F.3.1 – F 3.5 F3 Microbes and biotechnology. F. 3.1 State that reverse transcriptase catalyzes the production of RNA to DNA.

F.3.1 – F 3.5

F3 Microbes and biotechnology

F. 3.1 State that reverse transcriptase catalyzes the production of RNA to DNA

›Reverse transcriptase is an enzyme isolated from retroviruses which catalyses the production of DNA from an RNA template

RNA as Viral Genetic Material

› The broadest variety of RNA genomes is found in viruses that infect animals

› Retroviruses use reverse transcriptase to copy their RNA genome into DNA

› HIV (human immunodeficiency virus) is the retrovirus that causes AIDS (acquired immunodeficiency syndrome)

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Glycoprotein

Reversetranscriptase HIV

Viral envelope

Capsid

RNA (twoidenticalstrands)

HOSTCELL

Viral RNAReversetranscriptase

RNA-DNAhybrid

DNA

NUCLEUSProvirus

ChromosomalDNA

RNA genomefor thenext viralgeneration

mRNA

New virus

HIV

Membraneof whiteblood cell

0.25 m

HIV entering a cell

New HIV leaving a cell

Figure 19.8

Glycoprotein

Reversetranscriptase

HIV

Viral envelope

Capsid

RNA (twoidenticalstrands)

HOSTCELL

Viral RNAReversetranscriptase

RNA-DNAhybrid

DNA

NUCLEUSProvirusChromosomal

DNA

RNA genomefor thenext viralgeneration

mRNA

New virus

Figure 19.8a

Figure 19.8b

HIV

Membraneof whiteblood cell

HIV entering a cell New HIV leaving a cell

0.25 m

› The viral DNA that is integrated into the host genome is called a provirus

› Unlike a prophage, a provirus remains a permanent resident of the host cell

› The host’s RNA polymerase transcribes the proviral DNA into RNA molecules

› The RNA molecules function both as mRNA for synthesis of viral proteins and as genomes for new virus particles released from the cell

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Animation: HIV Reproductive CycleRight-click slide / select “Play”

F. 3.2 Explain how reverse transcriptase is used in molecular biology

› A complementary DNA (cDNA) library is made by cloning DNA made in vitro by reverse transcription of all the mRNA produced by a particular cell

› A cDNA library represents only part of the genome—only the subset of genes transcribed into mRNA in the original cells

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› Reverse transcriptase is used as part of recombinant DNA technology to produce genes for gene transfer

› The enzyme catalyses the production of a complementary (single) strand of copy DNA (cDNA) from an mRNA template

› As RNA undergoes post-transcriptional modification (i.e. splicing) prior to forming mRNA, cDNA does not contain introns

› As bacteria lack the machinery for intron removal, genes spliced into bacterial hosts need introns removed in order to generate functional proteins

› Examples of how reverse transcriptase has been used in molecular biology include:– The mass production of human insulin by E. coli cells– The generation of cDNA libraries for use in DNA microarrays (DNA

fingerprinting)

Figure 20.6-1

DNA innucleus

mRNAs incytoplasm

Figure 20.6-2

DNA innucleus

mRNAs incytoplasm

mRNA

Reversetranscriptase Poly-A tail

DNAstrand

Primer

55

33

A A A A A AT T T T T

Figure 20.6-3

DNA innucleus

mRNAs incytoplasm

mRNA

Reversetranscriptase Poly-A tail

DNAstrand

Primer

55

55

33

33

A A A A A A

A A A A A A

T T T T T

T T T T T

Figure 20.6-4

DNA innucleus

mRNAs incytoplasm

mRNA

Reversetranscriptase Poly-A tail

DNAstrand

Primer

DNA polymerase

55

55

55

33

33

33

A A A A A A

A A A A A A

T T T T T

T T T T T

Figure 20.6-5

DNA innucleus

mRNAs incytoplasm

mRNA

Reversetranscriptase Poly-A tail

DNAstrand

Primer

DNA polymerase

cDNA

55

55

55

55

33

33

33

33

A A A A A A

A A A A A A

T T T T T

T T T T T

F.3.3 Distinguish between somatic and germ line therapy

Gene therapy is the insertion of genes into an individual's cells and tissues in order to treat genetic diseases

http://learn.genetics.utah.edu/content/genetherapy/gtintro/

What is gene therapy?

F.3.4 Outline the use of viral vectors in gene therapy

Concept 20.4: The practical applications of DNA technology affect our lives in many ways

› Many fields benefit from DNA technology and genetic engineering

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Human Gene Therapy› Gene therapy is the alteration of an afflicted

individual’s genes

› Gene therapy holds great potential for treating disorders traceable to a single defective gene

› Vectors are used for delivery of genes into specific types of cells, for example bone marrow

› Gene therapy provokes both technical and ethical questions

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Figure 20.23 Cloned gene

2

1

3

4

Retroviruscapsid

Bonemarrowcell frompatient

Viral RNA

Bonemarrow

Insert RNA version of normal alleleinto retrovirus.

Let retrovirus infect bone marrow cellsthat have been removed from thepatient and cultured.

Viral DNA carrying the normalallele inserts into chromosome.

Inject engineeredcells into patient.

› Viral vectors have been used to facilitate the replacement of defective genes with healthy, functional copies

› Individuals with severe combined immunodeficiency (SCID) may have be unable to synthesize the enzyme adenosine deaminase (ADA)

› White blood cells or bone marrow cells are removed and, using a viral vector, a copy of the normal gene is integrated into the cell's genome

› When the cells are replaced in the body of the patient the normal gene is expressed, resulting in the production of ADA and the treatment of SCID

› There are still technical problems to be solved before this becomes viable technology – e.g. ensuring correct amount at right time and place

F.3.5 Discuss the risks of gene therapy

Safety and Ethical Questions Raised by DNA Technology

› Potential benefits of genetic engineering must be weighed against potential hazards of creating harmful products or procedures

› Guidelines are in place in the United States and other countries to ensure safe practices for recombinant DNA technology

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› Most public concern about possible hazards centers on genetically modified (GM) organisms used as food

› Some are concerned about the creation of “super weeds” from the transfer of genes from GM crops to their wild relatives

› Other worries include the possibility that transgenic protein products might cause allergic reactions

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› As biotechnology continues to change, so does its use in agriculture, industry, and medicine

› National agencies and international organizations strive to set guidelines for safe and ethical practices in the use of biotechnology

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› Undesirable health effects (e.g. cancers / death)

› If gene insertion occurs in the wrong location it may affect the functioning of pre-existing genes that are vital within the genome

› Viral vectors may infect healthy cells or tissues

› Virus may revert to original form (mutate) and become pathogenic

› Virus entry may trigger an immune response leading to inflammation, toxicity and organ failure

› Treatment must be repeated at regular intervals, increasing likelihood of adverse treatment response with time

Risks associated with Gene Therapy