Title: Chapter 8 Serology
1Chapter 8Serology
Out damned spot! Out, I say Heres the smell
of the blood still, All the perfumed of Arabia
will not Sweeten this little hand. Oh, Oh,
Oh! William Shakespeares Lady Macbeth, in
Macbeth
Correlation coefficient
http//noppa5.pc.helsinki.fi/koe/corr/cor7.html
2Learning Objectives
Students should be able to
- List the A-B-O antigens and antibodies found in
the blood for each of the four blood types A, B,
AB and O. - Understand and describe how whole blood is typed.
- List and describe forensic tests used to
characterize a stain as blood.
3Learning Objectives
Students should be able to
- List and describe forensic tests used to
characterize a stain as blood. - Understand the concept of antigen-antibody
interactions and how it is applied to species
identification and drug identification.
4Learning Objectives
Students should be able to
- Contrast chromosomes and genes.
- Use the Punnett square to determine the genotypes
and phenotypes of offspring.
Fathers genotype
O O
A
Mothers genotype
B
5Learning Objectives
Students should be able to
- List the laboratory tests necessary to
characterize seminal stains. - Explain how suspect blood and semen stains are
properly preserved for laboratory examination.
UV light makes seminal fluids glow brightly
6Learning Objectives
Students should be able to
- Describe the proper collection of physical
evidence in a rape investigation.
7Learning Objectives
Students should be able to
- List the A-B-O antigens and antibodies found in
the blood for each of the four blood types A, B,
AB and O. - Understand and describe how whole blood is typed.
- List and describe forensic tests used to
characterize a stain as blood.
8Forensic Serology
- Forensic serology is the study of blood, saliva,
semen or sweat in manners pertaining to the law. - From 1950 to the early 1990s, forensic serology
was a most important part of lab procedures. - With the development of DNA techniques, more
time, money, and significance was placed in
developing DNA labs. - However, with limited funds and the time required
for DNA testing, many labs still use many of the
basic serology testing procedures.
9Historical Perspective of Blood Typing
- In 1901, Karl Landsteiner discovered that there
are four different types of human blood based on
the presence or absence of specific antigens
found on the surface of the red blood cells. - By 1937, Landsteiner and Weiner reported the
discovery of the Rh factor by studying the blood
of the Rhesus monkey. 85 of Caucasians, 94 of
Black Americans and 99 of all Asians are Rh
positive. - More than 100 different blood factors have
been identified.
10I. The Nature of Blood
11Blood Characteristics
- Plasma is the fluid portion of the blood (55)
- Cells (45)
- Erythrocytes are red blood cells. They are
responsible for oxygen distribution. - Leukocytes are the white blood cells they are
responsible for cleaning the system of foreign
invaders. - Thrombocytes or platelets are responsible for
blood clotting - Serum is the liquid that separates from the blood
when a clot is formed. - Antigens, usually proteins, are located on the
surface of RBCs and are responsible for
blood-type characteristics.
12Human Blood
- Red blood cells are most numerous 5 to 6 million
per mm3 - White blood cells are larger and less numerous
5000 to 10,000 per mm3 - Platelets are tiny, cellular fragments 350,000
to 500,00 per mm3
13Blood Terminology
- ABO blood groupsbased on having an A, B, both or
no antigens on red blood cells - Rh factormay be present on red blood cells
positive if present and negative if not - Antigena substance that can stimulate the body
to make antibodies. Certain antigens (usually
proteins) located on the red blood cells
membrane account for blood type. - Antibodya substance that reacts with an antigen
- Agglutinationclumping of red blood cells will
result if blood types with different antigens are
mixed
14Blood Typing
- More than 15 blood antigen systems have been
identified, but the 2 most important are - the A-B-O system
- A, B, AB and O blood types
- the Rh system
- Rh positive and Rh negative
15Blood Typing
- The identity of each of the four A-B-O blood
groups can be established by testing the blood
with anti-A and anti-B sera. - For every antigen there is a specific antibody
that will react with it to form clumps known as
agglutination. - If serum containing anti-B is added to RBCs
carrying the B antigen, they will immediately
react (clump together).
