Biotechnology Dolly and surrogate Mom Genetically modified rice. Embryonic stem cells and gene therapy

Biotechnology Biotechnology, defined broadly, is the engineering of organisms for useful purposes. Often, biotechnology involves the creation of hybrid genes and their introduction into organisms in which some or all of the gene is not normally present. Fourteen month-old genetically engineered (“biotech”) salmon (left) and standard salmon (right).

Biotechnology We’ll examine: Animal cloning Gene cloning for pharmaceutical production The promise and perhaps perils of embryonic stem cells DNA fingerprinting Genetically modified foods and the American- European opinion divide.

Animal Cloning Dolly and her surrogate mother.

Why Clone Animals? To answer questions of basic biology Five genetically identical cloned pigs. For herd improvement.To satisfy our desires (e.g. pet cloning). For pharmaceutical production.

Is Animal Cloning Ethical? The first cloned horse and her surrogate mother/genetic twin. As with many important questions, the answer is beyond the scope of science.

The Biotechnology of Reproductive Cloning Even under the best of circumstances, the current technology of cloning is very inefficient. Cloning provides the most direct demonstration that all cells of an individual share a common genetic blueprint.

Saved by Cloning? Some are firm believers while many view these approaches to be more of a stunt. Note the use of a closely related species, a domestic goat, as egg donor and surrogate mother.

(Science (2002) 295:1443) Carbon Copy– the First Cloned Pet Significantly, Carbon Copy is not a phenotypic carbon copy of the animal she was cloned from.

The Next Step? Highly unlikely. Attempts at human cloning are viewed very unfavorably in the scientific community.

Recombinant DNA, Gene Cloning, and Pharmaceutical Production DNA can be cut at specific sequences using restriction enzymes. This creates DNA fragments useful for gene cloning. These are mature and widely utilized biotechnologies.

Harnessing the Power of Recombinant DNA Technology – Human Insulin Production by Bacteria

Human Insulin Production by Bacteria 6) join the plasmid and human fragment and cut with a restriction enzyme

Human Insulin Production by Bacteria Mix the recombinant plasmid with bacteria. Screening bacterial cells to learn which contain the human insulin gene is the hard part.

Route to the Production by Bacteria of Human Insulin A fermentor used to grow recombinant bacteria. This is the step when gene cloning takes place. The single recombinant plasmid replicates within a cell. Then the single cell with many recombinant plasmids produces trillions of like cells with recombinant plasmid – and the human insulin gene. One cell with the recombinant plasmid

Route to the Production by Bacteria of Human Insulin The final steps are to collect the bacteria, break open the cells, and purify the insulin protein expressed from the recombinant human insulin gene.

Route to the Production by Bacteria of Human Insulin Overview of gene cloning. Cloning animation

Pharming These goats contain the human gene for a clot-dissolving protein that is produced in their milk. Pharming is the production of pharmaceuticals in animals engineered to contain a foreign, drug-producing gene.

The Promise and Possible Perils of Stem Cells

The Stem Cell Concept A stem cell is an undifferentiated, dividing cell that gives rise to a daughter cell like itself and a daughter cell that becomes a specialized cell type.

Stem Cells are Found in the Adult, but the Most Promising Types of Stem Cells for Therapy are Embryonic Stem Cells

The Inner Cell Mass is the Source of Embryonic Stem Cells The embryo is destroyed by separating it into individual cells for the collection of ICM cells.

Some Thorny Ethical Questions Is it ethical to harvest embryonic stem cells from the “extra” embryos created during in vitro fertilization? Are these masses of cells a human?

Additional Potential Dilemmas – Therapeutic Cloning to Obtain Matched Embryonic Stem Cells Cells from any source other than you or an identical twin present the problem of rejection. If so, how can matched embryonic stem cells be obtained? A cloned embryo of a person can be made, and embryonic stem cells harvested from these clones. Cultured mouse embryonic stem cells.

Therapeutic Cloning Is there any ethical difference between therapeutic and reproductive cloning?

DNA, the Law, and Many Other Applications – The Technology of DNA Fingerprinting A DNA fingerprint used in a murder case. What are we looking at? How was it produced? The defendant stated that the blood on his clothing was his.

DNA Fingerprinting Basics Different individuals carry different alleles. Most alleles useful for DNA fingerprinting differ on the basis of the number of repetitive DNA sequences they contain.

DNA Fingerprinting Basics If DNA is cut with a restriction enzyme that recognizes sites on either side of the region that varies, DNA fragments of different sizes will be produced. A DNA fingerprint is made by analyzing the sizes of DNA fragments produced from a number of different sites in the genome that vary in length. The more common the length variation at a particular site and the greater the number the sites analyzed, the more informative the fingerprint.

A Site With Three Alleles Useful for DNA Fingerprinting DNA fragments of different size will be produced by a restriction enzyme that cuts at the points shown by the arrows.

The DNA Fragments Are Separated on the Basis of Size The technique is gel electrophoresis. The pattern of DNA bands is compared between each sample loaded on the gel. Gel electrophoresis animation

Possible Patterns for a Single “Gene” With Three Alleles In a standard DNA fingerprint, about a dozen sites are analyzed, with each site having many possible alleles.

A DNA Fingerprint When many genes are analyzed, each with many different alleles, the chance that two patterns match by coincidence is vanishingly small. DNA detective animation HGP fingerprinting page

DNA and the Law SLT 3/8/05 Some applications of DNA fingerprinting in the justice system.

Genetically Modified Foods Many of our crops in the US are genetically modified. Should they be?

GM Crops are Here Today Source: Pew Initiative on Food and Biotechnology, August 2004.

Methods for Plant Genetic Engineering are Well-Developed and Similar to Those for Animals

Golden Rice is Modified to be Provide a Dietary Source of Vitamin A Worldwide, 7% of children suffer vitamin A deficiency, many of them living in regions in which rice is a staple of the diet. Golden rice (yellow) with standard rice (white).

Genetically Modified Crops Genetically Modified Cotton (contains a bacterial gene for pest resistance) Standard Cotton

GMOs, Especially Outside the US, Are a Divisive Issue Protesters at the 2000 Montreal World Trade Summit European sentiment

Current Concerns by Scientists Focus on Environmental, Not Health, Effects of GM Crops The jury’s still out on the magnitude of GM crop’s ecological impact, but the question is debated seriously.

Current Concerns by Scientists Focus on Environmental, Not Health, Effects of GM Crops

Your Assignment: Create a GMO You will create a genetically modified organism that will be beneficial to society. You can choose to make a hybrid organism by selecting a gene from one organism and putting it into another you can create a new “breed” of an organism that has new and different characteristics. You will be presenting these at the end of class