Antibodies I

Question 1

Proteins present in mucosal secretions, blood, & tissue fluid

Answer 1

Antibodies

Question 2

Bind to toxins, viruses, & bacteria, blocking their access to our cells

Answer 2

Antibodies

Question 3

Antibodies are classified as

Answer 3

Immunoglobins (Ig)

Question 4

The structure of all antibodies is based on a unit of

Answer 4

Four polypeptide chains

Question 5

Antibodies are made up of

Answer 5

2 heavy chains and 2 light chains

Question 6

Connect each heavy chain to its partner light chain, and connect the two heavy chains

Answer 6

Disulfide bonds

Question 7

In a given Ig, the two heavy chains are always identical, as are the

Answer 7

Two light chains

Question 8

Each Ig chain is divided into regions or domains consisting of around

Answer 8

110 amino acid residues

Question 9

How many domains are in the

1. ) Light chain?
2. ) Heavy chain?

Answer 9

1. ) 2

2. ) 4

Question 10

The N-terminal domain on both the heavy and light chain are known as the

Answer 10

Variable domains (VL and VH)

Question 11

The other domains are called

Answer 11

Constant domains (CL and CH1-3)

Question 12

The heavy chain also contains a flexible

• in the middle
• allows the two arms of an Ig molecule to move with respect to eachother

Answer 12

Hinge domain

Question 13

The antigen-binding sites are formed in the

Answer 13

Variable domains

Question 14

Each Ig has two identical

Answer 14

Binding sites

Question 15

Antigens are often macromolecules. An antibody binds to only a small portion of an antigen’s surface, called an

Answer 15

Epitope or antigenic determinant

Question 16

Are both sterically and chemically complementary

Answer 16

Antibody and epitope

Question 17

Sterically they fit together the way a lock fits its key. The interacting surfaces form multiple

Answer 17

Noncovalent bonds

Question 18

A protein epitope typically contains 15-25 amino acid side chains, forming a ‘patch’ on the

Answer 18

Protein’s surface

Question 19

The number of weak interactions is in the range of 50-200. A small number of side chains on both sides contribute the bulk of the

Answer 19

Binding energy

Question 20

A small epitope, such as a short peptide or a small molecule, may interact with only a small portion of the

Answer 20

Combining site

Question 21

Combining sites are formed from only a small part of each

Answer 21

Variable domain

Question 22

Formed from complementarity-determining regions (CDR), loops of polypeptide chain at the ends of paired VH and VL domains

Answer 22

Combining site

Question 23

Each V domain has 3

Answer 23

CDRs

Question 24

The remainder of the V domains is largely B-sheet and comprises framework regions that hold

Answer 24

CDRs in place

Question 25

When antibody V-domains are compared, CDR’s are much more different than framework regions. For this reason, CDR’s are also called

Answer 25

Hypervariable regions

Question 26

CDR’s of both VH and VL make up the combining site; they are held in place by interactions between them and between their associated

Answer 26

CH1 and CL domains

Question 27

A large, complex, antigen such as a protein has many

Answer 27

Epitopes

Question 28

When the immune system reacts to such an antigen, although each individual Ig molecule is epitope-specific, the population of antibodies produced in the immune system can bind to many different

Answer 28

Epitopes

Question 29

Since each distinct type of antibody is produced by a clone of plasma cells, the process of antibody production in response to a complex antigen is termed a

Answer 29

Polyclonal response

Question 30

Not all epitopes are equally strong stimuli. Most of the antibodies formed may be antibodies to a few

Answer 30

Immunodominant epitopes

Question 31

Dominant epitopes are typically present in

Answer 31

Many copies

Question 32

The structure of the binding site depends on the nature of the

Answer 32

Epitope

Question 33

If the epitope is a small molecule the binding site will be a

Answer 33

Pit in the surface of the antibody

Question 34

This “pit” is necessary because only by surrounding the small molecule can enough weak bonds be made to allow for

Answer 34

Good binding

Question 35

If the epitope is elongate, such as a peptide or carbohydrate chain, the binding site will be a

