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BLOTTING

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Title: Polymerase Chain Reaction (PCR) Author: azhar Last modified by: ALBARA Created Date: 8/16/2006 12:00:00 AM Document presentation format: On-screen Show (4:3) – PowerPoint PPT presentation

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Title: BLOTTING


1
BLOTTING
  • Dr. Azhar Chishti
  • Department of Medical Biochemistry

2
LECTURE OUTLINES
  1. Southern Blotting
  2. History
  3. Main use
  4. Advantages
  5. Probes
  6. Hybridization
  7. Procedure
  8. Steps
  9. Methods of Transfer
  10. Example of application of SB for the diagnosis of
    diseases (SCA)
  11. Northern Blotting
  12. History
  13. Definition
  14. Basic steps
  15. Applications
  • Western Blotting
  • WB Definition
  • Applications Advantages
  • WB An overview
  • Direction of transfer
  • Factors Affecting Transfer Efficiency
  • WB procedure, briefly
  • WB Detection methods
  • Examples of used substrates
  • WB procedure, illustrated
  • Comparison between SB WB (Similarities
    Differences)

3
OBJECTIVES
  • To understand the basic concept of blotting
    techniques (Southern, northern, western)
  • To know the main applications and advantages of
    each of the main types of blotting techniques
  • To be familiar with the steps (in brief) for
    performing a blotting procedure
  • To understand the major similarities
    differences between different blotting techniques
  • To be introduced to an example of applying a
    blotting technique in diagnosis of diseases (SCA)

4
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5
BLOTTING
1. SOUTHERN BLOT 2. NORTHERN BLOT 3.
WESTERN BLOT
6
Blotting History
  • Southern Blotting is named after its inventor,
    the British biologist Edwin Southern (1975)
  • Other blotting methods (i.e. western blot, WB,
    northern blot, NB) that employ similar
    principles, but using protein or RNA, have later
    been named in reference to Edwin Southern's name.

7
SOUTHERN BLOTTING ?
  • Experimental procedure
  • DNA is extracted from cells, leukocytes.
  • DNA is cleaved into many fragments by
    restriction enzyme (BamH1, EcoR1 etc)

8
  • The resulting fragments are separated on the
    basis of size by electrophoresis.
  • The large fragments move more slowly than the
    smaller fragments.
  • The lengths of the fragments are compared with
    band of relative standard fragments of known
    size.

9
  • The DNA fragments are denatured and transferred
    to nitrocellulose membrane (NYTRAN) for analysis.
  • DNA represents the individual's entire genome,
    the enzymic digest contains a million or more
    fragments.
  • The gene of interest is on only one of these
    pieces of DNA.

10
  • DNA segments were visualized by a nonspecific
    technique, they would appear as an unresolved
    blur of overlapping bands.
  • To avoid this, the last step in Southern blotting
    uses a probe to identify the DNA fragments of
    interest.

11
  • Southern blot analysis depend on the specific
    restriction endonuclease
  • The probe used to visualize the restriction
    fragments.

12
Probes
  • Labeled material to detect a target.
  • For DNA 20-30 nucleotides, complementary to a
    region in the gene
  • Methods of labeling
  • Radioactive e.g. 32P
  • Non-radioactive e.g. Biotin
  • Sensitive
  • Relatively cheap
  • Hazardous
  • You should follow the radioactive waste disposal
    regulations.
  • Sensitive
  • Relatively expensive

13
Hybridization
The binding between ss labeled probe to a
complementary nucleotide sequence on the target
DNA. Degree of hybridization depends on method
of probe labeling (radioacitve or non-radioactive
system e.g. biotin-avidin.
14
  • Detection of mutations
  • The presence of a mutation affecting a
    restriction site causes the pattern of bands to
    differ from those seen with a normal gene.
  • A change in one nucleotide may alter the
    nucleotide sequence so that the restriction
    endonuclease fails to recognize and cleave at
    that site
  • (for example, in Figure, person 2 lacks a
    restriction site present in person 1).

15
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16
1- DNA extraction
6- Detection
2- DNA cleavage (RE)
5- Hybridization e.g. with 32P-labeled probe
3- DNA Electrophoresis (based on size)
-

4- DNA Denature, Transfer, blocking,
17
Steps
  • Digestion of genomic DNA (w/ one RE) ? DNA
    fragments
  • Size-separation of the fragments (standard
    agarose gel electrophoresis)
  • In situ denaturation of the DNA fragments (by
    incubation _at_ ?temp)
  • Transfer of denatured DNA fragments into a solid
    support (nylon or nitrocellulose).
  • Hybridization of the immobilized DNA to a labeled
    probe (DNA, RNA)
  • Detection of the bands complementary to the probe
    (e.g. by autoradiography)
  • Estimation of the size number of the bands
    generated after digestion of the genomic DNA w/
    different RE ? placing the target DNA within a
    context of restriction sites)

18
METHODS OF TRANSFER
Upward Capillary Transfer
Downward Capillary Transfer
Simultaneous Transfer to Two Membranes
Electrophoretic Transfer
Vacuum Transfer
19
Example of TransferUpward Capillary Transfer
Weight
Glass Plate
Paper towels
Whatman 3MM paper
Membrane (nylon or nitrocellulose)
Whatman 3MM paper
Gel
Transfer buffer
20
weight ? tight connection
DNA eluted from the gel by the moving stream of
buffer is deposited onto a membrane
Buffer drawn from a reservoir passes through the
gel into a stack of paper towels
21
Example of Application of SB in diagnosis of
mutation in ? globin gene
22
Example of Application of SB in diagnosis of
mutation in ? globin gene
23
Northern BlottingNorthern Hybridization
A northern blot is a method routinely used in
molecular biology for detection of a specific RNA
sequence in RNA samples.
  • The method was first described in the seventies
    (Alwine et al. 1977, 1979)
  • It is still being improved (Kroczek 1993), with
    the basic steps remaining the same

24
Basis Steps of NB
  • Isolation of intact mRNA
  • Separation of RNA according to size (through a
    denaturing agarose gel e.g. with
    Glyoxal/formamide)
  • Transfer of the RNA to a solid support
  • Fixation of the RNA to the solid matrix
  • Hybridization of the immobilized RNA to probes
    complementary to the sequences of interest
  • Removal of probe molecules that are
    nonspecifically bound to the solid matrix
  • Detection, capture, analysis of an image of the
    specifically bound probe molecules.