16Blood Typing (A-B-O)
- Blood type A has antigen A on the surface of the
cell and will agglutinate with blood type B. - Blood type B has antigen B on the surface of the
cell and will agglutinate with blood type A. - Blood type AB has antigens A and B on the
surface of the cells and will not agglutinate
with either type A or B blood. - Blood type O has neither antigen A nor B and will
not agglutinate.
17Antigen and Antibody
Antigens are large molecules (usually proteins)
on the surface of cells, viruses, fungi,
bacteria, and some non-living substances such as
toxins, chemicals, drugs, and foreign particles.
The immune system recognizes antigens and
produces antibodies that destroy substances
containing antigens.
18BLOOD TYPES
19Blood Typing Animation
Click here for animation and mini quiz
20ABO Blood System
(Antigen)
Anti-A
Anti-B
Anti-A and Anti-B
none
http//gslc.genetics.utah.edu/units/basics/blood/t
ypes.cfm
21Blood Typing and Cross-Reactions
Donor blood type is ____
Recipient blood type is ____
A
B
22Blood Typing
Click for Blood typing simulation
23Go to the following web site to play the blood
typing game
- First Go to How to play the game
- http//nobelprize.org/educational_games/medicine/l
andsteiner/
24ABO Blood Types
- Based on the presence (or absence) of antigen(s)
on the red blood cell membrane - There are 2 types of antigens that can be
present, - or
- A person can inherit one, both or none
-
- About 2 8 months after birth, you develop
antibodies to the blood types you do not have.
A
B.
A (A antigen) B (B antigen) AB (both A B
antigen) O (no antigens)
25Blood Transfusion
A person who is blood type A will have the ____
antigen on their RBC surface. In their
plasma, they will have anti- _____ antibodies. A
person who is blood type B will have the ____
antigen on their RBC surface. In their
plasma, they will have anti- _____ antibodies.
What will happen if a person with blood type B
donates blood to a person with blood type
A?
A
B
B
A
The B antibodies of the A plasma will attack and
destroy the B red blood cells, causing dangerous
and often fatal blood clotting.
26Blood Groups
Antigen (on RBC)
Antibody (in serum)
Can Give Blood To
Can Get Blood From
Type
A
A
Anti-B
A, AB
O, A
B, AB
O , B
B
B
Anti-A
Neither Anti-A nor Anti-B
AB
A and B
AB
A, B, O, AB
Neither A nor B
A, B, O, AB
O
Anti-A and Anti-B
O
27Population Distribution of Blood Types in the
U.S.
Type
Percent
O
43
A
42
B
12
AB
3
28Blood Typing (Rh factor)
- Rh factor is determined by the presence of the D
antigen. - Rh positive people have the D antigen
- Rh negative people lack the D antigen
29Secretors
- 80 of the population are secretors. Their
blood-type antigens are found in high
concentration in their body fluids such as
saliva - semen
- vaginal secretions
- gastric juice
30Please Do Now
Please write at least 5 lines to explain this
cartoon in your composition book.
31What is one thing you can give and still keep?
- Your word
- Hope
- Fingeprints
- Blood
- Name
- Life (pregnancy)
- Knowledge
32Learning Objectives
Students should be able to
- List and describe forensic tests used to
characterize a stain as blood. - Understand the concept of antigen-antibody
interactions and how it is applied to species
identification and drug identification.
33II. Immunoassay Techniques
34Serology
- Describes a broad scope of laboratory tests that
use specific antigen and serum antibody
reactions. - The concept of specific antigen-antibody
reactions has been applied to immunoassay
techniques for the detection of drugs of abuse in
blood and urine.
35Immunoassay
- The concept of antigen-antibody reaction is used
in - blood typing
- the detecting of drugs in blood and urine
- Thousands of individuals are subjected to
urinalysis tests for the presence of drug-abuse.
