Molecular Diagnostic Techniques

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Are made up of nucleotides that occur in very specific sequences in different cells and microorganisms.

DNA and RNA

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________ is a double-stranded molecule w/ very specific base pair linkages: Adenine-Thymine, guanine-cytosine

DNA

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When the molecule is replicated, the styrends are _____, and a new strand is created that is complementary to the parent strand.

separated

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The exact base pairing foms the baeses for identification of unknown sequences through the use of known short nucleic acid sequences called _________

probes

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The pairing of a probe w/ a complementary DNA strand is called________. Probe is labeled w/ a marker for detection.

hybridization

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Dot-blots and sendwich hybridization techniques are used to directly identify specific ________ in patient sample.

sequences (probes)

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Detailed characteristics of the DNA is done by the use of enzyme _________ that cleave DNA at specific recognition sites.

restriction endonucleases

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Specdific microrganisms can be identified on the basis of unique paterns obtained, called ______

RFLPs

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when intact cells or tissues is used ____ takes place

in situ hybridization

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It is used to identify alterations of genes in various cancers

chip technology

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The most widely used method of target amplification

PCR polymerase chain reaction

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Probes ruther than target nucleic acid can be amplified by _________

LCR ligase chain reaction

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All amplification techniques are subject to ________ reactions resulting from eighter contamination with previously amplified products or background reactivity.

false-positive

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Technology that generates multiple copies of a specific target nucleotide sequence from a target organism

PCR polymerase chain reaction

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The genetic sequence refers to the order of the ________(bases)

nucleotides

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Ex: sequence is CATG. It will only bond (hybridize) with its complement ____

GTAC

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Specific sequence of base pairs codes for specific ______ representative of each organism

amino acids

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_______ contains highly conserved coded regions common for the organism; (Variable regions resulting in individual ________.

Genome; traits_

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Selection of a highly conserved area enables high_________ for PCR method

specificity

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Formation of a linear amino acid chain using the mRNA strand is called________

Translation

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Normally a very stable molecule

DNA

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Heat will cause denaturing rezulting in __________

Strands separation

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Cooling results in ____ rezulting in complementary strands to rejoin

annealing

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In molecular testing the ______ is mannipulated.

replication of DNA

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Procedure is done by : extraction, amplification and ________

detection

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Extraction ia done from the ______

the specimen

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Steps to ______________ procedure: Separate DNA strands; Target specific sequence; Attach primers & add polymerase; Replicate target sequence & repeat.

Amplification

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Used for Detection in molecular testing

enzyme, fluorescent or chemical means

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Used in moleculat testing: Test DNA sample; _________ primers; ________ DNA polymerase (Taq); Nucleotide triphosphates (ATP, GTP, CTP, TTP)

Oligonucleotide; Thermostable

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It is done: Usually >90 C separates double stranded DNA into two single strands; The ________ holding the bases together are weak, unlike the bonds between the deoxyribose & phosphates

Denaturation by Heat; hydrogen bonds

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Step 2: Annealing-Primer Binding to the Target means not to replicate the entire strand but just the target sequence; often ______ base pairs

100-600

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Always begins at 3’ end of the primer, making double strands of the single strands

Extension

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When Two new DNA strands identical to the original target form, the ________ is done.

End of the first cycle

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Molecular Diagnostic techniques are used to: Detection of Hgb ________; Numerous viral and microbial organisms, Human Immunodeficiency virus, Hepatitis C.Human PapillomavirusesWest Nile Virus

S variant

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_______ carries the primary genetic information within chromosomes found in each cell

DNA

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_____ is an intermediate nucleic acid structure that helps convert the genetic information encoded within DNA into proteins.

RNA

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Both nucleic acid structures are ______ made up of repeating nucleotides

polymers

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The sugar deoxyribose is present in ________, while ribose is the primary sugar found in ____.

