AP Biology 2005-2006 Biotech Tools Review AP Biology 2005-2006 Biotech Tools Review  Recombinant DNA / Cloning gene  restriction enzyme, plasmids,

Slides:

Advertisements

Similar presentations

Chapter 20 DNA Technology & Genomics. Slide 2 of 14 Biotechnology Terms Biotechnology Process of manipulating organisms or their components to make useful.

Advertisements

A Little More Advanced Biotechnology Tools

What do you notice about these phrases?

Biotechnology Guess the lamb’s name

DNA Technology. Biotechnology The use or alteration of cells or biological molecules for specific applications Transgenics Transgenic “changed genes”

Lecture ONE: Foundation Course Genetics Tools of Human Molecular Genetics I.

What are the three steps in PCR?. Denaturation Hybridization of Primer DNA replication.

AP Biology Biotechnology today  Genetic Engineering  manipulation of DNA  if you are going to engineer DNA & genes & organisms, then you need.

Chapter 20: Biotechnology. Essential Knowledge u 3.a.1 – DNA, and in some cases RNA, is the primary source of heritable information (20.1 & 20.2)

DNA Technology- Cloning, Libraries, and PCR 17 November, 2003 Text Chapter 20.

TOPICS IN (NANO) BIOTECHNOLOGY Lecture 7 5th May, 2006 PhD Course.

DNA Technology & Genomics

AP Biology: Chapter 14 DNA Technologies

MCC BP Based on work by K. Foglia What do you notice about these phrases? radar racecar Madam I’m Adam Able was I ere I saw Elba a man,

AP Biology What do you notice about these phrases? radar racecar Madam I’m Adam Able was I ere I saw Elba a man, a plan, a canal, Panama Was.

AP Biology Ch. 20 Biotechnology.

Trends in Biotechnology

C HAPTER 20 PART 3: A L ITTLE M ORE A DVANCED B IOTECHNOLOGY T OOLS Better Plasmids.

AP Biology Chapter 20. Biotechnology: DNA Technology & Genomics.

How do you identify and clone a gene of interest? Shotgun approach? Is there a better way?

Biotechnology Methods Producing Recombinant DNAProducing Recombinant DNA Locating Specific GenesLocating Specific Genes Studying DNA SequencesStudying.

Chapter 16 Gene Technology. Focus of Chapter u An introduction to the methods and developments in: u Recombinant DNA u Genetic Engineering u Biotechnology.

 Isolate a specific gene of interest  Insert into a plasmid  Transfer to bacteria  Grow bacteria to get many copies  Express the protein product 

Items for tomorrow and beyond: 1) Study/read captions for all figures within Chapter 20 2) Read Section 20.5 (applications of biotechnology) on pp

DNA Technology. Overview DNA technology makes it possible to clone genes for basic research and commercial applications DNA technology is a powerful set.

Plasmids Continued Once we insert the plasmid into the bacteria how do we know its in the bacteria and has the the right gene in it?

19.1 Techniques of Molecular Genetics Have Revolutionized Biology

Gene Technology1 Biotechnology You are only responsible for the material we get through in class End of Chapter questions: Understand: 1,2,4,5,7, Apply:

Cloning and Expression of Genes

GENETIC ENGINEERING CHAPTER 20

Chapter 20: DNA Technology and Genomics - Lots of different techniques - Many used in combination with each other - Uses information from every chapter.

Lecture 18 DNA Technology.

Molecular Genetic Technologies Gel Electrophoresis PCR Restriction & ligation Enzymes Recombinant plasmids and transformation DNA microarrays DNA profiling.

Plasmids that contain l cos sites.

DNA Technology Ch. 20. The Human Genome The human genome has over 3 billion base pairs 97% does not code for proteins Called “Junk DNA” or “Noncoding.

DNA Technology & Genomics

Gene Technology. What Is Gene Technology? Gene Tech  the alteration of genes inside a living organism to produce a specific results Examples? Examples?

Trends in Biotechnology

Biotech. Southern Blotting Through a series of steps, DNA that has been separated by electrophoresis is applied to a membrane of nylon or nitrocellulose.