Such as - Note Antibodies that react with drugs do NOT
exist naturally but can be produced in animals
such as rabbits.
- Military personnel
- Transportation industry employees
- Police and correction personnel
- Pre-employment drug screenings
36Testing Urine for Drugs
One-step immunoassay for detection of drug abuse
in urine
Read Supreme Court Ruling
37Immunoassay
- A number of immunological assay techniques are
commercially available for detecting drugs
through antigen-antibody reaction. - Radioimmunoassay (RIA) uses drugs labeled with
radioactive tags. - Enzyme-multiplied immunoassay technique (EMIT) is
uses an enzyme tag for detecting drugs in urine. - Immunoassay is ONLY presumptive in nature and its
result must be confirmed by additional testing.
(not totally specific for any drug)
38Radioimmunoassay (RIA)see p. 273 Fig. 8 - 3
uses drugs labeled with radioactive tags.
39Enzyme-Multiplied Immunoassay Technique (EMIT)
see p. 274
used for detecting drugs in urine and fingernails
The method of screening for drug use in a
fingernail test is the five panel, Enzyme
Multiple Immunoassay Test (EMIT). Five drugs are
tested for with the qualitative detection of
cocaine, amphetamines / methamphetamines
(ecstasy), opiates (heroin, morphine),PCP (angels
dust,hog) and tetrahydrocannabinol (marijuana,
hashish) drug testing in urine. Results of a
fingernail sample will represent drug use that is
approximately 4-6 months from the time of
ingestion. Fingernails can be clipped, or, if
length does not allow, can be shaved in a safe
and pain-free sample collection.
40Immunoassay
- Enzyme-multiplied immunoassay technique (EMIT) is
used by toxicologists because of its - speed for detecting drugs in urine and
- high sensitivity for detecting drugs in urine.
- In a typical EMIT analysis, antibodies that will
bind to a specific drug are added to the
subjects urine.
41Antigen-Antibody Reaction(polyclonal antibodies)
- When an animal, such as a rabbit or mouse, is
injected with an antigen its body will produce a
series of different antibodies, all of which are
designed to attack some particular site on the
antigen of interest. - This collection of antibodies is known as
polyclonal antibodies.
42Antigen-Antibody Reaction(monoclonal
antibodies)see p. 275
- A more uniform and specific collection of
antibodies designed to combine with a single
antigen site can be manufactured. - Such antibodies are known as monoclonals.
43III. Forensic Characterization of Bloodstains
IS IT BLOOD?
44Unknown Stain at a Scene
- 3 Questions to be answered
- Is it blood?
- Is it human blood?
- Whose is it?
- Determine blood type, alcohol content, drugs
present - Determine the method(s) in which blood may have
been deposited
The determination of blood is best made by means
of a preliminary color test.
45Presumptive (Color) Tests for Blood Determination
- Kastle-Meyer color testa mixture of
phenolphthalein and hydrogen peroxide the
hemoglobin will cause the formation of a deep
pink color if blood is present - Hematest tabletreacts with the heme group in
blood causing a green color - Luminol testreaction with blood to produce light
46Color Tests for Blood (Kastle - Meyer Tests)
- Replaced benzidine color test (after being
identified as a carcinogen) - a mixture of phenolphthalein and hydrogen
peroxide - the hemoglobin will cause the formation of a deep
pink color if blood is present - Not specific for blood - false positive given
by - Potatoes
- horseradish
Neither probably not encountered in criminal
situations
47Color Tests for Blood (Hemastix strips or
Hematest tablets)
- reacts with the heme group in blood causing a
green color
48Presumptive (Color) Tests for Blood Determination
(Luminol)
- Reaction with blood to produce light
- Spray luminol on object
- Darken room
- Bloodstains react to produce a blue glow
(luminescence) - Used to check large areas
- Extremely sensitive
- Can detect bloodstains diluted up to ____________
times - Does NOT interfere with subsequent DNA testing
300,000
49Microcrystalline Tests
- Depend on the addition of specific chemicals to
the blood so that characteristic crystals will be
formed - ID of blood is made more specific if
microcrystalline tests are done - Less sensitive than color tests
- More susceptible to interference from
contaminants present in the stain - Two most popular tests are
- Takayama test and Teichmann test
- Click to view Takayama crystals
50Precipitin Test (human vs. animal blood) see p.
