Genetics (General)

Question 1

Gene

Answer 1

• specific linear sequences of nucleotides located at a specific position (locus) along a chromosome -
• a segment of DNA that codes for a protein, which in turn codes for a trait

Question 2

Allele

Answer 2

An alternate form of a gene that occur at the same locus of a given chromosome

Question 3

Locus

Answer 3

a specific position on a given chromosome

Question 4

Nucleotide

Answer 4

combination of a sugar, a phosphate group, and a base

Question 5

Purine bases

Answer 5

Adenine (A) Guanine (G)

Question 6

Pyrimidine bases:

Answer 6

Thymine (T) Uracil (U) in RNA Cytosine (C)

Question 7

mRNA (messenger RNA)

Answer 7

carries the code for specific amino acid sequences from the DNA to the cytoplasm for protein synthesis. Is a single stranded linear sequence of nucleotides (replacement of thymine by uracil, which also pairs with adenine)

Question 8

tRNA (transfer RNA)

Answer 8

carries the amino acid groups to the ribosome for protein synthesis

Question 9

rRNA (ribosomal RNA)

Answer 9

exists within the ribosomes and is thought to assist in protein synthesis

Question 10

Transcription

Answer 10

RNA is made from DNA

Question 11

Translation

Answer 11

Proteins are made from the message on the RNA

Question 12

RNA Polymerase

Answer 12

is the enzyme responsible for DNA Transcription

Question 13

redundancy

Answer 13

Amino acids can be specified by several different codons called

Question 14

Splicing

Answer 14

process where introns are cut out (process that takes place during mRNA processing)

Question 15

Intron:

Answer 15

are the regions that are not represented in the mRNA

Question 16

Exon:

Answer 16

regions that are represented in mRNA and specify protein-coding sequences and the sequences of the untranslated 5’ and 3’ regions

Question 17

Probe:

Answer 17

• A small slice of DNA whose sequence is complementary to the DNA sequence under study
• Probes may be natural or artificially manufactured

Question 18

Vector:

Answer 18

an independent, self-replicating element

Question 19

DNA Library:

Answer 19

-The total amount of bacterial clones harboring recombinant vectors is termed DNA library

Question 20

Plasmid (vectors)

Answer 20

• Are round molecules of double-stranded DNA that are found naturally in bacteria
• Are used to move genes from cell to cell

Question 21

How is DNA purity assessed

Answer 21

by the ratio of its optical density at 260nm to that at 280nm, with the OD 260/280 ratio for pure DNA being 1.8

Question 22

Low ratios of DNA purity

Answer 22

<1.6 DNA is contaminated with protein or materials used in the isolation procedure

Question 23

High ratios of DNA purity

Answer 23

>2.0, indicated that the DNA is contaminated with RNA

Question 24

PCR steps

Answer 24

1) Denature 2) Annealing 3) Extension

Question 25

Reverse Transcriptase (RT) - PCR

Answer 25

When RNA is reverse transcribed, the resulting DNA is a single-stranded complementary copy of the RNA and is referred to as complementary DNA (cDNA)

Question 26

Gel Detection

Answer 26

Detects bands by staining with ethidium bromide, during or after electrophoresis Amplified DNA analyzed by agarose gel electrophoresis in presence of ethidium bromide which binds to double stranded DNA and is visible under UV light

Question 27

Real-Time PCR

Answer 27

employs one or more “probes” that fluoresce only when the correct amplicon is present.