Gene Technologies and Human ApplicationsSection 3 Section 3: Gene Technologies in Detail Preview Bellringer Key Ideas Basic Tools for Genetic Manipulation.

RECOMBINANT DNA DNA THAT CONTAINS DNA SEGMENTS OR GENES FROM DIFFERENT SOURCES. DNA TRANSFERRED FROM ONE PART OF A DNA MOLECULE TO ANOTHER, FROM ONE CHROMOSOME.

Phage DNA Donor cell Recipient cell A+A+ B+B+ A+A+ B+B+ A+A+ A+A+ B–B– A–A– B–B– A+A+ Recombinant cell Crossing over

Chapter 14 GENETIC TECHNOLOGY. A. Manipulation and Modification of DNA 1. Restriction Enzymes Recognize specific sequences of DNA (usually palindromes)

C HAPTER 20 PART 3: A L ITTLE M ORE A DVANCED B IOTECHNOLOGY T OOLS Better Plasmids.

Vectors Bacteria, viruses or liposomes into which DNA can be inserted. These can be used to grow genes, harvest the proteins they code for or deliver them.

A Little More Advanced Biotechnology Tools

What do you notice about these phrases?

Chapter 7 Recombinant DNA Technology and Genomics

A Little More Advanced Biotechnology Tools

Figure 20.2 Overview of gene cloning

CHAPTER 20 PART 3: A LITTLE MORE ADVANCED BIOTECHNOLOGY TOOLS

What do you notice about these phrases?

Section 3: Gene Technologies in Detail

COURSE OF MICROBIOLOGY

Cloning Overview DNA can be cloned into bacterial plasmids for research or commercial applications. The recombinant plasmids can be used as a source of.

DNA Technology & Genomics

Chapter 20: DNA Technology and Genomics

Restriction Enzymes and Plasmid Mapping

DNA Tools & Biotechnology

DNA Technology Now it gets real…..

Biotech Tools Review

Chapter 20 – DNA Technology and Genomics

Chapter 14 Bioinformatics—the study of a genome

A Little More Advanced Biotechnology Tools

DNA Tools & Biotechnology

Recombinant DNA Technology

A Little More Advanced Biotechnology Tools

A Little More Advanced Biotechnology Tools

A Little More Advanced Biotechnology Tools

Chapter 20: DNA Technology and Genomics

Presentation transcript:

AP Biology Biotech Tools Review

AP Biology Biotech Tools Review  Recombinant DNA / Cloning gene  restriction enzyme, plasmids, bacteria  DNA library  cDNA library  DNA hybridization  Gel electrophoresis  RFLP  Southern blotting  PCR  Sanger sequencing  Microarray

AP Biology You want to produce human insulin cheaply for diabetics  Find your gene  collect mRNA from pancreas cells  What to do with the mRNA?

AP Biology You want to produce human insulin cheaply for diabetics  What to do with the mRNA?  make DNA  mRNA  cDNA  reverse transcriptase  insert cDNA into bacteria using plasmids  restriction enzyme  ligase  transformation  How do you find which bacteria carry the recombinant plasmids?

AP Biology You want to produce human insulin cheaply for diabetics  How do you find which bacteria carry the recombinant plasmid?  amp resistance gene on plasmid  LacZ gene plasmid plasmid amp resistance LacZ gene EcoRI BamHI HindIII

AP Biology You want to produce human insulin cheaply for diabetics  How do you find which bacteria carry the insulin gene on the plasmid?  make an insulin gene probe  tagged probe  hybridization 5’ 3’ labeled probe genomic DNA GATCAGTAG CTAGTCATC

AP Biology What if you want to find out the full sequence of the human insulin gene?  Sanger sequencing  dideoxynucleotides

AP Biology What if you want to make a lot of copies of your sequenced gene?  PCR  thermocycler  primers  Taq polymerase

AP Biology You want to see if 2 people have differences in their insulin genes?  Gel electrophoresis & RFLP  restriction digest  run samples on gel  see if there is a polymorphism

AP Biology What if I want to locate a sequence on an electrophoresis gel?  Southern blot  tagged probe

AP Biology You want to test effect of drug on gene expression in pancreas?  Microarray  collect mRNA  mRNA  cDNA  hybridize on GeneChip

AP Biology Any Questions??