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A. Modes of separation capillary electrophoresis 1. Capillary Zone electrophoresis 2.Capillary iso-electric focusing 3. Micellar electrokinetic Capillary chromatography 4. Capillary electrochromatography 5. Capillary gel electrophoresis B. Electrophoresis for Bio-Applications DNA, RNA, and protein

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Page 1: B. Electrophoresis for Bio-Applications · 2019-08-14 · Microsoft PowerPoint - Lecture30-2015 [Compatibility Mode] Author: Yunwei Charles Cao Created Date: 3/15/2015 9:32:00 PM

A. Modes of separation capillary electrophoresis

1. Capillary Zone electrophoresis

2.Capillary iso-electric focusing3. Micellar electrokinetic Capillary chromatography

4. Capillary electrochromatography

5. Capillary gel electrophoresis

B. Electrophoresis for Bio-ApplicationsDNA, RNA, and protein

Page 2: B. Electrophoresis for Bio-Applications · 2019-08-14 · Microsoft PowerPoint - Lecture30-2015 [Compatibility Mode] Author: Yunwei Charles Cao Created Date: 3/15/2015 9:32:00 PM

Capillary iso-electric focusing

In this case, the electroosmotic force is weaker than elctrophoretic force.

OHNH3

O

+

ONH3

O

+

pH pH

iso-electriczwitterionic

Page 3: B. Electrophoresis for Bio-Applications · 2019-08-14 · Microsoft PowerPoint - Lecture30-2015 [Compatibility Mode] Author: Yunwei Charles Cao Created Date: 3/15/2015 9:32:00 PM

Micellar electrokinetic Capillary chromatography

Separation of neutral solute

Psuedo-stationary phase

Advantage: easy to apply

Disadvantage: less selectivity

Page 4: B. Electrophoresis for Bio-Applications · 2019-08-14 · Microsoft PowerPoint - Lecture30-2015 [Compatibility Mode] Author: Yunwei Charles Cao Created Date: 3/15/2015 9:32:00 PM

Capillary electrochromatographyCapillary electrochromatography is an electroosmotically driven liquid chromatographic technique.

Capillary electrochromatography:

Capillary electrophoresis:

Stationary phase Mobile phaseyes yes

yesno

Capillary electrochromatography:

Capillary electrophoresis:

Charged solutes Neutral solutesyes yes

yes no

Page 5: B. Electrophoresis for Bio-Applications · 2019-08-14 · Microsoft PowerPoint - Lecture30-2015 [Compatibility Mode] Author: Yunwei Charles Cao Created Date: 3/15/2015 9:32:00 PM

Capillary Electrochromatography: analysis of polycyclic aromatic hydrocarbones

Stationary phase: 90% 3-m octyldecyl-silica particles; 10% 1-m silicaPartition stationary phase Stabilization of

Electroosmotic flow

Mobile phase: mixture of acetonitrile and 4mM soldium tetraborate solution

R. N. Zare, et al., Anal. Chem. 1995, 67, 2026

Page 6: B. Electrophoresis for Bio-Applications · 2019-08-14 · Microsoft PowerPoint - Lecture30-2015 [Compatibility Mode] Author: Yunwei Charles Cao Created Date: 3/15/2015 9:32:00 PM

Capillary Electrochromatography: analysis of polycyclic aromatic hydrocarbones

R. N. Zare, et al Anal. Chem. 1995, 67, 2026N = 5.44 (tR/wh)2 = 16 (tR/wb)2

Page 7: B. Electrophoresis for Bio-Applications · 2019-08-14 · Microsoft PowerPoint - Lecture30-2015 [Compatibility Mode] Author: Yunwei Charles Cao Created Date: 3/15/2015 9:32:00 PM

5. Capillary gel electrophoresis

-+ -+Gel

a. Blocking the solute diffusion caused by Joule heating b. Size of the channels in the gel gives further selection (entropy effect)

B. Electrophoresis for Bio-ApplicationsSeparation of DNA, RNA, and protein

-+

Gel electrophoresis

-+

Capillary gel electrophoresis

Electroosmosis can play a significant role in capillary gel electrophoretic separation, but not in gel electrophoretic separation.Both techniques separate solutes by their eletrophoretic mobility.

