2. RFLP
Definition
• The variation in the restriction DNA fragment lengths
between individuals of a species is called restriction
fragment length polymorphism (RFLP).
• Laboratory technique to analyze and compare DNAs of
two or more individuals of a species or of different
species.
• Genetic structure of all the individuals of a species is
same, but at DNA level there are so many single base
variations between the individuals due to point mutation.
• If a single base is altered due to mutation restriction
enzymes never cut at the target sites.
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3. HISTORY
• Shortly after Kary Mullis invented the Polymerase Chain
Reaction (PCR) it was realized that short primers would
bind to several locations in a genome and thus could
produce multiple fragments.
• Williams et al. (1990) developed Random Amplified
Polymorphic DNA (RAPD) a technique using very short
10 base primers to generate random fragments from
template DNAs.
• RAPD fragments can be separated and used as genetic
markers or a kind of DNA fingerprint.
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5. The RFLPinvolves the following steps:
Sample collection
Isolation of DNA
Restriction digestion
Electrophoresis
Blotting of DNA
Making genomic DNA probes
Nucleic acid hybridization
Autoradiography
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6. Sample collection
Tissues or cells of individuals are collected to extract their
DNA. The samples are collected separately.
Isolation of DNA
Preparation of cell extract
lysozyme - digestion of polymeric compounds
EDTA - it removes Mg+ in the cell envelope
SDS - removes the lipids of the cell wall.
Purification of DNA
DNA isolation
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7. Restriction digestion
• Genomic DNA of each sample is cut with a restriction
enzyme separately to generate variable lengths of DNA
fragments.
• Restriction enzyme such as E.coR1, Hind ІІІ, Pst1.
• The restriction digestion is divided into two half is used for
DNA detection and the other is used for probe making.
.
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8. Electrophoresis
• The digested genomic DNA of all the samples are loaded into
separate wells in Agarose or Polyacrylamide gel and are
subjected to electrophoresis.
• The DNA fragments get
separated according
to their size by using
molecular weight
markers
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10. • Each sample is electrophoresed to separate the DNA
fragments.
• Fragments of 0.5-2 kb are extracted from the gel and cloned
in pUC21 vector to construct rDNAs.
• These rDNAs are amplified by introducing them into
bacterial host and the amplified rDNAs are reisolated.
• Restriction digestion & electrophoresis.
• Radiolabelling by Nick translation or End labelling
• Genomic probes are formed.
Making genomic DNA probes
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13. RFLPs are considered as the first class genetic markers to
construct high resolution linkage maps of chromosomes.
Used to construct chromosome map of human being, rice,
wheat, maize, and microbes.
Single gene diseases in man, plants and animals can be
identified with RFLP markers.
Monitoring inheritance of agronomic traits
Diagnostic in genetically inherited disease
Pedigree analysis,
Forensic typing - Parentage analysis
Identifying hybrids
Species level relationship
Also in some case at higher level relationship
Applications of RFLP
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14. Advantages
Fingerprinting technique replacing RFLP
Highly polymorphic
High reproducibility
Identify through absent or present of fragment
Characters can be increased by changing the RE and
nucleotide at selective primers
Codominantly inherited.
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15. Disadvantages
Dominant – lose the codominant character
Homology – ability to differentiate different fragment with similar
size
Mutation rate – high homoplasy
– High levels of variation - similarity between two taxa are low, so
both character and distance measures and tree reconstruction
programmes are increasingly inaccurate
– if levels of variation are high - Homoplasy
Scoring - bias
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16. Definition
• The RAPD is a PCR based method to detect variations
between individuals of a species by selective amplification of
some polymorphic sequences in their genomes.
• Developed by J.G.K.Williams et.al. in 1991.
• Only least number of DNA fragments are considered for
RAPD analysis.
• The set of DNAs generated by the random PCR is called
RAPD.
• The RAPDs of one individual is differ from the RAPDs of
other individuals both in number and size of DNA fragments.
RAPD
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17. Components of a PCR and RAPD Reactions
PCR
1. Buffer (containing Mg++)
2. Template DNA
3. 2 Primers that flank the
fragment of DNA to be
amplified
4. dNTPs
5. Taq DNA Polymerase (or
another thermally stable DNA
polymerase)
RAPD
1. Buffer (containing Mg++) -
usually high Mg++
concentrations are used lowering
annealing stringency
2. Template DNA
3. 1 short primer (10 bases) not
known to anneal to any specific part
of the template DNA
4. dNTPs
5. Taq DNA Polymerase (or
another thermally stable DNA
polymerase)
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18. Major steps in RAPD analysis
• Sample collection
• DNA isolation
• PCR
Each genomic DNA is separately treated with Taq DNA
polymerase, a primer, dATP ,dTTP, dGTP, dCTP, and
polymerization buffer.
All these reaction mixture are kept separately in a PCR
equipment.
subjected t o denaturation – 94°c for 1minute
primer annealing -36°c for 2minutes
polymerization – 72°c for 1.5minutes.
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19. • During the primer annealing, the primer molecules get bind with the
polymorphic sequences found here and there throughout the genome by
complimentary base pairing.
RAPD Method
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20. • Provides 3’-OH for synthesis of new strands by polymerase
activity during polymerization reaction.
• As a result of PCR amplification, each tube containing RAPD
fragments.
• DNA fragments has a flanking primer at its 5’ end.
• Electrophoresis.
• Examined under the
UV light illuminator
and photographed.
• Light bands of the
markers shows the
molecular weights
of each individual in
different lanes
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21. Uses of RAPD
• RAPDs are used as genetic markers for constructing genetic maps of
higher organisms.
• Helps to identify genes of high economic value through comparison
of RAPD fragments.
• Distinguishes one individuals from others of a species as
fingerprinting analysis
• Determine specific genes in chromosomes
It has become widely used in the study of
• Genetic diversity/polymorphism,
• Germplasm characterization,
• Genetic structure of populations,
• Domestication,
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22. • Detection of somoclonal variation,
• Cultivar identification,
• Hybrid purity,
• Genome mapping,
• Developing genetic markers linked to a trait in question,
• Population and evolutionary genetics,
• Plant and animal breeding,
• Animal-plant-microbe interactions,
• Pesticide/Herbicide resistance,
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23. Advantages of RAPD
• No need for species specific probes in RAPD
• Probes prepared for one species may also used for other
species
• Quick method
• Can be performed in crude DNA samples also
• Requires only a small amount of samples
• Doesn’t require radioactive probes and hybridization.
• It detects dominant variations in the genome
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24. Disadvantages
• Profiling is dependent on the reaction conditions
• Profiles are not able to distinguish heterozygous from
homozygous individuals- dominant marker
• Lack of a prior knowledge on the identity of the amplification
products.
• Problems with reproducibility (sensitive to changes in the
quality of DNA, PCR components and PCR conditions).
• Problems of co-migration (do equal-sized bands correspond to
the same homologous DNA fragment). Gel electrophoresis can
separate DNA quantitatively, cannot separate equal-sized
fragments qualitatively (i.e. according to base sequence).
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25. References
• N.Senthikumar & G.Gurusubramanian, Random amplified
polymorphic DNA (RAPD) markers and its applications 2011,
www.sciencevision.in
• Timothy G. Standish, Ph. D. , Random Amplified Polymorphic
DNA , (ppt).
• M.O. Dayhoff and R.V. ECK, Molecular techniques,(ppt).
• Biotechnology, V.Kumaresan, Saras publications.
• Biotechnology, U.Sathyanarayana.
• Gene Biotechnology, S.Jogdand.
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