DNA; RNA

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DNA and RNA have the same two _____ bases, adenine and guanine, but the _____ bases differ.

purine; pyrimidine

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DNA uses cytosine and thymine; RNA uses cytosine and _______.

uracil

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DNA exists primarily as a ____ molecule with very specific base pair linkages: adenine pairs with thymine, and cytosine pairs with ______.

double-stranded; guanine

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The two strands are twisted into an ___________

alpha helix.

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Hydrogen bonding between adjacent bases holds the ______ together

two chains

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______is characterized as a semi-conservative process, because one strand of the molecule acts as a template for creation of a complementary strand.

Replication of DNA

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When DNA replicates, ________molecules result, each of which is an exact copy of the original molecule.

Two daughter

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The double helix can easily be separated or denatured using heat or an _______ solution

alkaline

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When heat is used to separate the strands, the process is known as ________

melting

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__________ is the generation of a strand of messenger RNA (mRNA) that codes for the gene that is to be expressed as a protein.

Transcription

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_______ occurs when the mRNA travels from the nucleus into the ________ of the cell to ribosomes to guide protein synthesis.

Translation; cytoplasm

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All forms of RNA are _______polymers with an irregular _________ structure of much shorter lengths than DNA

single-stranded; three-dimensional

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____________ is used to translate the DNA code into making functional proteins.

Messenger RNA (mRNA)

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_______ transports amino acids to make proteins.

Transfer RNA (tRNA)

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_________ acts as the site for protein synthesis directed by the mRNA.

Ribosomal RNA (rRNA)

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___________ is a short strand of DNA or RNA of a known sequence that is used to identify the presence of its complementary DNA or RNA in a patient specimen.

A nucleic acid probe

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The two strands should share at least ____ consecutive bases of perfect _______ to form a stable hybrid.

16 to 20 ; complementarity

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Probes are labeled with a ______, such as a radioisotope, a fluorochrome, an enzyme, or a chemiluminescent substrate to make detection of hybridization possible.

marker

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________ can take place either in a solid support medium or in solution.

Hybridization

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___________ assays are the simplest types of solid support hybridization assays.

Dot-blot and sandwich hybridization

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In the dot-blot assay, clinical samples are applied directly to a ___________.

membrane surface

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A positive result indicates presence of a specific __________.

sequence of interest.

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___________ uses two probes, one of which is bound to the membrane and serves to capture target sample DNA; The second probe anneals to a different site on the target DNA, and it has a label for detection.

Sandwich hybridization

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Sandwich hybridization assays have been developed using ___________ plates instead of membranes, which is more adaptable to automation.

microtiter

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To characterize DNA present in a patient sample in a more detailed fashion, enzymes called ___________ are often used.

restriction endonucleases

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_______ cleave both strands of a double-stranded DNA at specific recognition sites, yielding fragments that are approximately 4–6 base pairs long.

enzymes

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The resulting fragments are separated from each other on the basis of molecular weight and charge by gel __________.

electrophoresis

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The gel can either be stained with ________ and viewed under ultraviolet light, or specific nucleic acid sequences can be identified through the use of DNA probes

ethidium bromide

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Differences in restriction patterns are referred to as restriction fragment length polymorphisms

RFLPs

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Used to detect polymorphisms in major histocompatibility complex (MHC) genes, or to obtain a DNA fingerprint of a particular individual.

RFLPs

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Analysis of DNA fragments using probes is typically carried out using a technique known as a _______ assay, or Southern blot

Southern hybridization

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After DNA fragments are separated by gel electrophoresis, the fragments are denatured using _______.

alkali

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Southern blots are useful to analyze alterations of ________ of DNA, where amplification by the polymerase chain reaction (PCR) may not be practical.

large spans

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Southern blot analysis can reveal __________ in DNA sequence based on the RFLP profile made visible by the

polymorphisms

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Northern blots are performed in a similar manner to study ___. Used most often to determine the level of expression of a particular ________ RNA.