279 Fig. 8 - 5
- Determines whether the stain is of human or
animal origin - Uses antisera normally derived from rabbits that
have been injected with the blood of a known
animal to determine the species origin of a
questioned bloodstain. - If human blood, then determine whose blood is it.
51Precipitin Test see p. 279 Fig. 8 - 5
- blood is injected into a rabbit
- antibodies are formed
- the rabbits blood is extracted as an antiserum
- the antiserum is placed on sample blood.
- The sample will react with human proteins, if
human blood is present.
52Precipitin Test
- Why is this a good test for determining if it
human blood? - very sensitive
- requires only a small amount of blood
- Blood can be old and still give a positive result
- Bloodstains from 4000-5000 year old mummies
have given positive results
53Gel Diffusion
- antibodies and antigens diffuse or move towards
one another on an agar plate.
54Human vs Animal Blood
Microscopic observation
Frog Blood
Human Blood
- Larger nucleic red blood cells
nonnucleated red blood cells
55IV. Bloodstain Patterns
Science of Murder Blood Spatter Video
56More about Serology
- For additional information about blood evidence,
and famous crimes that involves serology, check
out Court TVs Crime Library at -
- www.crimelibrary.com/criminal_mind/forensics/sero
logy/1.html
57People of Historical Significance Paul Kirk
(1902-1970)
- Professor of criminalistics and biochemistry at
Berkeley in California - He actively assisted law enforcement
organizations from 1935 to 1967. - His book, Crime Investigations, contained a
chapter in which he discussed the application of
blood stain pattern analysis to criminal
investigations. - Dr. Kirk analyzed the blood stain pattern photos
from the Sam Sheppard case and was instrumental
in Sheppards release at his second trial. Find
out more about the case at CourtTvs crime
library.
58People in the News Herbert L. MacDonell
- Considered by many as the father of modern
bloodstain pattern analysis. - He is the director of the Lab of Forensic Science
and founder of the Bloodstain Evidence Institute
(1973) in Corning, NY. - His work, Bloodstain Pattern Interpretation,
helped to jump start this discipline. - He has consulted on criminal cases in all 50
states, in addition to testifying in the O.J.
Simpson trial and in the assassination cases of
Sen. Robert F. Kennedy and Dr. Martin Luther King
Jr.
59Blood Spatter Evidence
- A field of forensic investigation which deals
with the physical properties of blood and and the
patterns produced under different conditions as a
result of various forces being applied to the
blood. Blood, as a fluid, follows the laws of
physics.
60Blood Evidence
- Class evidence for blood would include blood
type. - If you can determine the DNA you would have
individual evidence. - Blood stain patterns are considered
circumstantial evidence in a court room. Experts
could argue many points including - direction of travel,
- height of the perpetrator
- position of the victim
- left/right hand
- whether the body was moved, etc.
61Blood Pattern Reconstruction
- Scene Pattern Reconstruction
- 1. Stain condition
- 2. Pattern
- 3. Distribution
- 4. Location
- 5. Directionality
- Lab Results Reconstruction
- 1. Genetic marker typing
- 2. Age Determination
- 3. Source Determination
- 4. Race Determination
- 5. Sex Determination
From Cracking Cases by Dr. Henry C. Lee
62Questions Answered by Blood Spatter
Interpretation
- The distance between the target surface and the
origin of blood - The point(s) of origin of the blood
- Movement and direction of a person or an object
- The number of blows, shots, etc. causing the
bloodshed and/or the dispersal of blood. - Type and direction of impact that produced the
bloodshed - The position of the victim and/or object during
bloodshed - Movement of the victim and/or object after
bloodshed
63Bloodstain Patterns
- The crime scene investigator must remember that
the location, distribution, and appearance of
bloodstains and spatters may be useful for
interpreting and reconstructing the events that
produced the bleeding. - Surface texture and the stains shape, size and
location must be considered when determining the
direction, dropping distance, and angle of impact
of a bloodstain.
