Genetics and Immunology of Blood Groups_Harr

Question 1

What type of serological testing does the blood bank technologist perform when determining the blood group of a patient?

A. Genotyping
B. Phenotyping
C. Both genotyping and phenotyping
D. Polymerase chain reaction

Answer 1

Phenotyping

Phenotyping, or the physical expression of a genotype, is the type of testing routinely performed in the blood bank. An individual, for example, may have the AO genotype but phenotypes as group A.

Question 2

If anti-K reacts 3+ with a donor cell with a genotype KK and 2+ with a Kk cell, the antibody is demonstrating:

A. Dosage
B. Linkage disequilibrium
C. Homozygosity
D. Heterozygosity

Answer 2

Dosage

Dosage is defined as an antibody reacting stronger with homozygous cells (such as KK) than with heterozygous cells (such as Kk). In addition to Kell,
dosage effect is seen commonly with antigens M, N,
S, s, Fya, Fyb, Jka, Jkb, and the antigens of the Rh system

Question 3

Carla expresses the blood group antigens Fya, Fyb, and Xga. James shows expressions of none of these antigens. What factor(s) may account for the absence of these antigens in James?

A. Gender
B. Race
C. Gender and race
D. Medication

Answer 3

Gender and race

The frequency of Duffy antigens Fya and Fyb varies
with race. The Fy(a−b−) phenotype occurs in almost
70% of African Americans and is very rare in whites.
The Xga antigen is X-linked and, therefore, expressed
more frequently in women (who may inherit the
antigen from either parent) than in men.

Question 4

Which of the following statements is true?

A. An individual with the BO genotype is homozygous for B antigen
B. An individual with the BB genotype is homozygous for B antigen
C. An individual with the OO genotype is heterozygous for O antigen
D. An individual with the AB phenotype is homozygous for A and B antigens

Answer 4

An individual with the BB genotype is homozygous for B antigen

An individual having the BB genotype has inherited
the B gene from both parents and, therefore, is
homozygous for B antigen.

Question 5

Which genotype is heterozygous for C?

A. DCe/dce
B. DCE/DCE
C. Dce/dce
D. DCE/dCe

Answer 5

DCe/dce

The genotype DCe/dce contains one C and one c
gene and is heterozygous for C and c antigens.

Question 6

Which genotype(s) will give rise to the Bombay phenotype?

A. HH only
B. HH and Hh
C. Hh and hh
D. hh only

Answer 6

hh only

The Bombay phenotype will be expressed only when
no H substance is present. The Oh type is expressed
by the genotype hh. Bombays produce naturally
occurring anti-H, and their serum agglutinates group
O red cells in addition to red cells from groups A, B,
and AB persons

Question 7

Meiosis in cell division is limited to the ova and sperm producing four gametes containing what
complement of DNA?

A. 1N
B. 2N
C. 3N
D. 4N

Answer 7

1N

Meiosis involves two nuclear divisions in succession
resulting in four gametocytes each containing half
the number of chromosomes found in somatic
cells or 1N.

Question 8

A cell that is not actively dividing is said to be in:

A. Interphase
B. Prophase
C. Anaphase
D. Telophase

Answer 8

Interphase

Interphase is the stage in between cell divisions. The
cell is engaged in metabolic activity. Chromosomes
are not clearly discerned; however, nucleoli may be
visible

Question 9

Which of the following describes the expression of most blood group antigens?

A. Dominant
B. Recessive
C. Codominant
D. Corecessive

Answer 9

Codominant

The inheritance of most blood group genes is
codominant, meaning that no gene or allele is dominant over another. For example, a person who is group AB expresses both the A and B antigen on his or her red cells.

Question 10

What blood type is not possible for an offspring of
an AO and BO mating?

A. AB
B. A or B
C. O
D. All are possible

Answer 10

All are possible

A mating between AO and BO persons can result in
an offspring with a blood type of A, B, AB, or O.

