Arking:JCAOligoTutorial6: Difference between revisions
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==How sequencing works== | ==How sequencing works== | ||
====What you really ''need'' to know==== | |||
Sequencing starts with a sample plasmid DNA or PCR product and one DNA oligonucleotide. This is what you send to the sequencing facility. They do something called "cycle sequencing" to your sample, and email you back some data. You can expect between 400bp and 1000bp of "true" data that begins somewhere around 20-50 bp into the read. Where "good" and "bad" data starts and ends varies sample to sample, and we'll get into that later. The sequence you read corresponds to the region 3' of where your oligo anneals. So, you must pick the appropriate oligo to send the sequencers based on what region of the plasmid you are interested in. | |||
====Overview of the process==== | |||
[[Image:JCA_CycleSequencing1.gif]]<br> | |||
(From http://www.biochem.arizona.edu/classes/bioc471/pages/Lecture21/AMG9.1a.gif)<br> | |||
So, the facility is going to run a reaction similar to a PCR on your sample and then take the products generated in that sample and load them into an instrument. The reaction is going to contain many little fragments of your sequencing, and the machine will separate them to single base pair resolution using capillary electrophoresis. Capillary electrophoresis is basically like the agarose gels we run in lab, but the gel is in a long narrow tube. It detects each little DNA as it comes off the column by fluorescence, and the spectrum of fluorescence (the "Chromatogram") can be interpretted by software as a string of A's, C's, T's and G's referred to as the "calls". They will send you both a text file of calls and a chormatogram file. | |||
====How the cycling reaction works==== | |||
---- | ---- | ||
If you have any comments or want to report a potential error in the tutorial, please email me (Chris Anderson) at JCAnderson2167-at-gmail.com | If you have any comments or want to report a potential error in the tutorial, please email me (Chris Anderson) at JCAnderson2167-at-gmail.com | ||
Revision as of 15:22, 10 May 2007
Sequencing Analysis
So, you've made your basic or composite, and you think you've found a colony that contains the right product. You now want to confirm that it's right. You need to sequence to find out exactly what the sequence is of the thing in your tube. In general, sequencing is cheaper and better when outsourced to a company or core facility. So, you send out your sample, and they send you back a sequence file. In this part of the tutorial, we're going to go through how sequencing works and how to analyze the data they send you. Before we start, you will need ApE (A Plasmid Editor) for this. So, if you haven't already done so, download it from http://www.biology.utah.edu/jorgensen/wayned/ape/. Additionally, you will want to replace the feature annotation database within ApE with an updated version. To do this, find directory in which you installed ApE on your computer and locate the file "Default_Features.txt". On my computer, it's: C:\Program Files\ApE\Accessory Files\Features. Replace this file with This Version.
How sequencing works
What you really need to know
Sequencing starts with a sample plasmid DNA or PCR product and one DNA oligonucleotide. This is what you send to the sequencing facility. They do something called "cycle sequencing" to your sample, and email you back some data. You can expect between 400bp and 1000bp of "true" data that begins somewhere around 20-50 bp into the read. Where "good" and "bad" data starts and ends varies sample to sample, and we'll get into that later. The sequence you read corresponds to the region 3' of where your oligo anneals. So, you must pick the appropriate oligo to send the sequencers based on what region of the plasmid you are interested in.
Overview of the process
(From http://www.biochem.arizona.edu/classes/bioc471/pages/Lecture21/AMG9.1a.gif)
So, the facility is going to run a reaction similar to a PCR on your sample and then take the products generated in that sample and load them into an instrument. The reaction is going to contain many little fragments of your sequencing, and the machine will separate them to single base pair resolution using capillary electrophoresis. Capillary electrophoresis is basically like the agarose gels we run in lab, but the gel is in a long narrow tube. It detects each little DNA as it comes off the column by fluorescence, and the spectrum of fluorescence (the "Chromatogram") can be interpretted by software as a string of A's, C's, T's and G's referred to as the "calls". They will send you both a text file of calls and a chormatogram file.
How the cycling reaction works
If you have any comments or want to report a potential error in the tutorial, please email me (Chris Anderson) at JCAnderson2167-at-gmail.com
