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DNA Analysis Part II:
RFLPs, STRs, and SequencingJanuary 29, 2015
RFLP activity – Class Data
How does the graph represent a gel? Each group filled in a ‘band’ that represents where different – sized DNA fragments would have migrated on a gel, with smaller fragments migrating farther.
Why is each group’s ‘lane’ different?
Each group had a unique DNA sequence, and so that fragments produced by cutting with the restriction enzyme differ.
Is it possible for two different people to produce the same RFLP pattern?
Yes, but it is very unlikely, especially if multiple different restriction enzymes are used. Moreover, the odds can be estimated.
RFLP activity – Discussion
RFLP for identificationA woman is violently killed, and her hands have defensive injuries indicating that she fought her attacker. Investigators find skin cells under her nails.
They extract the DNA from these cells, amplify it, and run an RFLP analysis.
Do any of the suspects have matching DNA?
RFLP for paternityDifferent RFLPs are referred to as alleles.
To analyze RFLPs for paternity, remember: any alleles in a child that didn’t come from mother must come from father.
Who is the father? First match child to
mom Then, match remaining
alleles to father
RFLP for paternityWhy can’t #1 or #3 be the father?Neither has all the ‘missing’ alleles.
Is the real father the one who shares the most alleles with the child?No. Its possible to have a lot of alleles in common and not be the dad.
Can you determine paternity without having the mother’s DNA?Not using this method, and not as accurately.
Is Anakin really Luke’s father?
Is Darth Vader really Luke’s
father?
Is Anakin really Luke’s father?
Justify your answer by matching the alleles.
Yes – he is the father. Every allele in Luke & Leia match an allele found in Anakin’s or Padme’s results.
But there’s still a problem … see it?
Luke and Leia aren’t identical twins!
Who’s the father?
Dad #4
All of the child’s alleles match up with either mom or dad #4.
Is there any other time when you might need to compare the DNA of family
members to solve a crime?
Missing persons casesWatch me!
STR: The latest standard in forensic DNA analysis
STR stands for short tandem repeat
These are places (loci) in DNA that contain a variable number of a short, repeated sequence of nucleotides.E.g. AGCAGCAGCAGCAGCAGCAGC (7 repeats)or AGCAGCAGCAGCAGC (5 repeats)
The number of repeats are person has is their allele for that STR loci.
Each person has two versions of every chromosome, so they have 2 alleles. (E.g. 6 , 10 for a particular STR)
How STR analysis works
1. DNA is collected and extracted.
2. Regions containing each STR loci are amplified and separated according to size using automated technologies.
Why automated technology?
Because the difference in size between different alleles can be miniscule – far too small to see in a gel done by hand.
3. Evidence can be matched to a suspect and/or entered into a DNA database (CODIS). In the US, investigator routinely analyze 13 STR loci.
4. Frequencies of different alleles are known, so that probability of random matches can be calculated.
STR analysis example What do the
numbers mean? That is the number of repeats for that loci
Why are their two numbers per loci?
Each person has two alleles per loci
Why are some alleles not whole numbers?
Some repeats may not be completed (e.g. ACGACGA)
STR analysis example Which suspect
matches the evidence?
Suspect B
How could we calculate the probability that the suspect matched by chance?
If we knew the frequency of each allele in the general population, we could multiply all the probabilities.
STR analysis example
Calculate the frequency of this combination of STR genotypes.
.000000006%OrAbout 6 in 10 billion
Is it likely that someone else in the world has this same genotype?
Yes! The world has 7 billion people.
What does this mean for matching a suspect to a crime scene?
What about for matching a sample to a DNA data base?
STR Paternity Analysis
Who is the baby daddy?- Richard
How do you know?- Every allele in the child came from mother or Richard
How can you exclude the others?
STR Loci Mother
Child Stephen
Richard
Charles
D35S1358
15, 16 15, 17 16, 17 17, 17 15, 15
vWA 16, 19 15, 16 16, 20 15, 19 15, 16
FGA 21, 21 21, 23 22, 26 23, 27 23, 26
D8S1179 12, 15 13, 15 15 , 15 12 , 13 11, 13
D21S11 30, 30.2
30.2, 30.2
30, 30.2 28, 30.2
30, 30.2
D18S51 18, 18 12, 18 14, 18 12, 12 15, 18
D5S818 12 , 13 13, 13 10, 13 9, 13 10, 12
D13S317 11 , 12 12 , 12 12 , 13 11 , 12 11, 12
D7S820 10 , 11 10, 11 11, 12 11, 13 10, 13
CSF1PO 8, 8 8, 11 9, 9 9, 11 9, 11
TPOX 7,8 8, 8 8, 10 8, 10 7, 10
THO1 6, 9.3 9.3, 9.3 6, 6 6, 9.3 6, 8
D16S539 11, 13 9, 13 11, 13 9, 12 11, 12
DNA Sequencing DNA is amplified using a small fraction of special
nucleotides that will end the formation of a chain early. › Since the inclusion of these special nucleotides is random and
since the process is repeated MANY MANY MANY times, you eventually wind up with a set of different strands, each one base pair different in length, each ending in a special nucleotide.
These special, ending nucleotides are labeled in some way (i.e. radioactively, with dye, etc.) so that a machine can tell the difference between A, C, G, and T
These fragments are then sorted by size, and the special nucleotides are ‘read’ by the machine to form the sequence.
Watch me!
Closure
What were our objectives, and what did we learn?
What was our learner profile trait and how did we demonstrate it?
How does what we did today tie to our unit question?
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