Question 11

The alleged father of a child in a disputed case of paternity is blood group AB. The mother is group O and the child is group O. What type of exclusion is this?

A. Direct/primary/first order
B. Probability
C. Random
D. Indirect/secondary/second order

Answer 11

Indirect/secondary/second order

An indirect/secondary/second order exclusion occurs
when a genetic marker is absent in the child but
should have been transmitted by the alleged father.
In this case, either A or B should be present in the
child

Question 12

If the frequency of gene Y is 0.4 and the frequency of gene Z is 0.5, one would expect that they should occur together 0.2 (20%) of the time. In actuality, they are found together 32% of the time. This is an example of:

A. Crossing over
B. Linkage disequilibrium
C. Polymorphism
D. Chimerism

Answer 12

Linkage disequilibrium

Linkage disequilibrium is a phenomenon in which alleles situated in close proximity on a chromosome
associate with one another more than would be
expected from individual allelic frequencies.

Question 13

In the Hardy–Weinberg formula, p2 represents:

A. The heterozygous population of one allele
B. The homozygous population of one allele
C. The recessive allele
D. The dominant allele

Answer 13

The homozygous population of one allele

In the Hardy–Weinberg formula p2 + 2pq + q2, p2
and q2 represent homozygous expressions and 2pq
represents heterozygous expression. This formula is
used in population genetics to determine the
frequency of different alleles.

Question 14

In this type of inheritance, the father carries the trait on his X chromosome. He has no sons with the trait because he passed his Y chromosome to his sons; however, all his daughters will express the trait.

A. Autosomal dominant
B. Autosomal recessive
C. X-linked dominant
D. X-linked recessive

Answer 14

X-linked dominant

In X-linked dominant inheritance, there is absence of male-to-male transmission because a male passes his Y chromosome to all of his sons and his single
X chromosome to all his daughters. All daughters
who inherit the affected gene will express the trait.
An example of this type of inheritance is the Xga
blood group

Question 15

Why do IgM antibodies, such as those formed against the ABO antigens, have the ability to directly agglutinate red blood cells (RBCs) and cause visible agglutination?

A. IgM antibodies are larger molecules and have the
ability to bind more antigen
B. IgM antibodies tend to clump together more
readily to bind more antigen
C. IgM antibodies are found in greater concentrations than IgG antibodies
D. IgM antibodies are not limited by subclass
specificity

Answer 15

IgM antibodies are larger molecules and have the
ability to bind more antigen

An IgM molecule has the potential to bind up to
10 antigens, as compared to a molecule of IgG,
which can bind only two.

Question 16

Which of the following enhancement mediums
decreases the zeta potential, allowing antibody and
antigen to come closer together?

A. LISS
B. Polyethylene glycol
C. Polybrene
D. ZZAP

Answer 16

LISS

LISS contains a reduced concentration of NaCl (0.2%)
and results in a reduction in charged ions within the ionic cloud, decreasing the zeta potential and facilitating antigen and antibody interaction.

Question 17

This type of antibody response is analogous to an
anamnestic antibody reaction.

A. Primary
B. Secondary
C. Tertiary
D. Anaphylactic

Answer 17

Secondary

An anamnestic response is a secondary immune
response in which memory lymphocytes respond
rapidly to foreign antigen in producing specific
antibody. The antibodies are IgG and are produced
at lower doses of antigen than in the primary
response.

Question 18

Which antibodies to a component of complement are contained in the rabbit polyspecific antihuman globulin reagent for detection of in vivo sensitization?

A. Anti-IgG and anti-C3a
B. Anti-IgG and anti-C3d
C. Anti-IgG and anti-IgM
D. All of these options

Answer 18

Anti-IgG and anti-C3d

In the DAT (direct antiglobulin test), rabbit polyspecific antisera contains both an anti-human
IgG component and an antibody against the C3d
component of complement