Answer 35

Groove

Question 36

If the epitope is part of the surface of a protein, the binding site will be a

Answer 36

Lumpy Surface

Question 37

Cleave antibodies at specific sites

Answer 37

Proteases

Question 38

Produces two Fab fragments and one Fc fragment

Answer 38

Papain Cleavage

Question 39

Univalent antigen-binding fragments composed of one entire Ig light chain and the amino terminal part of one of the Ig heavy chain, linked to each other by a disulfide bond

Answer 39

Fab

Question 40

Contains the variable region of the immunoglobulin molecule, which contains the antigen-binding site, and the first constant region

Answer 40

Fab

Question 41

Crystallizable fragments composed of the carboxyterminal parts of the heavy chain constant regions of both Ig heavy chains linked to each other by disulfide bonds

Answer 41

Fc

Question 42

Fc fragments are responsible for the effector functions of an

Answer 42

Immunoglobin

Question 43

(Fab’)2 contains two Fab fragments, that is, it contains

Answer 43

2 light chains and portions of 2 heavy chains

Question 44

(Fab’)2 contains two

Answer 44

Antigen combining sites

Question 45

May be used when it is desired to bind antibody to antigen without cross-linking

Answer 45

Fab fragments

Question 46

An Ig molecule consists of a heavy chain and a light chain. The light chain can be either a

Answer 46

Kappa or Gamma chain

Question 47

Genes for the Ig chains are present in segments. Each gene segment has multiple copies which are clustered in a distinct chromosomal region in the

Answer 47

Germline cells

Question 48

. For example, the Ig heavy chain gene complex consists of a constant (CH), a joint (JH), a diversity (D), and a variable (VH) region containing

Answer 48

11, 6, 25, and >130 gene segments, respectively

Question 49

Ig genes are made

Answer 49

Somatically

Question 50

During development of each antibodyproducing cell, its H- and Lchain genes are assembled from libraries of

Answer 50

Short gene segments

Question 51

In an antibody-producing cell, after assembly, the gene for Ig k light chain contains exons encoding the

Answer 51

Variable domain and the constant domain

Question 52

The V domain exon is composed of which two DNA segments?

Answer 52

V and J

Question 53

A functional V-region exon was assembled by selection of one V and one J segment from each array during

Answer 53

B cell development

Question 54

The unique structure of an antibody’s combining site, produced by choice of V, D, and J segments, and other mechanisms discussed below, defines its

Answer 54

Idiotype

Question 55

The receptors by which T cells recognize antigens (TCR = T cell Receptor) resemble antibody

Answer 55

Fab regions

Question 56

Each of the two chains of the TCR has a

Answer 56

Variable domain and a constant domain

Question 57

The variable domain of the TCR a-chain of the receptor is assembled from

Answer 57

V and J segments

Question 58

The variable region of the TCR B-chain is assembled from

Answer 58

V, J, and D segments

Question 59

The splicing machinery requires that a pair of sites to be cut and spliced include one with a 12-base spacer and one with a 23-base spacer. This ensures the correct splicing of

Answer 59

V, D, and J segments

Question 60

Because of the 12/23 requirement, a V segment cannot be spliced directly to a

Answer 60

J segment

Question 61

Recognize the conserved DNA signals and target the initial cuts

Answer 61

RAG1 and RAG2 gene products

Question 62

RAG stands for

Answer 62

Recombination of Antibody Genes

Question 63

The RAG1/RAG2 complex has the structure of a bacterial

Answer 63

Transposase

Question 64

RAG1 and RAG2 are found only in

Answer 64

Lymphocytes

Question 65

Other proteins essential for splicing are found in all cells and form part of the DNA repair machinery. Hence some DNA-repair deficiencies also lead to

Answer 65

Immunodeficiency

Question 66

Additional diversity is created at

Answer 66

Splice junctions

Question 67

V/D and D/J splice joints occur in

Answer 67

CDR3 regions

Question 68

Mechanisms that increase diversity at splice junctions increase combining-site diversity by a factor of about

