The Biology Behind DNA Fingerprinting

1. The Biology Behind DNA Fingerprinting Mark Bailey

2. Outline • Basic structure of DNA • VNTRs and sequence variations • Procedures used in isolating samples • Inheritance • Alleles and population frequency (Hardy-Weinberg equation)

3. DNA - Basics • DNA- deoxyribonucleic acid • Exists within the nucleus of every cell • Packaged in molecules called chromosomes

4. DNA - Basics • DNA helix composed of repeating units called nucleotides- ( a sugar phosphate molecule and a base- Adenine, Cytosine, Guanine, Thymine) • 2 strands connected together by hydrogen bonds • Unit of length = “base-pair”

5. DNA - Basics Sample piece of DNA would look like this: 5' …T-T-G-A-C-T-A-T-C-C-A-G-A-T-C…3'3' …A-A-C-T-G-A-T-A-G-G-T-C-T-A-G…5'

6. DNA - Basics • It’s estimated that the human genome contains 3 billion base-pairs • It’s also estimated that 3 million bases differ from person to person

7. VNTRs and sequence variations • DNA evidence uses variations of sequences found in non-coding regions • variations known as “polymorphisms” • single nucleotide polymorphisms • short tandem repeats (STRs) • variable number of tandem repeats (VNTRs)

8. VNTRs The number of repeats varies by individual from as few as 7 to more than 40.

9. Procedures used to Isolate DNA • Restriction Fragment Length Polymorphism (RFLP) analysis • Restriction enzymes (restriction endonucleases) cut the surrounding regions of VNTRs at certain loci • Regions amplified using PCR (polymerase chain reaction) • Run through gel electrophoresis • Sample lengths are then compared

10. An Example of VNTR analysis Let’s consider 3 different loci on 3 pairs of chromosomes from 3 different individuals. The repeat sequence motif is ‘GTGT’ in the first chromosome and the motif on the second chromosome is ‘CACA’

11. PCR Primers are attached around VNTR regions and begin to make copies of the sequences Process repeat over many times to get a larger product sample

12. PCR Product is then captured for use in gel electrophoresis

13. Gel Electrophoresis • Samples run through agarose gel which is electrically charged • larger fragments move slower • smaller fragments move faster and further

14. VNTR Analysis • After RFLP analysis, DNA samples from suspect(s) can then be compared to samples of DNA left at scene of the crime

15. VNTR Analysis Lengths of VNTR regions are also compared and deemed whether they are statistically close

16. Inheritance • VNTRs, just like genes, are inherited • Alleles- one copy from the mother one from the father

17. Alleles and Population Frequency Hardy-Weinberg equation: (p + q)2 = 1 (squared because people have two alleles at a gene) Or more simply: p2 (AA) + 2pq (Aa) + q2 (aa) = 1 where: p2 is the frequency of people with genotype (AA) in a population. 2pq is the frequency of people with genotype (Aa) in a population.q2 is the frequency of people with genotype (aa) in a population.

18. Hardy-Weinberg example As an example, let’s say that in a population of 1000 people, 650 people have the AA genotype, 300 have the Aa genotype, and 50 have the aa genotype. The frequency of the A allele is determined by summing the number of A alleles in the population and then dividing by 2 times the total. (2 * 650) + (1 * 300)/ (2 * 1000) = .8 = p So, q is equal to .2 (1-p) Let's check: (2 * 50) + (1 * 300)/(2 * 1000) = .2 = q p2 (AA) + 2pq (Aa) + q2 (aa) = 1 .64 + 2 *.16 + .04 = 1