.(Schlieren optical system).
5
ADVANTAGES:ADVANTAGES:
Biologically active fractions can be recovered without the use of denaturing agents.
A reference method for measuring electrophoretic mobilities.
Minute concentrations of the sample can be detected.(0.05mg/ml by Interferometric
optical system).
DISADVANTAGES:DISADVANTAGES:
Costlier.
Elaborate optical system are required.
APPLICATION:APPLICATION:
To study homogenecity of a macromolecular system.
Analysis of complex biological mixtures.
6
Capillary ElectrophoresisCapillary Electrophoresis
• The principle behind electrophoresis is that charged molecules
will migrate toward the opposite pole and separate from each
other based on physical characteristics.
• Capillary electrophoresis has grown to become a collection of a
range of separation techniques which involve the application of
high voltages across buffer filled capillaries to achieve separations
• Capillary electrophoresis, then, is the technique of performing
electrophoresis in buffer-filled, narrow-bore capillaries,
normally from 25 to 100 mm in internal diameter (ID).
• A high voltage (typically 10-30 kV) is applied.
7
Contd…Contd…
• Capillaries are typically of 50 µm inner diameter and 0.5 to 1 m in length.
• Due to electroosmotic flow, all sample components migrate towards the
negative electrode.
• The capillary can also be filled with a gel, which eliminates the
electroosmotic flow. Separation is accomplished as in conventional gel
electrophoresis but the capillary allows higher resolution, greater sensitivity,
and on-line detection.
• The capillary is filled with electrolyte solution which conducts current
through the inside of the capillary. The ends of the capillary are dipped into
reservoirs filled with the electrolyte.
• Electrodes (platinum) are inserted into the electrolyte reservoirs to complete
the electrical circuit.
8
9
Sample application is done by either:
a)High voltage injection-potential is applied causing the sample to
enter capillary by combination of ionic attraction and electroosmotic
flow.
b)Pressure injection-pressure difference is used to drive the sample
into capillary by applying vaccum.
•When PD is applied net migration occurs in the direction of
cathode.
•Even substance with net negative charge migrate in the direction of
cathode due to the phenomenon called as Electro Osmotic Flow.
•Neutral molecule moves at the same speed as the EOF. Positively
charged species move faster, speed is sum of EOF and
Electrophoretic mobility. Negatively charged molecules lag behind.
ELECTROOSMOTIC FLOWELECTROOSMOTIC FLOW
The surface of the silicate glass capillary contains negatively-charged functional
groups that attract positively-charged counter ions. The positively-charged ions
migrate towards the negative electrode and carry solvent molecules in the same
direction. This overall solvent movement is called electroosmotic flow. During a
separation, uncharged molecules move at the same velocity as the electroosmotic
flow (with very little separation). Positively-charged ions move faster and
negatively-charged ions move slower.
10
• A small volume of sample is moved into one end of the capillary. The
capillary passes through a detector, usually a UV absorbance detector, at the
opposite end of the capillary.
• Application of a voltage causes movement of sample ions towards their
appropriate electrode usually passing through the detector.
• A plot of detector response with time is generated which is termed an
electropherogram.
11
12
Immuno electrophoresisImmuno electrophoresis
 Antibodies are produced by immune system in response to foreign
macromolecules. Each antibody binds specifically to one feature(epitope) on
one macromolecule(antigen).This allows the use of antibodies for detection
and quantitation of specific proteins in a complex mixture.
 When Electrical potential is applied to study of antigen-antibody
reactions, it is called Immuno-electrophoresis. The antibody are
electrophoretically separated and antigens diffuse towards each other
resulting in precipitin arcs where antigen antibody complexes form. This
technique has been referred to as immunoelectrophoresis.
 Antibody is placed in trough cut parallel to the direction of the
electrophoresis.
13
Immuno electrophoresisImmuno electrophoresis
 Run the electrophoresis as a result precipitin arcs will be formed due
to Ag-Ab complex formation.
 A fluid containing proteins antigens is placed in a well in a thick layer of
buffered agar and an electric current is applied, antigens will be distributed
in separate spots along a line passing through the well and parallel to the
direction of current flow.
It is usually carried out in 2% agar gel medium.
The antigen mixture is applied into a small circular wells cut out of agar
and the initial electrophoretic separation is carrried out depending on their
charge and molecular weight.
After the initial separation; the antibody mixture is then introduced into a
narrow slot in the gel about 0.5 to 1.0 cm from the separated antigens.
