Bio 130 Human Biology Chapter 20 DNA and Biotechnology.

Bio 130 Human Biology

Chapter 20

DNA and Biotechnology

DNA molecule

Bio 130 Human Biology

DNA Is a Double Helix Consisting of Two Strings of Nucleotides

Bio 130 Human Biology

During Replication of DNA Each Original Strand Serves As a Template for a New Strand

This process is also used by Man to determine the sequence of DNA

Semiconservative replication

Each new strandhas half an original strand

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DNA Sequencing

Figure 20.1

Gel Electrophoresis

Figure 20.1 (2 of 3)

DNA Sequencing

Figure 20.1 (3 of 3)

Bio 130 Human Biology

DNA Codes for RNA, Which Codes for a Protein

This is the central dogma of DNA

transcription

This RNA Molecule will be translated by Ribosomes into a protein. This protein has an activity that will give us a phenotype

Bio 130 Human Biology

DNA Codes for RNA, Which Codes for a Protein

Translation is protein synthesis the genetic code

Table 17.7 page 405 (from ch 17)

A codon is 3 nucleotides together Each codon, represents a specific Amino Acid Changes in a sequence, will change a codon

which will change the protein

Codons and their AA

Fig 17.7

Bio 130 Human Biology

The Human Genome Project

An effort to sequence the entire human genome

What Does it do Function Change over time Identify disease/health

Sequencing

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Genetic Map

Figure 20.12 (1/4)

Now we know the sequence

What tools do we have and how can we use them.

Bio 130 Human Biology

Recombinant DNA Technique

Figure 20.3

What to do when you don’t want or need a vector?

Bio 130 Human Biology

Bio 130 Human Biology

Polymerase Chain Reaction (PCR)

Figure 20.5 (1/2)

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Polymerase Chain Reaction (PCR)

Figure 20.5 (2/2)

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Genetic Engineering Is the Manipulation of DNA for Human Purposes

Recombinant DNA is made of DNA from different sources

Humans can not mix and match various genes from different organisms

This allows us to do things in a few years which previously would take deckades

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Laboratory-Modified DNA

Recombinant DNA: cutting, splicing, copying DNA

Restriction enzymes DNA ligases Plasmids

Bio 130 Human Biology

Recombinant DNA Technique

Figure 20.4

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Genetic Engineering: Transgenic Organisms

Transgenic bacterial uses to make bioactive molecules (medicine): Insulin Human growth hormone Erythropoeitin Tissue plasminogen activator (tPA) Vaccines

Bio 130 Human Biology

Genetic Engineering: Transgenic Organisms

Transgenic plants: Increased resistance to freezing Longer shelf life of fruits and vegetables Increased vitamin A (and overall nutrition) Edible vaccines Human proteins (i.e., albumin) (when required in very

large amounts)

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Transgenic Animals

Bigger challenges: No plasmid use Cloning more difficult

Successes: Bovine growth hormone for faster animal growth “Gene farming”

Bio 130 Human Biology

Genetic Engineering Is the Manipulation of DNA for Human Purposes

Recombinant DNA is made of DNA from different sources

Bio 130 Human Biology

Genetic Engineering Is the Manipulation of DNA for Human Purposes

Gene therapy replaces faulty genes with functional genes methods of delivering a healthy gene examples of conditions suitable for gene therapy

Faulty information in mRNA may someday be correctable

Gene silencing may someday adjust gene activity DNA fingerprinting can identify individuals

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Gene Therapy: Hope of the Future

Obstacles: Transplant into “right” cells Into reproductive cells?

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Vectors Transfer Genes to Human Cells

Figure 20.13

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Vectors Transfer Genes to Human Cells (cont.)

Retroviruses Liposomes Direct DNA injection

Bio 130 Human Biology

Gene Therapy Successes

Severe combined immunodeficiency (SCID) success

Cystic fibrosis Cancer research

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Gene therapy

ornithine transcarboxylase deficiency (OTCD).

X-linked severe combined immunodeficiency disease (X-SCID),

Not approved by the FDA

Bio 130 Human Biology

The Purpose of the Human Genome Project Is to Identify the Complete DNA Sequence of the Human Genome

A way to identify and characterize all the genes and the entire sequence of the human genome.

Funded by the DOE

A way to look at change in the human genome and health over time

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What we can do with this info?

Individual medicine Diagnose Disease faster Identify individuals

Bio 130 Human Biology

DNA Fingerprint

Using an individuals unique DNA sequence and 20 or so specific marker we can determine who and individual is

Process DNA sample cut with restriction enzymes and

separated by size. Probes that bind to specific sequences of DNA

will highlight their specific matches. The pattern is used to identify individuals