64Blood Droplet Characteristics
- A blood droplet will remain spherical in space
until it collides with a surface - Once a blood droplet impacts a surface, a
bloodstain is formed. - A droplet falling from the same height, hitting
the same surface at the same angle, will produce
a stain with the same basic shape. - How will the shape change as the height is
increased or decreased?
click to view
65Blood Droplet Volume
- A droplet contains approximately 0.05 cc of fluid
- Is not the same for all blood droplets, but is
generally from 0.03 cc to 0.15 cc - Is directly dependent upon the surface or orifice
from which it originates - The impact area is called the target.
66Conditions Affecting Shape of Blood Droplet
- Size of the droplet
- Angle of impact
- Velocity at which the blood droplet left its
origin - Height
- Texture of the target surface
- On clean glass or plasticdroplet will have
smooth outside edges - On a rough surfacewill produce scalloping on the
edges
Click to see
67TARGET SURFACE TEXTURE
68Target surface texture
- Bloodstains can occur on a variety of surfaces,
such as carpet, wood, tile, wallpaper,
clothing.. - The type of surface the blood strikes affects the
amount of resulting spatter, including the size
and appearance of the blood drops.
69Target surface texture
- Blood droplets that strike a hard smooth surface,
like a piece of glass, will have little or no
distortion around the edge.
70Target surface texture
- Blood droplets that strike linoleum flooring take
on a slightly different appearance. - Notice scalloping around the edge of the blood
droplets.
71Target surface texture
- Surfaces such as wood or concrete are distorted
to a larger extent. - Notice the spines and secondary spatter present.
72Surface Texture
- In general, the harder and less porous the
surface, the less spatter. - The softer and more porous the surface, the more
a blood drop will break apart.
73Bloodstain Patterns(direction of travel)
- The pointed end of the blood stain faces the
direction of travel.
Which way did the blood travel?
74Determining angles of impact
- Blood droplets in freefall have the shape of a
sphere. - Droplets striking surfaces and leaving
well-formed stains make it possible to determine
the angle at which - the droplet struck the surface.
75Angle of Impact
- The more acute the angle of impact, the more
elongated the stain. - 90 degree angles are perfectly round drops with
80 degree angles taking on a more elliptical
shape. - At about 30 degrees the stain will begin to
produce a tail. - The more acute the angle, the easier it is to
determine the direction of travel.
76Angle of Impact
- The shape of a blood drop
- Roundif it falls straight down at a 90 degree
angle - Ellipticalblood droplets elongate as the angle
decreases from 90 to 0 degrees - the angle can be determined by the following
formula -
77Angle of Impact
78Point of Convergence
- The point of convergence is the intersection of
two bloodstain paths, where the stains come from
opposite sides of the impact pattern
79Area of Convergence(point of origin)
- The area of convergence is the box formed by the
intersection of several stains from opposite
sides of the impact pattern
80Point or Area of Convergence?
81Point of Convergence
- The location of the blood source can be
determined by drawing lines from the various
blood droplets to the point where they intersect.
- The area of convergence is the point of origin
the spot where the blow occurred. It may be
established at the scene with measurement of
angles by use of strings.
82Origin of blood
Image used with permission from Tom Bevel Ross
Gardner, June 2006.
