Maxam–Gilbert sequencing
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Nov 22, 2016
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About This Presentation
Maxam–Gilbert sequencing
Slide Content
Obydulla
Department of Pharmacy
Daffodil International University
[email protected]
131-29-500
Department of Pharmacy
Daffodil International University
[email protected]
131-29-500
The process of determining the order of bases adenine
(A), thymine (T), cytosine (C), and guanine (G) along a
DNA strand.
All the information required for the growth and
development of an organism is encoded in the DNA of
its genome.
So, DNA sequencing is fundamental to genome analysis
and understanding the biological processes in general.
DNA Sequencing
The process of determining the order of bases adenine
(A), thymine (T), cytosine (C), and guanine (G) along a
DNA strand.
All the information required for the growth and
development of an organism is encoded in the DNA of
its genome.
So, DNA sequencing is fundamental to genome analysis
and understanding the biological processes in general.
DNA Sequencing
Two most popular DNA sequencing method
available.
Maxam–Gilbert sequencing method
Sanger sequencing method
Types
Two most popular DNA sequencing method
available.
Maxam–Gilbert sequencing method
Sanger sequencing method
Types
Maxam–Gilbert sequencing is a method of DNA
sequencing developed by Allan Maxam and Walter
Gilbert in 1976–1977.
This method is based on nucleobase-specific partial
chemical modification of DNA and
subsequent cleavage of the DNA backbone at sites
adjacent to the modified nucleotides.
Maxam–Gilbert sequencing
Maxam–Gilbert sequencing is a method of DNA
sequencing developed by Allan Maxam and Walter
Gilbert in 1976–1977.
This method is based on nucleobase-specific partial
chemical modification of DNA and
subsequent cleavage of the DNA backbone at sites
adjacent to the modified nucleotides.
Maxam–Gilbert sequencing
Denature a double-stranded DNA to single-stranded by increasing
temperature.
Radioactively label one 5' end of the DNA fragment to be sequenced by a
kinase reaction using gamma-
32
P.
Cleave DNA strand at specific positions using chemical reactions.
For example, we can use one of two chemicals followed by piperdine.
Dimethyl sulphate selectively attacks purine (A and G), while hydrazine
selectively attacks pyrimidines (C and T). The chemical treatments
outlined in Maxam-Gilbert's paper cleaved at G, A+G, C and C+T. A+G
means that it cleaves at A, but occasionally at G as well.
Now in four reaction tubes, we will have several differently sized DNA
strands.
Procedure
Denature a double-stranded DNA to single-stranded by increasing
temperature.
Radioactively label one 5' end of the DNA fragment to be sequenced by a
kinase reaction using gamma-
32
P.
Cleave DNA strand at specific positions using chemical reactions.
For example, we can use one of two chemicals followed by piperdine.
Dimethyl sulphate selectively attacks purine (A and G), while hydrazine
selectively attacks pyrimidines (C and T). The chemical treatments
outlined in Maxam-Gilbert's paper cleaved at G, A+G, C and C+T. A+G
means that it cleaves at A, but occasionally at G as well.
Now in four reaction tubes, we will have several differently sized DNA
strands.
Procedure
A method used in research laboratories for separating
molecules according to their size and electrical charge.
An electric current is passed through a medium that contains
the mixture of molecules.
Each kind of molecule travels through the medium at a
different rate, depending on its electrical charge and
molecular size. Smaller molecule goes faster.
Separation of the molecules occurs based on these differences.
Electrophoresis
A method used in research laboratories for separating
molecules according to their size and electrical charge.
An electric current is passed through a medium that contains
the mixture of molecules.
Each kind of molecule travels through the medium at a
different rate, depending on its electrical charge and
molecular size. Smaller molecule goes faster.
Separation of the molecules occurs based on these differences.
Electrophoresis
Fragments are electrophoresed (migrate) in acrylamide gels
for size separation.
These gels are placed under X-ray film, which then yields a
series of dark bands which show the location of radiolabeled
DNA molecules.
The fragments are ordered by size and so we can deduce the
sequence of the DNA molecule
Electrophoresis
Fragments are electrophoresed (migrate) in acrylamide gels
for size separation.
These gels are placed under X-ray film, which then yields a
series of dark bands which show the location of radiolabeled
DNA molecules.
The fragments are ordered by size and so we can deduce the
sequence of the DNA molecule
Electrophoresis
Advantages
No premature termination due to DNA sequencing. So, no problem with
polymerase to synthesize DNA.
Stretches of DNA can be sequenced which can not be done with enzymatic
method.
Purified DNA can be read directly,
Homopolymeric DNA runs are sequenced as efficiently as heterogeneous
DNA sequences,
Can be used to analyze DNA-protein interactions (i.E., Footprinting),
Can be used to analyze nucleic acid structure and epigenetic modifications
to DNA
Advantages
No premature termination due to DNA sequencing. So, no problem with
polymerase to synthesize DNA.
Stretches of DNA can be sequenced which can not be done with enzymatic
method.
Purified DNA can be read directly,
Homopolymeric DNA runs are sequenced as efficiently as heterogeneous
DNA sequences,
Can be used to analyze DNA-protein interactions (i.E., Footprinting),
Can be used to analyze nucleic acid structure and epigenetic modifications
to DNA
Not widely used.
Use of radioactivity and toxic chemicals
It requires extensive use of hazardous chemicals
It has a relatively complex set-up/technical complexity
It is difficult to "scale-up", and cannot be used to analyze more than 500
base pairs
The read-length decreases from incomplete cleavage reactions, and
It is difficult to make Maxam-Gilbert sequencing based DNA kits
Disadvantages
Not widely used.
Use of radioactivity and toxic chemicals
It requires extensive use of hazardous chemicals
It has a relatively complex set-up/technical complexity
It is difficult to "scale-up", and cannot be used to analyze more than 500
base pairs
The read-length decreases from incomplete cleavage reactions, and
It is difficult to make Maxam-Gilbert sequencing based DNA kits
Disadvantages
Gel electrophoresis is limited to 700-900 bp, with 400-500 bp
more commonly attained
The first 15-40 bp are often difficult to interpret
Sequencing techniques based on slab gel electrophoresis
require cumbersome gels, buffers, time spent loading and
running the gels, autoradiography and analysis; all lower the
amount of DNA that can be sequenced
To overcome the limitations of slab gel electrophoresis and the
manual reading of DNA sequences, other innovations were
introduced.
Limitations
Gel electrophoresis is limited to 700-900 bp, with 400-500 bp
more commonly attained
The first 15-40 bp are often difficult to interpret
Sequencing techniques based on slab gel electrophoresis
require cumbersome gels, buffers, time spent loading and
running the gels, autoradiography and analysis; all lower the
amount of DNA that can be sequenced
To overcome the limitations of slab gel electrophoresis and the
manual reading of DNA sequences, other innovations were
introduced.
Limitations
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