Question 28

RFLP

Answer 28

restriction fragment length polymorphisms

Question 29

VNTR

Answer 29

variable number tandem repeats (8 - more than 50 base pairs)

Question 30

STR

Answer 30

short tandem repeats (1- 8 base pairs)

Question 31

SNP

Answer 31

single nucleotide polymorphisms

Question 32

Nucleic Acid Amplification Testing (NAT)

Answer 32

• Transcription-mediated amplification
• This testing allows specific sequences to be multiplied rapidly and precisely
• Before amplification, viral RNA must be converted to DNA

Question 33

Restriction Fragment Length Polymorphisms (RFLP)

Answer 33

• sizes are altered by changes in or between enzyme recognition sites.
• RFLP genotypes are inherited -for each locus, one allele is inherited from each parent

Question 34

RFLP uses

Answer 34

• gene mapping
• analysis linkage
• analysis characterization of HLA genes in transplantation (tissue typing)
• paternity testing
• forensic science

Question 35

Polymorphism

Answer 35

• a sequence difference in DNA compared to a reference standard that is present in at least 1-2% of a population
• can be single bases or thousands of bases
• may or may not have phenotypic effects

Question 36

New polymorphisms are created by: (7)

Answer 36

• Missense mutations
• Nonsense mutations
• Mutations resulting in alternate RNA splicing
• Exon insertion
• Gene deletion
• Chromosome translocation
• Gene recombination

Question 37

3 possible outcomes can follow the SUBSTITUTION of a single nucleotide:

Answer 37

• Silent
• Missense
• Nonsense

Question 38

Silent Mutation

Answer 38

• substitution causing no effect on protein being synthesized, because codon would translate to the same amino acid
• occurs when one base is substituted for another, but the effect does not change the codon translation

Question 39

Missense Mutation

Answer 39

• Substitution of an amino acid that changes the nucleotide configuration and the protein being synthesized
• occurs when a substitution could result in a sequence that changes the product of the codon

Question 40

Nonsense Mutation

Answer 40

• A substitution which results in producing a stop codons.
• This means that the protein synthesis is truncated, and does not produce the correct protein
• No protein production occurs beyond this point.

Question 41

How are STR alleles analyzed?

Answer 41

• by fragment size (Southern blot)
• by amplicon size (PCR)

Question 42

SNPs can be used for:

Answer 42

mapping genes human identification chimerism analysis

Question 43

SNPs are detected by:

Answer 43

sequencing melt curve analysis

Question 44

Why genotyping of red cell antigens may be more efficient than traditional serologic typing

Answer 44

-When a patient has received multiple RBCs and it is not possible to distinguish the patient’s own red cells from transfused red cells -Occasionally, the genotype may not correlate with the phenotype. -Focuses on known polymorphisms but does not provide the entire sequence of the gene or its regulatory regions.

Question 45

The most common nucleotide change leading to the expression of a blood group antigen

Answer 45

Single Nucleotide Polymorphisms

Question 46

Minisatellites

Answer 46

variable number of tandem repeat (VNTR) loci consist of tandem repeats of a 6-100 base pair sequence

Question 47

Microsatellites

Answer 47

short tandem repeat (STR) loci consist of tandem repeats of short (4 base pair) sequence

Question 48

DNA fingerprint

Answer 48

So much variation between individuals that chances are very low that same number of repeats will be shared by two individuals

Question 49

Restriction Endonucleases

Answer 49

• protect bacteria from viral infection by degrading viral DNA after it enters cytoplasm
• recognizes only a single specific nucleotide sequence
• enzyme cleaves DNA strand wherever recognized sequence occurs, generating # of DNA fragments whose length depends upon # and location of cleavage sites

Question 50

Common Restriction Endonucleases

Answer 50

• Eco RI (E. coli)
• Hind III (H. influenzae)
• Hpa I (H. parainfluenzae)

Question 51

Restriction enzymes cut double stranded DNA at specific sites in one of three ways.

Question 52

DNA Cloning

Answer 52

• DNA containing gene of interest inserted into vector which is self replicating genetic element such as a virus (eg, bacteriophage lambda) or a plasmid (small circular molecules of double stranded DNA that occur naturally in bacteria)
• After gene inserted into DNA of the vector, recombinant DNA can be introduced into bacterial host where it undergoes replication
• Permits genetic engineering, including production of recombinant proteins and gene therapy

Question 53

Low Resolution Genotyping Methods

Answer 53

• Gel-based methods
  
  • SSP-PCR for known SNPs
  • PCR-RFLP for known SNPs
• High melt resolution analysis

