Genetic Transformation of Bacteria Abstract The transformation of bacteria was successfully carried out using a plasmid carrying a gene that codes for green fluorescent protein‚ which gives a signature green glow reminiscent of a jellyfish. This gene‚ however‚ is only active when the sugar arabinose is present. A gene coding for antibiotic resistance was also found within the plasmid and served as a means to verify that transformation had indeed taken place. The hypothesis was that the bacteria
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NA transformation of E. coli: The two plasmids were added to individual tubes containing E. coli and one with no plasmids. The three samples of E. coli were heated in a 42°C water bath for 90 seconds to heat shock the bacteria so that the plasmids would be taken up by the E. coli. These samples were then incubated at 30°C for half an hour and then plated on LB agar. Each tube was plated on an LB plate and a LB + ampicillin plate. Ampicillin is an antibiotic that is effective against E. coli‚ both
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Introduction Bacterial transformation is the permanent alteration of a bacterial cell genotype as a result of its uptake and incorporation of foreign DNA fragments from external medium (Anthony et al‚ 2008). In addition to chromosome‚ bacterial cells often contain extrachromosomal DNA called plasmids which are capable of autonomic replication and antibiotic resistance (Dale & Simon‚ 2010). Plasmids can transport foreign DNA into host or other bacterial cells hence they are known as vectors.
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Lab Report (Scientific Paper) 2: Bacterial Transformation;DNA Extraction Part I & II:Total Genomic Extraction & Plasmid Extraction;Electrophoresis By:Chris Foster Abstract: We conducted three experiments that included a Bacterial Transformation‚ a two process DNA extraction‚ and a final procedure using gel electrophoresis. The Bacterial Transformation lab was performed to prepare the plasmid into a bacteria and to use that bacteria to amplify the plasmid in order to make large quantities
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November 25‚ 2012 The Effect of the pGLO Plasmid on Genetic Transformation of E.coli by Heat Shock Introduction Genetic transformation is the genetic alteration of a cell resulting from the direct uptake‚ incorporation and expression of exogenous genetic material l(exogenous DNA) from its surroundings and taken up through the cell membranes. This was first demonstrated in 1928 by Bacteriologist Frederick Griffith (Lederberg 2000).A plasmid is a small circular piece of DNA that contains important
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Transformation is the genetic alteration of a cell‚ resulting from the intake of exogenous genetic material through the surrounding cell membrane. The purpose of this lab was to determine transformation of bacteria by testing the effect of P Vib plasmid of E. coli MM294‚ and how the color of the E. coli bacteria changes. In this lab‚ two small test tubes were given calcium chloride‚ E. coli MM294‚ and one of the tubes also received the plasmid P Vib. The test tubes were then placed in ice‚ heat shocked
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Luria Broth. Once again‚ one will contain plasmid and one will not. The research question for this experiment is: What is the difference in the transformation efficiencies between pFLO and pBLU. Before completing this lab‚ a first trial was done following the same procedure below but instead of pFLO‚ pBLU was used. It is believed that the transformations efficiencies should be similar due to the fact that both plasmids are
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Josh P. AP Biology 12-10-13 Lab Writeup The Effect of Transformation of pGLO in Bacteria Background/Objectives/Hypothesis: Genetic transformation is a process that primarily is inserting new DNA into an organism to change that organism’s trait. This process has many useful benefits when used correctly in different organisms. In this lab‚ bacteria was transformed by inserting DNA for Green Fluorescent Proteins. The DNA for these proteins were taken from bioluminescent jellyfish Aequorea
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E. Coli Transformation with a Plasmid DNA Containing the GFP Gene Introduction: Bacterial transformation is the process of bacteria taking in and expressing exogenous DNA. This has led to many other discoveries. In order for bacterial transformation to occur the bacteria must be in a certain physical state to be able to take in DNA. This is called competency and it allows the cell membrane to be permeable so DNA can pass through. Currently researchers are studying the transformation of E. Coli
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Conclusions of DH5α DNA transformation with red colonies resistance to ampicillin and the lacZ gene Introduction: In this experiment‚ a plasmid with a gene that has resistance to the antibiotic ampicillin and has lacZ is used to transfer the resistance into E. coli bacteria in red colonies. This same technique is used to give diabetics their insulin‚ and to give dwarfs growth hormones. The point of this lab is to give the groups an idea how DNA can
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