DNA 101: Review of DNA Structure and Function PDF

Summary

This document provides a review of DNA structure and function, including the historical development of understanding DNA, the roles of key figures, DNA composition, and its functions in cells. It also covers recent advancements in DNA technology and its application in law enforcement and genetic genealogy.

Full Transcript

DNA 101:
Review of DNA Structure and Function

The Structure of DNA
3 back-to-back articles published in Nature in April 1953 define DNA as a double helix
1. Francis Crick and James Watson
2. 2. Rosalind Franklin (Photo 51)
3. 3. Maurice Wilkins
Linus Pauling

The Players
1952 - Rosalind Franklin photographs crystallized DNA fibers
1953 - James Watson and Francis Crick predict the double helix structure of DNA
1977 - Frederick Sanger develops DNA sequencing

Definition of DNA
DNA = Deoxyribonucleic Acid
Found in all living cells; controls inheritance
Contains genetic material
○ Nucleotides
○ Adenine
○ Thymine
○ Guanine
○ Cytosine
Robust structure: helical coil, protects inner rungs of the ladder

Nucleotides
A pairs with T
G pairs with C
Van der Walls forces
○ Find each other
○ Stay connected, gently

Picture of DNA
Inside is important
The sequence makes up a gene
Chromosomes Contain DNA
The cell must divide correctly
DNA must replicate correctly
Failures can lead to
○ Death
○ Disease
○ Cancer
○ Malfunction
Karyotype:
○ 22 Autosomes
○ 1 pair of Sex Chromosomes
Trisomy Syndromes
○ Downs (21)
○ Edwards (18)
○ Patau (13)

Cell Division
Mitosis
○ Cell duplicates itself
○ New cell is identical to its parent cell
○ Repair and growth
Meiosis
○ Cell divides for reproduction
○ One cell results in 4 daughter cells
○ Gametes (sperm, egg)

DNA is First Used in Law Enforcement
1984 Sir Alec Jeffreys: RFLP
DNA Fingerprinting
1985 DNA Fingerprinting used in an immigration case

STRs Vs. SNPs
The New Step is Genetic Genealogy

STRs in CODIS SNPS IN DTC Databases

DNA evidence DNA evidence

DNA extraction DNA extraction

STR analysis SNP analysis

Upload to CODIS Upload to GEDmatch/FTDNA

Genetic Genealogy

CODIS first, then Genetic Genealogy
Indexes
○ Convicted Offender
○ Arrestee
○ Missing Person
○ Unidentified Human Remains
○ Offender Index

Start With CODIS
CODIS contains over
○ 14,492,991 offender profiles
○ 4,305,472 arrestee profiles
○ 1,096,398 forensic profiles
Per federal guidelines:
○ Profile into CODIS, if no hit then
○ Profile into GEDmatch/FTDNA/DNAJustice
○ Person of interest (POI) developed
○ Obtain DNA of POI
○ Compare POI’s STR profile to physical evidence

How Does Genetic Genealogy
4 Steps to Genetic Genealogy
Find:
○ Choose the best DNA matches
Create:
 ○ Create a family tree for each
Group:
○ Determine how the trees fit together
ID:
○ Determine how your DNA fits in

DNA Segment Triangulation
If 2 people match a 3rd person on the same segment AND
They all match each other THEN
They all descend from the same ancestor
Finding the parents of an adoptee requires the use of DNA Segment Triangulation

The Niskayuna Arrest of Stephen Smerk
In 1994, 37-year-old Robin Lawrence was murdered in her home in Fairfax Virginia; the
case went cold until recent developments in DNA technology. Parabon Labs used DNA
from the suspect to make a composite image of his face and to identify his relatives
resulting in the identification of Stephen Smerk, a local of Niskayuna.

Case 1: NorCal Rapist - Roy Waller
10+ rapes and kidnappings
▪ 1991–2006 in six Northern
California counties
▪ Close DNA match—no
family trees
▪ Solved in 45 minutes
Estimated Time to Solve a Case per cM Matches*
3500 cM → This is a parent → Hours
2500 cM → This is his sibling → Hours
900 cM → This is his 1st cousin → Days
300 cM → This is his 2nd cousin → Weeks