Post on 01-Jun-2015
ELECTROPHORESIS- Part 3 1.Capillary Electrophoresis
2.Isoelectric Foccusing
Dr.Rittu ChandelJunior Resident (3rd Yr),MD Biochemistry
Grant Government Medical College, Mumbai -40000807-08-2014
Dr.Rittu Chandel 2
CAPILLARY ELECTROPHORESIS
• High Performance Capillary Electrophoresis/ Capillary Zone Electrophoresis/ Free Solution Capillary Electrophoresis
• Microlitres of reagent used• Nanolitres of sample required
• Online detection to femtomole sensitivity• Ease of automation• Less time consuming
Dr.Rittu Chandel 3
CAPILLARY ELECTRPHORESIS
Capillary made of Fused silica, thin exterior covering of polyimide
Inner diameter – 10-100 μm
Outer diameter- 300 μm
Length – 50-100 cm
Voltage - 10-50 KV
Large surface to volume ratio, provides enhanced heat dissipation
This eliminates zone broadening and convection
Anode+
Cathode-
Detector
The interior wall of the capillary contains charged sites that are created by the ionization of Silanol ( Si-OH) groups on the fused silica.
Dr.Rittu Chandel 5
CAPILLARY ELECTROPHORESIS
Dr.Rittu Chandel 6
SAMPLE INJECTION
• High Voltage Injection/Electrokinetic Injection
• High Pressure Injection/Hydrodynamic injection
This is where the Electroosmotic flow
What happens to the + cations when we turn on the power?
Analytes with a net positive charge will move faster than EOF
EOF
Analytes with no net charge will move at the same speed as the EOF.(This is a useful tool that helps us to measure the EOF.)
EOF
Analytes with a net negative charge will move slower than EOF
EOF
Dr.Rittu Chandel 9
pH, Silanol Population, and the rate of EOF flow.
02468101214161820
2 5 8 11
EOF
• At very low pH, not many silanols are ionized and the EOF is slow.
• As pH increases the number of ionized sites also increases. The EOF speed rises steadily.
• At very high pH values, a maximum number of ionized sites is reached. The EOF speed also reaches a maximum.
Dr.Rittu Chandel 11
Dr.Rittu Chandel 12
Dr.Rittu Chandel 13
APPLICATIONS
• Separation of
1.Amino acids
2.Peptides
3.Proteins
4.DNA fragments
5.Nucleic Acids
6.Vitamins
7.Porphyrins
8.Carbohydrates
Isoelectric point (pI): Isoelectric point is the pH of a solution at which the net charge of protein is
zero. In electrophoresis there is no motion of the particles in an electric
field at the isoelectric point.
Net
cha
rge
-3
-2
-1
0
1
2
3
2 3 4 5 6 7 8 9 10 11
pH
Isoelectric point
NH3+
COOH
NH3+
COOH
pH < pIPositive charge
NH3+
COO-
NH3+
COO-
pH = pI
NH2
COO-
NH2
COO-
pH > pINegative charge
Dr.Rittu Chandel 15
ISOELECTRIC FOCUSSING
• Immobilization of molecules at isoelectric pH during electrophoresis
• Very high resolution technique for protein
• Creation of pH gradient- low molecular mass (600-900 D) oligomers bearing aliphatic amino acids and carboxylic acid groups
Traditional Equipment for Isoelectric focusing (IEF):
Ampholytespolyacrylamide
Cathode (-) electrode solution
Anode (+) electrode solution
Dr.Rittu Chandel 17
Stable pH gradient
Dr.Rittu Chandel 18
Dr.Rittu Chandel 19
PREPARATION OF IEF GEL
Dr.Rittu Chandel 24
Dr.Rittu Chandel 25
IMMOBILIZED pH Gradient Strip
IPGphor (IEF System)Amersham Pharmacia Biotech Inc.
Protein IEF CellBio-Rad Laboratories
Equipment for Isoelectric focusing (IEF):
Dr.Rittu Chandel 27
APPLICATIONS
• 2D gel electrophoresis• Phenotyping of α1 antitrypsin• Genetic variants of enzymes, hemoglobin, other
proteins• Separating isoenzymes- Creatine Kinase,Alkaline
Phospatase, Acid Phosphatase• In forensic science• Oligoclonal Ig band in CSF
Dr.Rittu Chandel 28
THANK YOU