Abridged Genetic Engineering Pathway (Original “A” Sequence)

Slides:

Advertisements

Similar presentations

Module based on a kit from Bio-Rad Laboratories, Inc. Thank you to :

Advertisements

Biotechnology Bacterial Transformation. Biotechnology Can Be Used to Treat Disease.

Lab 5/5a Transformation of E. coli with a Recombinant Plasmid

PARA-R Sequence RFP Expression Sequence Biotechnology Lab Program Laboratory Protocols by: Marty Ikkanda Powerpoint by: Anthony Daulo Kristi Schramm Pierce.

RFP Transformation Lab Images taken without permission from

PARA-R Recombinant RFP Expression Sequence biotechnology lab program Laboratory Protocols by: Marty Ikkanda Powerpoint by: Anthony Daulo Pierce College,

PARA-R Restriction Digest: An Introduction to Plasmids and Restriction Enzymes Laboratory 2a.

Preparing an Overnight Culture of Escherichia coli

pARA-R Sequence LABS 2a and 4a RFP Expression Sequence

Abridged Genetic Engineering Pathway (Original “A” Sequence)

Ch. 5A: Transforming Bacteria with Recombinant Plasmids.

Verify recombination by electrophoresis. Digest of rfp gene. Transform bacteria with recombinant plasmid. Recombination (ligation) of plasmid and rfp gene.

Exercise 17 Bio 112 Genetics Lab. There are four grain phenotypes in the above ear of corn: Purple & Starchy(A), Purple & Sweet(B), Yellow & Starchy(C)

90- How can we make more insulin? V How can we make more insulin? By Transforming Bacteria V

Life Sciences-HHMI Outreach. Copyright 2008 President and Fellows of Harvard College. Summer 2008 Workshop in Biology and Multimedia for High School Teachers.

Genetic engineering Genetic engineering: manipulating DNA or organisms to perform practical tasks or provide useful products We’re going to look at the.

Introduction: How to Clone a gene?

Bacterial Transformation

Lab Exam 2 Overview. Bacterial Transformation To impart new phenotype by adding expressible genes Why use bacteria? – Rapid growth – Plasmids as vectors.

GFP Transformation Lab Images taken without permission from

Biotechnology and Bacterial Transformation

pGLOTM Bacterial Transformation Courtesy BioRad Corporation

Amgen Bruce Wallace Transformation Labs (2-7)

Pierce College, Woodland Hills

PARA-R Sequence RFP Expression Sequence Biotechnology Lab Program Laboratory Protocols by: Marty Ikkanda Powerpoint by: Anthony Daulo Kristi Schramm Pierce.

Mrs. Stewart Medical Interventions Central Magnet School

pKAN-R/pARA Sequence Biotechnology Lab Program Marty Ikkanda

Introduction to pGLO lab Bacteria Transformation Please take these notes carefully. You do not need to write anything in RED.

Is taking in a plasmid good or bad for the bacteria? Explain.

This Little Light of Mine: This Little Light of Mine: Transform bacteria with a Jellyfish gene to make them glow Module based on a kit from Bio-Rad Laboratories,

Overview Amgen Biotech Labs In this set of labs, students will:

Laboratory 5: Transforming bacteria with ligation products

Amgen Lab 2a & 4a.

The Arabinose Operon Gene Regulation. Why Gene Regulation? Developmental Changes Cell Specialization Adaptation to the environment Prevents creation of.

Hey Kim, this site shows the kids everything! NY ‘09 use this for the prelab stuff!! Michael.Gregory/files/Bio%20100/Bio%

Genetic Engineering BSC 1010L Transformation of E. coli with Jellyfish GFP.

Transforming E. coli with a Recombinant Plasmid. What is biotechnology? Employs use of living organisms in technology and medicine Modifying living organisms.

Restriction Analysis of pDRK and pGRN Original Plasmids

8.1 - Manipulating & Cloning DNA

Treatments that stimulate the E.coli. to take up foreign plasmids include: 1.CaCL2 treatment 2.Heat shock 3.Incubation with ECORI 4.1 and and 3 6.All.

In the pGLO lab, we will: Use recombinant DNA Genetically engineer E. coli bacteria by inserting a plasmid Plate and grow bacteria Determine if the proteins.

Liquid cultures to Lysis: Movie Clip from Teachers domain Student Guide Lab 6.

GFP Transformation Lab

Transport Nucleus Cytoplasm Protein gene DNA mRNA The Cell:

In the pGLO lab, we will: Use recombinant DNA Genetically engineer E. coli bacteria by inserting a plasmid Plate and grow bacteria Determine if the proteins.

PGLO Transformation LAB AP LAB 6 BIO-RAD lab book pGLO ori bla GFP araC.

pGLO™ Transformation and Purification of

Bacterial Transformation. Chromosome? A long piece of DNA with many pieces of information on it, each piece is a set of directions for making a protein.

GFP Transformation Lab

Laboratory 2A: How do you begin to clone a gene?

Laboratory 2: How do you begin to clone a gene?

pGLO™ Transformation and Purification of

pGLO™ Transformation and Purification of

Lab 5a Transformation of Escherichia coli with pARA-R

pGLO Transformation LAB AP BIO LAB 6

Pre-Lab: pGLO Bacterial Transformation

Do Now What is E.coli? And why is it used for biotech?

pGLO Transformation LAB AP Investigation 8

Biorad pGlo-Biotechnology

PGLO Lab Purpose: To transform E. coli bacteria by adding plasmids that allow the bacteria to glow green under UV light in the presence of arabinose sugar.

PGLO Transformation.

Transport Nucleus Cytoplasm Protein gene DNA mRNA The Cell:

Transformation Procedure Overview

Introduction to the pGLO Lab

pGLO Transformation LAB AP LAB 6

pARA-R Sequence RFP Expression Sequence Biotechnology Lab Program

Biology II Study Guide for Unit Test on Operons and Transformation Lab 2013 You should be able to … 1. describe gene expression by explaining the following:

Gene Regulation pGLO Transformation.

GFP Transformation Lab

Presentation transcript:

Abridged Genetic Engineering Pathway (Original “A” Sequence)

Recombinant Plasmid pARA-R

Restriction fragments after digest with HindIII and BamHI Restriction Analysis of pARA-R Restriction fragments after digest with HindIII and BamHI BamHI HindIII araC ori ampR 4,495 bp HindIII BamHI pBAD 807 bp

Confirmation of Restriction Restriction analysis of pARA-R (cont.) Bruce Wallace Confirmation of Restriction Prediction for restriction gel Results for restriction gel M R+ R– M R+ R– 500 1000 1500 2000 3000 4000 5000 8000 10000

Preparation of Competent Cells Add calcium chloride Heat shock

Transformation of E. coli with pARA-R Competent Cells pARA-R Recombinant Plasmids

Transformation of E. coli with pARA-R Lipid bilayer (inner) Adhesion zone Peptidoglycan layer Lipid bilayer (outer) Calcium ions pARA-R

Growth and Selection of Transformed Bacteria P+ plates LB LB/amp LB/amp/ara P– plates No growth LB LB/amp

Overnight Culture of E. coli for rfp Expression Colony isolation and culture LB/amp/ara broth

arabinose – araC protein RFP Production RFP (red fluorescent protein) Arabinose – araC protein complex prevents DNA looping and helps to align RNA polymerase on the promoter site (PBAD). arabinose Translation RNA polymerase arabinose – araC protein complex araC protein mRNA Transcription araC gene PBAD rfp gene

RFP Purification Overnight culture Cell pellet with RFP Lysed cells cell debris RFP with binding buffer

Three-dimensional Shape of RFP