- - - - - - - - - - - - - - -- - - - - - - - - - - - - - -

- - - - - - - - - - - - - - -- - - - - - - - - - - - - - -

- - - - - - - - - - - - - - -- - - - - - - - - - - - - - -

Page 8: B. Electrophoresis for Bio-Applications · 2019-08-14 · Microsoft PowerPoint - Lecture30-2015 [Compatibility Mode] Author: Yunwei Charles Cao Created Date: 3/15/2015 9:32:00 PM

Separation of DNA and RNA

L1

Page 9: B. Electrophoresis for Bio-Applications · 2019-08-14 · Microsoft PowerPoint - Lecture30-2015 [Compatibility Mode] Author: Yunwei Charles Cao Created Date: 3/15/2015 9:32:00 PM

Separation of Protein

Size effect and electrophoretic mobility

Page 10: B. Electrophoresis for Bio-Applications · 2019-08-14 · Microsoft PowerPoint - Lecture30-2015 [Compatibility Mode] Author: Yunwei Charles Cao Created Date: 3/15/2015 9:32:00 PM

Further applications-- an example: DNA sequencing

Polymerizable Chain Reaction (PCR)

Polymerase Chain Reaction (PCR)

Page 11: B. Electrophoresis for Bio-Applications · 2019-08-14 · Microsoft PowerPoint - Lecture30-2015 [Compatibility Mode] Author: Yunwei Charles Cao Created Date: 3/15/2015 9:32:00 PM

A T G C

Electrophoresis

One-mer difference

Page 12: B. Electrophoresis for Bio-Applications · 2019-08-14 · Microsoft PowerPoint - Lecture30-2015 [Compatibility Mode] Author: Yunwei Charles Cao Created Date: 3/15/2015 9:32:00 PM

Automatic DNA Sequencing

One –lane: capillary electrophoresis

G, T, G, and C terminators are labeled by fore different dyes respectively.

Page 13: B. Electrophoresis for Bio-Applications · 2019-08-14 · Microsoft PowerPoint - Lecture30-2015 [Compatibility Mode] Author: Yunwei Charles Cao Created Date: 3/15/2015 9:32:00 PM

ElectrophoresisElectrophoretic mobility Capillary electrophoresisElectroosmosis and Electroosmotic flowApparent MobilitySeparation Efficiency

A.Important Concepts:

Driving force

Separation

B. Modes of separation capillary electrophoresis1. Capillary Zone electrophoresis

2.Capillary iso-electric focusing3. Micellar electrokinetic Capillary chromatography

4. Capillary electrochromatography

5. Capillary gel electrophoresis

C. Bio-Applications

Page 14: B. Electrophoresis for Bio-Applications · 2019-08-14 · Microsoft PowerPoint - Lecture30-2015 [Compatibility Mode] Author: Yunwei Charles Cao Created Date: 3/15/2015 9:32:00 PM

1. Introduction: Fundamentals of Distribution Equilibrium

2. Gas Chromatography (Chapter 2 & 3)

3. Liquid Chromatography (Chapter 4 & 5)

4. Other Analytical Separations (Chapter 6-8)

a. Planar chromatography

b. Supercritical fluid chromatography

c. Electrophoresis

d. Centrifugation

e. Field Flow Fractionation

Separation Sciences

Page 15: B. Electrophoresis for Bio-Applications · 2019-08-14 · Microsoft PowerPoint - Lecture30-2015 [Compatibility Mode] Author: Yunwei Charles Cao Created Date: 3/15/2015 9:32:00 PM

Homework III (b)

1. What is electrophoresis and electroosmosis?

2. Explain how neutral molecules can be separated by micellar Electrokinetic capillary chromatography.

3. Compare HPLC and Capillary electrochromatography.

5. The observed behavior of benzyl alcohol (C6H5CH2OH) in capillary electrophoresis is given below. Explain what happens as voltage is increased.

4. Compare capillary gel electrophoresis and gel electrophoresis.

Electric field (V/m) Number of plates6400 3800012700 7800019000 96000 25500 12400031700 12400038000 96000