RNA; messenger

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Hybridization assays can also be performed in a _________ phase

solution

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both the target nucleic acid and the probe are free to interact in a reaction mixture; it happens during ___

solution phase

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__________ assays are fairly adaptable to automation, especially those using chemiluminescent labels.

Solution-phase hybridization

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___________ represents a third type of hybridization reaction in which the target nucleic acid is found in intact cells.

In situ hybridization

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Formalin-fixed and paraffin-embedded tissue sections are typically used for _________ procedure

In situ hybridization

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In situ hybridization technique is the same as immunohistochemistry except that _________ instead of antibodies are used as probes.

nucleic acids

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This technique is used to detect a number of malignancies linked to chromosomal abnormalities.

fluorescent in situ hybridization (FISH).

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_______, also called microarrays, are very small devices used to examine DNA, RNA, and other substances.

Biochips

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Hybridization occurs on the chip’s surface, allowing thousands of hybridization reactions to occur at one time.

Biochips

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The intensity of the fluorescent signal at a particular location is proportional to the sequence ________ at a particular ______.

homology; locus

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Since most ________(SNPs) are silent and have no apparent functional consequence, particular SNPs must be linked to particular disease entities.

single-nucleotide polymorphisms

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Detection of point mutations by ________can be used for classifying leukemias, molecular staging of tumors, and characterizing microbial agents.

microarray

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_________is considered the “gold standard” for many molecular applications

DNA sequencing

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The sequencing reaction itself is based on the __________ reaction developed by Sanger and colleagues in 1977

dideoxy chain termination

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Target amplification systems are in _____ methods for the ______ replication of a target molecule to levels at which it can be readily detected.

vitro; enzymatic

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polymerase chain reaction (PCR), transcription mediated amplification (TMA), strand displacement amplification (SDA), and nucleic acid sequence-based amplification (NASBA) are ______

Target amplification systems

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____requires several components for the reaction to occur: (1) a thermostable DNA polymerase , (2) deoxynucleotides of each base (3) the DNA of interest containing the target sequence, and (4) oligonucleotide primers.

PCR

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_______ primers are short segments of DNA (20–30 nucleotides long), that are complementary to opposite strands.

Oligonucleotide

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Each_______ consists of three steps: denaturing, annealing, and extending at different ____________.

PCR cycle; temperatures

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During _________, the double-stranded DNA is heated to 95ºC to separate or denature the DNA into single strands.

denaturation

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The mixture is then cooled to 52ºC, at which time the primers bind to, or _____ to, the complementary sequences on the separate DNA strands.

anneal

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The third step, _________, takes place typically at 72ºC.

elongation

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The resulting DNA fragments, referred to as __________, are detected using various methods.

amplicons

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amplicons are detected using __________ probes.

labeled nucleic acid

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The enzyme ____________ is used to generate copy DNA (cDNA) using the RNA as a template. Process known as ___________

reverse transcriptase; reverse transcriptase PCR

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One of the major uses for PCR is in testing for the presence of _____.

HIV

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______is also considered the gold standard for detecting __________ virus and monitoring therapy in those infected; identifying Mycobacterium tuberculosis and diagnosing early initial infection with (CMV).

RT-PCR;hepatitis C

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The __________ system (TAS) was the first non-PCR nucleic acid amplification method that amplified an RNA target.

transcription-based amplification

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nucleic acid sequence-based amplification (NASBA) and transcription mediated amplification (TMA); do not require the use of a thermal cycler.

non-PCR target amplification methods

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_____(NASBA) uses the enzymes reverse transcriptase, RNase H, and bacteriophage T7 DNA-dependent RNA polymerase to isothermally amplify an RNA target

Nucleic acid sequence-based amplification

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______ (TMA) uses only two enzymes to drive the reaction: an RNA polymerase and a reverse transcriptase; isothermal like NASBA

Transcription-mediated amplification

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