During this period , the antigen components diffuse radially outwards,
towards the diffusing antibody and precipitation takes place in elliptical
arcs as related antigens and antibodies diffuse into one another.
14
METHODMETHOD
15
ADVANTAGES:ADVANTAGES:
•Spreading of bands is minimized due to the application of the
applied field and the pH gradient, high resolution can be achieved.
DISADVANTAGES:DISADVANTAGES:
•Carrier ampholytes generally are used in relatively high
concentration , a high voltage power source ( up to 2000V) is
necessary and power is in the vicinity of 2 to 50 W.As a result the
electrophoretic matrix must be cooled.
APPLICATION:APPLICATION:
•Mainly used for separating protein and peptides.
•Used in clinical, forensic and human genetics laboratories for the
separation and identification of serum protein in research in
enzymology, membrane biochemistry, microbiology and
immunology.
16
ISOELECTRIC FOCSINGISOELECTRIC FOCSING
PRINCIPLE:PRINCIPLE:
All proteins have an isoelectric point pH .
When electrophoresis is run in a solution buffered at constant pH , proteins
having a net charge will migrate towards the opposite electrode so long as the
current flows.
The use of pH gradient across the supporting medium causes each protein to
migrate to an area of specific pH.The pH of the protein equals the pH of the
gradient, thus resulting in sharp well defined protein bands.
A procedure to determine the isoelectric point (PI) of proteins thus, a
mixture of proteins can be electrophorised through a solution having a
stable pH gradient in from the anode to the cathode and a each protein
will migrate to the position in the pH gradient according to its
isoelectric point. This is called isoelectric focusing.
17
Contd…Contd…
 Protein migrate into the point where its net charge is zero – isoelectric pH.
 Protein is positively charged in solutions at pH below its PI and will migrate
towards the cathode.
 Protein is negatively charged in solution at pH above its PI will migrate towards
the anode.
 They will be in the Zwitter ion form with no net charge so the further movement
will cease.
 Ampholytes (amphoteric electrolytes)- low molecular mass (600-900D)
oligomers with aliphatic amino and carboxylic acid groups with a range of
isoelectric points. Ampholytes help maintain the pH gradient in the presence of
high voltage.
 Can also use gels with immobilized pH gradients - made of acrylamide
derivatives that are covalently linked to ampholytes.
METHODMETHOD
•pH gradient is established in gel by addition of ampholytes which increases the pH from
anode to cathode.
•A protein mixture is placed in a well on the gel.
•With an applied electric field, proteins enter the gel migrates until each reaches its pH
equivalent to its (PI).
•Each species of proteins is thereby focussed into a narrow band about its PI.
•The Anode of the column is connected to a reservoir containing an acidic solution like
phosphoric acid and Cathode is connected to a reservoir containing alkaline solution like
sodium hydroxide.
•On opening the two reservoir valves the two solutions are allowed to diffuse into the
column from their respective ends , setting up a PH gradient between the acidic anode
and the alkaline cathode.
18
Ampholytes
polyacrylamide
Cathode (-)
electrode
solution
Anode (+)
electrode
solution
19
• The valves are then closed and the current is switched on , causing
the carrier ampholytes to migrate until they reach the PH regions
where they have no net charge. They will then remain stationary at
these points.
20
ADVANTAGES:ADVANTAGES:
1) As spreading of bands is minimized due to application of the applied field and
the PH gradient , high resolution can be achieved.
2) Proteins that differ by as little as 0.001 PH units can be separated.
DISADVANTAGES:DISADVANTAGES:
1) Because carrier ampholytes are generally used in high concentration, a high
voltage (upto 2000v ) is necessary . As a result the electrophoretic matrix must
be cooled which sometimes makes it difficult.
APPLICATIONS:APPLICATIONS:
1) For separating proteins and peptides.
2) For research in enzymology , immunology, cytology and taxonomy.
21
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Other electrophoresis

  • 1. TapeshwarYadav (Lecturer) BMLT, DNHE, M.Sc. Medical Biochemistry Other Electrophoresis
  • 2. 2 Cellulose Acetate ElectrophoresisCellulose Acetate Electrophoresis It contains 2-3 acetyl groups per glucose unit and its adsorption capacity is less than that of paper. It gives sharper bands. Provides a good background for staining glycoproteins. ADVANTAGE:ADVANTAGE: No tailing of proteins or hydrophilic materials. Available in wide range of particle size and layer thickness. Give sharp bands and offer good resolution. High voltage can be applied which will enhance the resolution.