Question 54

Medium Resolution Genotyping Methods

Answer 54

• Arrays
  
  • Immucor BeadChip and Grifols IDCore
• Taqman genotyping
• Single base extesion (SBE) using MALDI-TOF

Question 55

High Resolution Genotyping Methods

Answer 55

• DNA sequence analysis
  
  • Exon scanning
  • cDNA analysis
  • Next Generation Sequencing

Question 56

Method Type (AABB Molecular Testing Standard)

Answer 56

• Novel test method
  
  • At least 20 samples
  • At least a wild-type and heterozygous sample
• New test, existing test method (in the lab)
  
  • At least a wild-type and heterozygous sample

Question 57

DNA Microarrays

Answer 57

• Also called gene chips
• DNA is generated by PCR and the nucleotide sequences are then probed
• Method involves tens of thousands of separate DNA molecules spotted or synthesized on small area of solid support (plated into wells on nonpermeable support such as glass
• The result is a diagram of a gene expression profile
• Used for comparative genomics and genotyping (applied to blood groups)
• Determine genotype and/or phenotype of red cell antigens

Question 58

Gene Therapy

Answer 58

• refers to the introduction of nonself genetic material into cells to treat or prevent disease
• Can be used to replace defective gene, leading to increased production of a specific protein

Question 59

Gene Rearrangement

Answer 59

• Gene rearrangements are normal events that occur in lymphocytes
• Antibody genes [immunoglobulin heavy chain genes, immunoglobulin light chain genes (κ, λ)] and T cell receptor genes (α, β, γ, δ) rearrange
• Rearrangement occurs independently in each cell

Question 60

Northern Blot

Answer 60

• Used to study gene expression
• RNA is analyzed
• Technique uses electrophoresis and detection with a hybridization probe (can be made from DNA or RNA)

Question 61

Southern Blot

Answer 61

• Used to check for the presence of a DNA sequence in a DNA sample (RFLP analysis)
• Combines agarose gel electrophoresis for size separation of DNA with methods to transfer the size-separated DNA to a filter membrane for probe hybridization
• Restriction endonucleases are used to cut high-molecular-weight DNA strands into smaller fragments

Question 62

Western Blot

Answer 62

• Used for detecting specific proteins in a given sample of tissue or cells
• The proteins of the sample are separated using gel electrophoresis (SDS-PAGE)

Question 63

Target and Probe of Southern blot

Answer 63

• Target: DNA
• Probe: Nucleic acid

Question 64

Target and Probe of Northern blot

Answer 64

• Target: RNA
• Probe: Nucleic acid

Question 65

Target and Probe of Western blot

Answer 65

• Target: Protein
• Probe: Protein

Question 66

Target and Probe of Southwestern Blot

Answer 66

• Target: Protein
• Probe: DNA

Question 67

Molecular Events that give rise to Blood Group Antigens

(8)

Answer 67

• Deletions – gene, exon or nucleotide
• Duplication events
• Insertions – nucleotide(s)
• Gene Conversion (template)
• Changes to Regulator/Modifying Genes
• **SNPs are by far the most common nucleotide change leading to the expression of a blood group antigen***
• Errors in DNA replication can generate new blood group antigens
• Nucleotide changes are inherited and predict the expression of an antigen

Question 68

Challenges of Serologic Typing

Answer 68

• Serologic reagents vary or are unavailable: Monoclonal, Polyclonal, blends or patient source
• Antigen variants can be missed: ex. U variants
• Expression level can hamper detection (ex. Weak D)
• Cross-reactivity: ceHAR, ceCF

Question 69

Genetic information can be used for diagnostic purposes:

Answer 69

• Fetal genotyping
• Multi-transfused recipient genotyping
• Blood donor extended blood group genotype screening

Question 70

Indications for genomic RBC typing

Answer 70

• Discrepant serologic results
• Cannot get red cell sample for RBC phenotype
• When zygosity matters
• No antisera exists
• Post-transfusion sample
• Interfering antibodies
• Serologic typing unable to detect
• Desire to RBC type large numbers of people