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© life_edu Lecture 4 Some Techniques in Biotechnology Issues in Biotechnology: The Way We Work With Life Dr. Albert P. Kausch life edu.us The Mechanics.

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Presentation on theme: "© life_edu Lecture 4 Some Techniques in Biotechnology Issues in Biotechnology: The Way We Work With Life Dr. Albert P. Kausch life edu.us The Mechanics."— Presentation transcript:

1 © life_edu Lecture 4 Some Techniques in Biotechnology Issues in Biotechnology: The Way We Work With Life Dr. Albert P. Kausch life edu.us The Mechanics of DNA

2 Issues in Biotechnology: Biotechnology, Our Society and Our Future OnCampus Live BCH 190, MIC 190, AFS 190, NRS 190, PLS 190 OnLine BCH 190 A Sweeping General Survey on Life and Biotechnology A Public Access College Course The University of Rhode Island Kimberly Nelson Issues in Biotechnology: The Way We Work With Life Dr. Albert P. Kausch life edu.us

3 © life_edu A Sweeping General Survey on Life and Biotechnology The University of Rhode Island Issues in Biotechnology: The Way We Work With Life Dr. Albert P. Kausch life edu.us BCH 190 Section I. The Mechanics of Life and General Biotechnology

4 © life_edu 3. Atoms, Cells and the Flow of Life 4. Some Techniques in Biotechnology A Sweeping General Survey on Life and Biotechnology A Public Access College Course The University of Rhode Island Issues in Biotechnology: The Way We Work With Life Dr. Albert P. Kausch life edu.us The Mechanics of DNA

5 © life_edu Lecture 4 Some Techniques in Biotechnology Issues in Biotechnology: The Way We Work With Life Dr. Albert P. Kausch life edu.us The Mechanics of DNA

6 Tools of the Trade The eppendorf tube and the pipetman are the standard stock and trade in the daily work of a molecular biologist

7 Tools of the Trade The eppendorf tube and the pipetman are the standard stock and trade in the daily work of a molecular biologist “On the body of the traditional P-Series pipet it says, in relief, “Gilson.” Warren Gilson, who earned his MD in 1940 at the Univ. of Wisconsin, invented and patented the mechanical basis for the popular adjustable pipet (US Patent No. 3,827,305, 1974), Nearly 40 yrs. After the patent, the Pipetman continues to be manufactured in France in a factory started by Gilson’s colleague, Eugene Marteau D’Autry. Shortly before Gilson’s patent issued Gilson sold the marketing and sales rights to Ken Rainin President of Rainin Instrument, because, Gilson says, ‘He was a good salesman.’”

8 “Eppendorf tubes and Pipetman For the Gold Rush” Innovative technologies become biotech products

9 Separation Techniques: The need to separate the components of Life Precipitation/Dissolution Filters Centrifugation Affinity Blots Magnetics Electrophoresis Etc.

10 The ultracentrifuge is a centrifuge optimized for spinning a rotor at very high speeds, capable of generating acceleration as high as 2,000,000 G (approx 19 600 km/s²). Ultracentrifuges find important uses in molecular biology, biochemistry and polymer science, including separation of cellular structures and molecules.

11 Electro refers to the energy of electricity. Phoresis, from the Greek verb phoros, means “to carry across.” Thus, gel electrophoresis refers to the technique in which molecules are forced across a span of gel, motivated by an electrical current. Gel Electrophoresis: the separation of molecules, DNA, RNA and proteins by charge and size

12 What is a Gel?

13 Agarose is a long chain of sugar molecules, a polymer, derived from algae used in electrophoresis to separate molecules Two types of gel: Agarose (horizontal type) Polyacrylamide (vertical type)

14 How are Gels Loaded and Run?

15 Applications of Gel Electrophoresis DNA Fingerprinting DNA Recombinant Technology Forensics The Human Genome Project

16 DNA carries a net negative charge; it is negatively charged because the phosphates (red circles) that form the sugar-phosphate backbone of a DNA molecule have a negative charge.