  • 3. 3 Contd…Contd… DISADVANTAGE:DISADVANTAGE: Expensive. Presence of sulphonic and carboxylic residue causes induced electro-osmosis during electrophoresis. APPLICATION:APPLICATION: Widely used in analysis of clinical and biological protein samples (albumin and globulins). Alternative to paper electrophoresis.
  • 4. 4 Moving Boundary ElectrophoresisMoving Boundary Electrophoresis PRINCIPLE:PRINCIPLE: The moving boundary method allows the charged species to migrate in a free moving solution without the supporting medium. INSTRUMENTATION:INSTRUMENTATION: oConsists of a U shaped glass cell of rectangular cross section, with electrodes placed on the one each of the limbs of the cell. oSample solution is introduced at the bottom or through the side arm, and the apparatus is placed in a constant temp. bath at 40o C. oDetection is done by measuring refractive index throughout the solution.(Schlieren optical system).
  • 5. 5 ADVANTAGES:ADVANTAGES: Biologically active fractions can be recovered without the use of denaturing agents. A reference method for measuring electrophoretic mobilities. Minute concentrations of the sample can be detected.(0.05mg/ml by Interferometric optical system). DISADVANTAGES:DISADVANTAGES: Costlier. Elaborate optical system are required. APPLICATION:APPLICATION: To study homogenecity of a macromolecular system. Analysis of complex biological mixtures.
  • 6. 6 Capillary ElectrophoresisCapillary Electrophoresis • The principle behind electrophoresis is that charged molecules will migrate toward the opposite pole and separate from each other based on physical characteristics. • Capillary electrophoresis has grown to become a collection of a range of separation techniques which involve the application of high voltages across buffer filled capillaries to achieve separations • Capillary electrophoresis, then, is the technique of performing electrophoresis in buffer-filled, narrow-bore capillaries, normally from 25 to 100 mm in internal diameter (ID). • A high voltage (typically 10-30 kV) is applied.
  • 7. 7 Contd…Contd… • Capillaries are typically of 50 µm inner diameter and 0.5 to 1 m in length. • Due to electroosmotic flow, all sample components migrate towards the negative electrode. • The capillary can also be filled with a gel, which eliminates the electroosmotic flow. Separation is accomplished as in conventional gel electrophoresis but the capillary allows higher resolution, greater sensitivity, and on-line detection. • The capillary is filled with electrolyte solution which conducts current through the inside of the capillary. The ends of the capillary are dipped into reservoirs filled with the electrolyte. • Electrodes (platinum) are inserted into the electrolyte reservoirs to complete the electrical circuit.
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  • 9. 9 Sample application is done by either: a)High voltage injection-potential is applied causing the sample to enter capillary by combination of ionic attraction and electroosmotic flow. b)Pressure injection-pressure difference is used to drive the sample into capillary by applying vaccum. •When PD is applied net migration occurs in the direction of cathode. •Even substance with net negative charge migrate in the direction of cathode due to the phenomenon called as Electro Osmotic Flow. •Neutral molecule moves at the same speed as the EOF. Positively charged species move faster, speed is sum of EOF and Electrophoretic mobility. Negatively charged molecules lag behind.
  • 10. ELECTROOSMOTIC FLOWELECTROOSMOTIC FLOW The surface of the silicate glass capillary contains negatively-charged functional groups that attract positively-charged counter ions. The positively-charged ions migrate towards the negative electrode and carry solvent molecules in the same direction. This overall solvent movement is called electroosmotic flow. During a separation, uncharged molecules move at the same velocity as the electroosmotic flow (with very little separation). Positively-charged ions move faster and negatively-charged ions move slower. 10
  • 11. • A small volume of sample is moved into one end of the capillary. The capillary passes through a detector, usually a UV absorbance detector, at the opposite end of the capillary. • Application of a voltage causes movement of sample ions towards their appropriate electrode usually passing through the detector. • A plot of detector response with time is generated which is termed an electropherogram. 11
  • 12. 12 Immuno electrophoresisImmuno electrophoresis  Antibodies are produced by immune system in response to foreign macromolecules. Each antibody binds specifically to one feature(epitope) on one macromolecule(antigen).This allows the use of antibodies for detection and quantitation of specific proteins in a complex mixture.  When Electrical potential is applied to study of antigen-antibody reactions, it is called Immuno-electrophoresis. The antibody are electrophoretically separated and antigens diffuse towards each other resulting in precipitin arcs where antigen antibody complexes form. This technique has been referred to as immunoelectrophoresis.  Antibody is placed in trough cut parallel to the direction of the electrophoresis.