83Bloodstain pattern categories(based on the
mechanism that created them)
- Passive bloodstains are created when the force
acting on the blood is gravity - Projected bloodstains occur when some form of
energy has been transferred to a blood source - Transfer or contact is produced when an object
with blood on it comes into contact with an
object or a surface that does not have blood on
it.
84Bloodstain pattern categories
PASSIVE
PROJECTED
TRANSFER
85Passive Bloodstains
- Drop(s) created or formed by the force of gravity
acting alone. - Drops
- Drip patterns
- Pools
- Clots
86Projected Bloodstains
- Arise when a victim is subjected to blows that
produce blood released at a force greater than
gravity. - 3 subcategories
- Impact spatter
- Cast-off stains
- Arterial gush
- The size, shape and number of resulting stains
will depend, primarily on the amount of force
utilized to strike the blood source.
87Projected Bloodstains(impact spatter)
- Created when a blood source receives a blow or
force resulting in the random dispersion of
smaller drops of blood - Subdivided into
- Low velocity spatter
- Medium velocity spatter
- High velocity spatter
- Back spatter
- Expiratory blood
88Low Velocity Spatter
- Relatively large stains 4 mm in size and greater.
Impact velocity up to 5 feet/sec (Blunt force)
89Medium Velocity Spatter
- Preponderant stain size 1 to 4 mm size.
- Impact velocity of 5 to 25 feet/sec.
Image courtesy UWA PhD research student Mark
Reynolds.
90High Velocity Spatter
- Preponderant stain size 1 mm in size and smaller.
- Mist like appearance.
- Impact velocity of 100 feet/sec and greater.
- (gun shot, high speed machinery)
91Projected Bloodstains
- Back spatter blood directed back towards the
source of energy or force that caused the spatter - Expiratory blood blood that is blown out of the
nose, mouth or a wound as a result of air
pressure and/or air flow which is the propelling
force.
92Gunshot back forward spatter
Bloodstained foam held just above target surface.
Bullet passing L to R just above sheet
Back-spatter on entry
Forward spatter on exit
93Which type of impact spatter?
Low velocity blood from the simulation of a
bleeding person walking or running. Note that
the blood drops point in the direction of travel
The high velocity gun shot wound leaves a
mist-like appearance.
Low and medium Velocity, lightly Magnified.
94Projected Bloodstains(cast-off pattern)
Created when blood is released or thrown from a
blood-bearing object in motion
95Arterial Spurting or Gushing
- Bloodstain pattern(s) resulting from blood
exiting the body under pressure from a breached
artery
96Transfer (Contact) Bloodstains(gun, knife, hand,
foot)
- Occurs when an object contaminated with blood
comes in contact with another surface - Examples include
- Swipe pattern
- Wipe pattern
- Smudge
- Transfer pattern
- Blockage
- Simple direct contact
97Swipe Pattern
- The transfer of blood from a moving source onto
an unstained surface. Direction of travel may be
determined by the feathered edge.
98Wipe Pattern
- A bloodstain pattern created when an object moves
through an existing stain, removing and/or
altering its appearance.
99Transfer (Contact) Bloodstains(Smudge)
100Transfer Pattern
- A recognizable image of all or a portion of the
original surface may be observed in the pattern.
101Transfer Pattern
- A recognizable image of all or a portion of the
original surface may be observed in the pattern.
102Transfer Pattern
- A recognizable image of all or a portion of the
original surface may be observed in the pattern.
103Transfer (Contact) Bloodstains(Blockage)
104Crime Scene Clean Up
View video clip about crime scene clean up
2nd video clip
- Please DO NOW
- What do you think about the crime scene clean up
business? Be sure to include something specific
from the video clip. - Do you think you could do this?
- Why or why not?