17 The gel matrix acts as a sieve for DNA molecules. Large molecules have difficulty getting through the holes in the matrix. Small molecules move easily through the holes. Because of this, large fragments will lag behind small fragments as DNA migrates through the gel.

18 As the separation process continues, the separation between the larger and smaller fragments increases.

19 Molecular weight markers are often electrophoresed with DNA. Molecular weight markers are usually a mixture of DNAs with known molecular weights. Molecular weight markers are used to estimate the sizes of DNA fragments in a DNA sample.

20 Issues in Biotechnology Gel electrophoresis is an important tool in molecular biology and biotechnology. Electro refers to the energy of electricity. Phoresis, from the Greek verb phoros, means “to carry across.” Thus, gel electrophoresis refers to the technique in which molecules are forced across a span of gel, motivated by an electrical current. Gel electrophoresis allows for: (A) the separation of biological molecules, including DNA, RNA and proteins by their charge and size (B) all of the answers are correct (C) the identification of DNA markers now commonly used in forensics to implicate or exonerate persons accused of various crimes (D) the rapid visualization of the products of PCR (E) the acceleration of DNA into cells for genetic engineering purposes

21 The Techniques of Molecular Biotechnology Technology has created new Fields DNA detection Genomics DNA synthesisBioinformatics DNA sequencingPharmacogenomics DNA cloning Transgenics Expression cassette Computational constructionBiology RNA detection Population Genetics Protein detection Proteomics

22 The Techniques of Molecular Biotechnology Technology has created new Fields DNA detection Genomics DNA synthesisBioinformatics DNA sequencingPharmacogenomics DNA cloningTransgenics Expression cassette Computational constructionBiology RNA detection Population Genetics Protein detection Proteomics

23 DNA does not replicate spontaneously, but is facilitated by a group of proteins Interestingly, each of these proteins is coded for in DNA they also replicate Proteins Are Used to Copy DNA

24 Enzymes were discovered that cut DNA at specific sequences And subsequently, enzymes were discovered that paste DNA together The ability to cut and paste DNA allowed gene cloning

25 Plasmids are circular pieces of DNA found in some bacteria Many copies per cell Antibiotic resistance gene Plasmids can be cut and pasted back together Foreign genes can be inserted

26 How is a gene cloned? Foreign DNA (gene) is inserted into a plasmid that has a gene for antibiotic resistance The plasmid is introduced into a bacterial cell and grown on the antibiotic Only bacteria with the plasmid grow…the inserted gene is copied many times

27 PromoterCoding SequenceTerminator Gene Construction Cell specificity Developmental specificity Start transcription Protein coding sequence Stop transcription Message stability Gene constructs can be moved into plants and the gene is expressed driven by the promoter sequence

28 It is now possible to clone any gene from any organism and move it into any other organism

29 Gene transfer from one organism to another is not new Image of two species of bacteria transferring viral phage particles Bacteria transfer genes to other bacteria and plants Now in nature there is another organism capable of transferring DNA: we call that organism a human being

30 Tools and Techniques used in Biotechnology

31 No Walls The Clear bead at the center changes everything There are no edges to my being now I have heard it said that there is a window That opens from one mind to another But where there are no walls There is no need for a window, or fitting a latch. Rumi 1279 AD

32 For those who are interested in taking this course for college credit through the University of Rhode Island; For those who are interested in taking this course for college credit through the University of Rhode Island; For more information please contact: Issuesinbiotechnology190@gmail.com

33 Credits Credits Lectures by: Edited by: Video Produced by: Thank You to The University of Rhode Island Thank You to The University of Rhode Island and all of the students of Issues in and all of the students of Issues in Biotechnology over the years Biotechnology over the years Dr. Albert Kausch and Kimberly Nelson Thaddeus Weaver


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