  • 13. 13 Immuno electrophoresisImmuno electrophoresis  Run the electrophoresis as a result precipitin arcs will be formed due to Ag-Ab complex formation.  A fluid containing proteins antigens is placed in a well in a thick layer of buffered agar and an electric current is applied, antigens will be distributed in separate spots along a line passing through the well and parallel to the direction of current flow.
  • 14. It is usually carried out in 2% agar gel medium. The antigen mixture is applied into a small circular wells cut out of agar and the initial electrophoretic separation is carrried out depending on their charge and molecular weight. After the initial separation; the antibody mixture is then introduced into a narrow slot in the gel about 0.5 to 1.0 cm from the separated antigens. During this period , the antigen components diffuse radially outwards, towards the diffusing antibody and precipitation takes place in elliptical arcs as related antigens and antibodies diffuse into one another. 14 METHODMETHOD
  • 15. 15 ADVANTAGES:ADVANTAGES: •Spreading of bands is minimized due to the application of the applied field and the pH gradient, high resolution can be achieved. DISADVANTAGES:DISADVANTAGES: •Carrier ampholytes generally are used in relatively high concentration , a high voltage power source ( up to 2000V) is necessary and power is in the vicinity of 2 to 50 W.As a result the electrophoretic matrix must be cooled. APPLICATION:APPLICATION: •Mainly used for separating protein and peptides. •Used in clinical, forensic and human genetics laboratories for the separation and identification of serum protein in research in enzymology, membrane biochemistry, microbiology and immunology.
  • 16. 16 ISOELECTRIC FOCSINGISOELECTRIC FOCSING PRINCIPLE:PRINCIPLE: All proteins have an isoelectric point pH . When electrophoresis is run in a solution buffered at constant pH , proteins having a net charge will migrate towards the opposite electrode so long as the current flows. The use of pH gradient across the supporting medium causes each protein to migrate to an area of specific pH.The pH of the protein equals the pH of the gradient, thus resulting in sharp well defined protein bands. A procedure to determine the isoelectric point (PI) of proteins thus, a mixture of proteins can be electrophorised through a solution having a stable pH gradient in from the anode to the cathode and a each protein will migrate to the position in the pH gradient according to its isoelectric point. This is called isoelectric focusing.
  • 17. 17 Contd…Contd…  Protein migrate into the point where its net charge is zero – isoelectric pH.  Protein is positively charged in solutions at pH below its PI and will migrate towards the cathode.  Protein is negatively charged in solution at pH above its PI will migrate towards the anode.  They will be in the Zwitter ion form with no net charge so the further movement will cease.  Ampholytes (amphoteric electrolytes)- low molecular mass (600-900D) oligomers with aliphatic amino and carboxylic acid groups with a range of isoelectric points. Ampholytes help maintain the pH gradient in the presence of high voltage.  Can also use gels with immobilized pH gradients - made of acrylamide derivatives that are covalently linked to ampholytes.
  • 18. METHODMETHOD •pH gradient is established in gel by addition of ampholytes which increases the pH from anode to cathode. •A protein mixture is placed in a well on the gel. •With an applied electric field, proteins enter the gel migrates until each reaches its pH equivalent to its (PI). •Each species of proteins is thereby focussed into a narrow band about its PI. •The Anode of the column is connected to a reservoir containing an acidic solution like phosphoric acid and Cathode is connected to a reservoir containing alkaline solution like sodium hydroxide. •On opening the two reservoir valves the two solutions are allowed to diffuse into the column from their respective ends , setting up a PH gradient between the acidic anode and the alkaline cathode. 18
  • 19. Ampholytes polyacrylamide Cathode (-) electrode solution Anode (+) electrode solution 19 • The valves are then closed and the current is switched on , causing the carrier ampholytes to migrate until they reach the PH regions where they have no net charge. They will then remain stationary at these points.
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  • 21. ADVANTAGES:ADVANTAGES: 1) As spreading of bands is minimized due to application of the applied field and the PH gradient , high resolution can be achieved. 2) Proteins that differ by as little as 0.001 PH units can be separated. DISADVANTAGES:DISADVANTAGES: 1) Because carrier ampholytes are generally used in high concentration, a high voltage (upto 2000v ) is necessary . As a result the electrophoretic matrix must be cooled which sometimes makes it difficult. APPLICATIONS:APPLICATIONS: 1) For separating proteins and peptides. 2) For research in enzymology , immunology, cytology and taxonomy. 21
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