105Bloodstain Terminology
- Angle of impactangle at which blood strikes a
target surface. - Bloodstain transferwhen a bloody object comes
into contact with a surface and leaves a
patterned blood image on the surface - Backspatterblood that is directed back toward
the source of energy - Cast-offblood that is thrown from an object in
motion
106Bloodstain Terminology
- Contact stainbloodstains caused by contact
between a wet blood-bearing surface and a second
surface which may or may not have blood on it - Transferan image is recognizable and may be
identifiable with a particular object - Swipewet blood is transferred to a surface which
did not have blood on it - Wipea non-blood bearing object moves through a
wet bloodstain, altering the appearance of the
original stain
107Bloodstain Terminology
- Directionalityrelates to the direction a drop of
blood traveled in space from its point of origin - Terminal velocitythe greatest speed to which a
free falling drop of blood can accelerate in air.
It is dependent upon the acceleration of gravity
and the friction of the air against the
bloodapproximately 25.1 feet/second. - High velocitygreater than 25 feet per second,
usually 100 feet per second gives a fine mist
appearance - Medium velocity5 to 25 feet per second
- Low velocityup to 5 feet per second
108Tips for the Chp. 8 Test
- Multiple Choice
- True / False
- Short Answers
- What can blood stains tell you?
- Blood Types Typing
- (antigen antibody)
- Blood spatter analysis
- Impact angle, shape, size,etc.
- Blood tests (precipitin, etc.)
- Blood - general information
- What 3 questions are asked at a bloody crime
scene? - Monoclonal antibodies vs. polyclonal antibodies
- Paternity testing
- Why might there not be any sperm in semen?
- Sexual assault cases (what is collected?)
109Learning Objectives
Students should be able to
- Contrast chromosomes and genes.
- Use the Punnett square to determine the genotypes
and phenotypes of offspring.
Fathers genotype
O O
A
Mothers genotype
B
110V. Principles of Heredity
All of the antigens, polymorphic enzymes and
proteins previously discussed are genetically
controlled traits.
111Principles of Heredity
- Genes (basic unit of heredity) are located on
chromosomes. - The position a gene occupies on a chromosome is
its locus. - Alleles are alternative forms of genes that
influence a given characteristics (such as blood
type) - Each cell (except for eggs and sperm) have _____
chromosomes.
46
Click for Web Extra 8.2
Click for Web Extra 8.3
112Gene Pair
- A gene pair is made up of two alleles.
- Homozygous gene pair of 2 similar alleles
- Ex. AA or BB or OO blood types
- Heterozygous gene pair of 2 different alleles
- Ex. AO or BO or AB blood types
- One gene can be dominant over the other in a gene
pair of different alleles. - Ex. A and B are dominant over O in blood
types. - ( O is the recessive gene)
- In AB blood type, the genes are codominant.
Click for Web Extra 8.5
113Genotype and Phenotype
- Phenotype a persons outward appearance
- Ex. You have B type blood
- Genotype a persons genetic makeup for a trait
- Ex. You have BB or BO type blood.
- No blood test can determine your genotype.
- By studying the family history of an individual
you may be able to determine their genotype
Click for Web Extra 8.4
114Punnett Squares and Paternity
PossibleFathers genotype
O O
What are the possible blood types for their
children?
AO
A
AO
Sallys genotype
BO
BO
B
Could he be the father of her AB baby boy? Why or
why not?
115Paternity Testing
- Disputed paternity cases are normally encountered
in civil, not criminal courts. - Genotyping of blood antigens (factors) can be
useful in determining paternity by ruling out a
suspected father. - A-B-O grouping
- HLA (human leukocyte antigen)- antigens on WBC
- If it cant exclude a suspect than its better
than 90 that hes the father - DNA testing
- Can determine with better than 99 that he is the
father
116Please Do NowExplain this cartoon.
117Learning Objectives
Students should be able to
- List the laboratory tests necessary to
characterize seminal stains. - Explain how suspect blood and semen stains are
properly preserved for laboratory examination.