Answer 68

10^5

Question 69

Randomly adds nucleotides to the cut ends of V, D, and J segments

Answer 69

DNA terminal deoxyribonucleotidyl transferase (TdT)

Question 70

Found only in developing lymphocytes and is sometimes used as a histochemical marker to identify them

Answer 70

TdT

Question 71

Repeated exposure to antigen results in progressive increase in

Answer 71

Antibody affinity (called affinity maturation)

Question 72

This is one reason why immunizations require a series of booster shots: each booster improves the

Answer 72

Affinity of the antibody

Question 73

The basis of affinity maturation is that, in germinal centers, there is high-level somatic mutation of the

Answer 73

Variable regions of immunoglobulin genes

Question 74

Mutation is random, so many mutations lower the affinity of the combining site for

Answer 74

Antigens

Question 75

Cells with such mutations are no longer stimulated by antigen, and

Answer 75

Die

Question 76

Cells with receptors which bind antigen the most tightly are most highly stimulated by it, proliferate most extensively, and occupy an increasing fraction of the

Answer 76

Population

Question 77

Antibody gene rearrangements sometimes results in

Answer 77

Cancer

Question 78

Rare errors in rearrangement can join the VDJ region of an immunoglobulin locus, not to a constant region segment, but to another gene entirely, sometimes on another chromosome. This may place this gene under the control of a powerful B-cell specific transcriptional enhancer close to the VDJ region. If the gene is involved in control of cell proliferation, overproduction may lead to uncontrolled cell division and formation of a clone of malignant cells. This is the origin of the chromosomal translocation seen in

Answer 78

Burkitt Lymphoma

Question 79

The class (or isotype) of the antibody is defined by the

Answer 79

Heavy chain

Question 80

Each class of antibody has a heavy chain with a different

Answer 80

Amino acid sequence

Question 81

The five immunoglobulin classes are designated

Answer 81

IgA, IgG, IgM, IgE, and IgD

Question 82

How many subclasses does

1. ) IgG have?
2. ) IgA have?

Answer 82

1. ) 4

2. ) 2

Question 83

Subclasses have distinct functional roles; for example, IgG made in response to polysaccharide antigens is mostly

Answer 83

IgG2

Question 84

There are two different kinds of light chain, designated

Answer 84

Kappa (k) and gamma (y)

Question 85

An antibody-producing cell makes one and only one kind of

Answer 85

Light chain and heavy chain

Question 86

Recognize only a single epitope

Answer 86

Monoclonal antibodies

Question 87

Antibody-producing cells do not live long in culture. They are immortalized by fusing them with

Answer 87

Tumor Cells

Question 88

Individual fused cells are then cloned and each clone must be screened for production of antibody to the desired

Answer 88

Antigen or epitope

Question 89

Monoclonal antibodies are made in

Answer 89

Mice

Question 90

DNA encoding the CDR’s of their V domains can be cloned and sequenced and then incorporated into human

Answer 90

H- and L-chain genes

Question 91

Antibodies produced in this way are called

Answer 91

Humanized antibodies

Question 92

By genetic engineering proteins can be produced that contain part of an

Answer 92

Antibody chain

Question 93

For example, an experimental mode of anti-cancer therapy uses Fab fragments of an anti-tumor antibody to target a protein toxin to

Answer 93

Tumors

Question 94

Makes only one type of light chain and one type of heavy chain (‘allelic exclusion’)

Answer 94

Each B lymphocyte

Question 95

Successful assembly of one heavy-chain gene on one chromosome prevents rearrangement on the

Answer 95

Other

Question 96

The appearance of these chains on the plasma membrane may create an intracellular signal that prevents further

Answer 96

Re-arrangement

Question 97

Membrane and secreted forms of the same immunoglobulin are created by different patterns of

Answer 97

RNA splicing

Question 98

B cells, prior to antigenic stimulation, make immunoglobulin as a

Answer 98

Transmembrane protein

Question 99

In B cells, exons encoding the transmembrane and cytosolic domains of the Ig are retained when the primary transcript is spliced; in plasma cells they are

Answer 99

Excised

Question 100

Antibodies of primary and secondary immune responses are

Answer 100

Different