Genetic fingerprinting Flashcards
What are variable number tandem repeats (VNTRs)?
Repeating sequences of nucleotides / bases (eg. GATA)
● Found within non-coding sections of DNA at many sites throughout an organism’s genome
Why are VNTRs useful in genetic fingerprinting?
● Probability of two individuals having the same VNTRs is very low
● As an organism’s genome contains many VNTRs and lengths at each loci differ between individuals
Explain how genetic fingerprinting can be used to analyse DNA fragments
Extract DNA from sample (eg. blood cells) and amplify by PCR
Cut DNA at specific base sequences / recognition sites (either side of VNTRs) using restriction enzymes
Separate VNTR fragments according to length using gel electrophoresis (shorter ones travel further)
Transfer to a nylon membrane and treat to form single strands with exposed bases
Add labelled DNA probes which hybridise / bind with complementary VNTRs (& wash to remove
unbound probe)
To show bound probe, expose membrane to UV light if a fluorescently labelled probe was used
OR use autoradiography (expose to X-ray film) if a radioactive probe was used
Explain how genetic fingerprinting can be used to analyse DNA fragments
Extract DNA from sample (eg. blood cells) and amplify by PCR
Cut DNA at specific base sequences / recognition sites (either side of VNTRs) using restriction enzymes
Separate VNTR fragments according to length using gel electrophoresis (shorter ones travel further)
Transfer to a nylon membrane and treat to form single strands with exposed bases
Add labelled DNA probes which hybridise / bind with complementary VNTRs (& wash to remove
unbound probe)
To show bound probe, expose membrane to UV light if a fluorescently labelled probe was used
OR use autoradiography (expose to X-ray film) if a radioactive probe was used
Compare and contrast genetic fingerprinting with genetic screenin
● Both use PCR to amplify DNA sample
● Both use electrophoresis to separate DNA fragments
● Both use labelled DNA probes to visualise specific DNA fragments
● Genetic fingerprinting analyses VNTRs whereas genetic screening analyses specific alleles of a gene
●
Explain how genetic fingerprinting can be used to determine genetic
relationships
● More closely related organisms have more similar VNTRs, so more similarities in genetic fingerprints
● Paternity testing- father should share around 50% of VNTRs / bands with child (due to inheritance)
Explain how genetic fingerprinting can be used to determine genetic
variability within a population
Differences in VNTRs arise from mutations, so more differences show greater diversity within a population
Differences in VNTRs arise from mutations, so more differences show greater diversity within a population
Forensic
science:
● Compare genetic fingerprint of suspects to genetic fingerprint of DNA at crime scene
● If many bands match, the suspect was likely present at the crime scene
Medical diagnosis:
● Some VNTR patterns are associated with an increased risk of certain genetic
disorders eg. Huntington’s
Animal and plant breeding:
● Shows how closely related 2 individuals are, so that inbreeding can be avoided
● Breed pairs with dissimilar genetic fingerprints