UV light makes seminal fluids glow brightly
118VI. Forensic Characterization of Semen
- Two step process for the examination of seminal
stains - Locate the stain
- Test the stain to prove its semen
119Testing for Seminal Stains
- Seminal stains may be visible on fabric due to
their stiff, crusty appearance. - Acid phosphatase test is the best way to locate
and characterize seminal stains. - Once sample is proven to be semen, the next step
is to associate the semen as closely as possible
with an individual
120Acid Phosphatase Test
- Acid phosphatase is an enzyme secreted by the
prostate gland into seminal fluid. - Concentration is 400X more in seminal fluid than
in any other body fluid. - A reaction time of less than 30 seconds is a
strong indication of semen.
121 Testing Seminal Stains for acid
phosphatase
Moisten Stain Collect Stain Open Test
Strip Purple semen Activate stain Rub
stain with Test stain by Semen
is present with water. provided cotton
rubbing the if it turns purple
swab. moistened swab
immediately. onto test strip.
(lt 30 seconds)
122Microscopic Examination of Semen
- Semen is unequivocally identified by the presence
of spermatozoa. - Usually easy to locate sperm in semen
- Reasons why sperm might not be found
- Sperm bind tightly to cloth material
- Sperm are extremely brittle when dry and easily
disintegrate when washed or rubbed against
another object - Oligospermia lows sperm count
- Aspermia no sperm in seminal fluid
123Seminal constituents sperm
- Live (motile) sperm generally survive for up to 4
- 6 hours in the vaginal cavity - Vaginal smear must be examined microscopically
immediately after it is taken from the victim - Nonmotile sperm may be found up to 3 days in the
vaginal cavity (occasionally up to 6 days later) - Intact sperm (sperm with tail) are not normally
found 16 hours after intercourse (but have been
found 72 hours later)
124Seminal constituents
- Finding acid phosphatase decreases with time
after intercourse - Little chance of identifying it after 48 hours
- Need to know if voluntary sexual activity
occurred before the assault - p30 is NOT normally found in the vaginal cavity
beyond 24 hours after the assault
125 Prostate Specific Antigen (PSA or
p30)
- Positive acid phosphatase test but cant find any
sperm how can you prove unequivocally that its
semen? - By use of p30 (prostate specific antigen, PSA)
- Antigen antibody reaction
- see p. 293 Figure 8-17 and Figure 8-18
126Learning Objectives
Students should be able to
- Describe the proper collection of physical
evidence in a rape investigation.
127VII. Collection of Rape Evidence
- Seminal constituents on a rape victim indicate
that sexual intercourse occurred BUT their
absence does not necessarily mean that a rape did
not occur. - Bruises and bleeding tend to confirm a violent
assault occurred - Physical evidence of rape may include semen,
blood, hairs and fibers
128How to protect rape evidence
- Outer garments and undergarments carefully
removed and packaged in separate paper bags.
WHY? - Dont fold an article through a seminal stain as
it may damage the sample. - Latex gloves must be worn when collecting samples
129How to protect rape evidence(the victim)
- The rape victim must undergo a medical
examination as soon as possible after the assault - Use an evidence collection kit
- see p. 295 figure 8-19a and figure 8-19b and p.
296 Figure 8-19c
130Physical evidence to be collected from scene/
victim
- Pubic combings
- Pubic hair standard/ reference samples
- External genital dry-skin areas
- Vaginal swabs and smear
- Cervix swabs
- Rectal swabs and smear
- Oral swabs and smear
131Physical evidence to be collected from scene/
victim
- Head hairs
- Blood sample (for DNA)
- Fingernail scrapings
- All clothing
- Urine specimen
- Check for Rohypnol, GHB, etc.
132Physical evidence to be collected from suspect
- All clothing
- Pubic hair combings
- Pulled hair and pubic hair standard/reference
samples - Penile swab (within 24 hours of assault)
- Blood sample or buccal swab (for DNA)
133DNA Fingerprinting Contd
- This will therefore produce a unique banding
pattern following a gel electrophoresis. - This test is highly accurate, and the probability
of another individual possessing an identical
banding pattern is estimated as around
114,000,000,000.
134DNA Fingerprinting