25
Applications
  • Study of gene expression in eukaryotic cells
  • To measure the amount size of RNAs transcribed
    from eukaryotic genes
  • To estimate the abundance of RNAs
  • Therefore, it is crucially important to equalize
    the amounts of RNA loaded into lanes of gels

26
Examples of methods to equalize the amounts of
RNA loaded into lanes of gels
  • OD260
  • Use of housekeeping gene (endogenous
    constitutively-expressed gene) Normalizing
    samples according to their content of mRNAs of
    this housekeeping gene

27
Western Blotting Immunoblotting
electrophoretic transfer of proteins from gels
to membranes
28
WB Definition
  • Blotting is the transfer of separated proteins
    from the gel matrix into a membrane, e.g.,
    nitrocellulose membrane, using electro- or
    vacuum-based transfer techniques.

Towbin H, et al (1979). "Electrophoretic transfer
of proteins from polyacrylamide gels to
nitrocellulose sheets procedure and some
applications.". Proc Natl Acad Sci U S A. 76 (9)
43504354
29
Applications Advantages
Applications To determine the molecular weight
of a protein (identification) To measure
relative amounts (quantitation) of the protein
present in complex mixtures of proteins that are
not radiolabeled (unlike immunoprecipitation) Adva
ntages WB is highly sensitive technique As
little as 1-5 ng of an average-sized protein can
be detected by WB
30
  • Western blotting
  • The main steps of blotting technique in a
    chronological order will be as follows
  • Blocking
  • Probing with the specific antibody(ies)
  • Wash
  • Detection
  • Washing
  • X-ray (Gel Documentation System)

31
Electrophoretic Transfer An Overview
Important Issue Where to put the gel and the
membrane relative to the electroblotting transfer
electrodes?
32
Direction of Transfer
  • Perpendicularly from the direction of travel of
    proteins through the separating gel

Gel
Probe with specific Ab
Membrane
33
Factors Affecting Transfer Efficiency
  1. The Composition of the gel
  2. Whether there is complete contact of the gel with
    the membrane
  3. The position of the electrodes
  4. The transfer time
  5. The size composition of proteins
  6. The field strength
  7. The presence of detergents

34
WB Procedure Briefly
1
2
4
3
www.bio.davidson.edu/.../method/Westernblot.html
35
Direct Detection Method
36
Indirect Detection Method
37
WB examples of used substrates
38
Chemiluminescent substrates
39
Enhanced ChemiFluoresenct (ECF) WB Detection
40
Western Blotting Procedure Illustrated
41
Steps of WB
42
Steps of WB
43
Steps of WB
Why to block? To increase sensitivity To prevent
nonspecific signal
44
  • Blocking of Blot
  • Several measures should be followed to decrease
    the nonspecific reactions to a minimum, i.e.,
    increasing the signal to noise ratio.
  • Blocking step is the incubation of the
    membrane with solution containing BSA or
    fat-free milk or casein for a sufficient time
    with shaking.

45
Steps of WB
For Direct Transfer, choices are
46
  • Primary Antibody labeling
  • The immobilized proteins on the surface of the
    membrane can be detected using a specific,
    labeled antibody.
  • Labeling of the antibody can be performed using
    a radioactive or non- radioactive method.

47
  • Primary Antibody probing
  • The blot is first incubated with a primary
    antibody followed by the addition of a labeled
    secondary antibody that has species specificity
    for the primary one.
  • For example, probing of the membrane using
    mouse primary antibody and anti- mouse secondary
    antibody.

48
Steps of WB
49
Steps of WB
50
  • Detection and interpretation
  • A prestained MW standard is included in a
    separate lane during electrophoresis to allow
    the identification of the MW of the target
    protein.
  • Similar to the analysis of electrophoresis
    results on a gel, the data on the membrane can
    be quantitatively analyzed using gel
    documentation system.

51
  • Detection and interpretation (continue)
  • Quantification of a specific protein band can
    be achieved by densitometry and integrating the
    areas under the peaks.
  • Several gel documentation systems are
    commercially available that can be useful for
    analysis of results from the gel or membranes.

52
Comparison between WB SB.
  • Similarities
  • Electrophoretically separated components
    (proteins in WB DNA in SB), are transferred
    from a gel to a solid support and probed with
    reagents that are specific for particular
    sequences of AA (WB) or nucleotides (SB).

53
Comparison between WB SB, Contnd
  • Differences
  • The critical difference between SB WB is the
    nature of the probes

In WB
In SB
Probes usually are Ab(s) that react specifically
with Ag-ic determinants (epitopes) displayed by
the target protein
NA probes hybridize with a specificity rate
that can be predicted by simple equations,
54
References
  • Lippincott, Illustrated review of Biochemistry,
    4th edition
  • Molecular Cloning A Laboratory Manual, J
    Sambrook, EF Fritsch, T Maniatis
  • Catalogues of some commercial companies

55
THANK YOU
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