Team:Lethbridge/project
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<p>The final element needed to cause a ribosomal frameshift is an RNA secondary structure directly downstream of the slippery sequence and the spacer. This structure is most often a pseudoknot, which is a collection of loops and stems that have specific hydrogen bonding and base pairing interactions. The type of pseudoknot used in our project is an H-type pseudoknot derived from the avian coronavirus infectious bronchitis virus (IBV). The fold of H-type pseudoknots is such that there are two stems that are stacked on top of each other connected by two loop regions. This results in a quasi-continuous helix that has one continuous strand and one discontinuous strand (Fig. 1). The intramolecular strength of the stems of the pseudoknot can influence the frequency of frameshifting, and therefore changes to the pseudoknot sequence can increase or decrease the amount of frameshifting that occurs on a particular mRNA transcript. | <p>The final element needed to cause a ribosomal frameshift is an RNA secondary structure directly downstream of the slippery sequence and the spacer. This structure is most often a pseudoknot, which is a collection of loops and stems that have specific hydrogen bonding and base pairing interactions. The type of pseudoknot used in our project is an H-type pseudoknot derived from the avian coronavirus infectious bronchitis virus (IBV). The fold of H-type pseudoknots is such that there are two stems that are stacked on top of each other connected by two loop regions. This results in a quasi-continuous helix that has one continuous strand and one discontinuous strand (Fig. 1). The intramolecular strength of the stems of the pseudoknot can influence the frequency of frameshifting, and therefore changes to the pseudoknot sequence can increase or decrease the amount of frameshifting that occurs on a particular mRNA transcript. | ||
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<b>Software for Pseudoknots</b></h3> | <b>Software for Pseudoknots</b></h3> | ||
- | <p>In order to make pseudoknots available for use by the synthetic biology community, we are developing a software program to facilitate the overlapping of coding sequences. The program will take two amino acid sequences, convert them into a DNA sequences, and attempt to align them in all reading frames. Codon redundancy is used to facilitate overlapping of the two sequences. If the sequences can be aligned in a particular region, the program will output a DNA sequence that will have the two original sequences overlapped. This sequence can then be synthesized and inserted into a construct downstream of a pseudoknot to give expression of both input sequences.We see this program as an additional tool that can be used to facilitate use of this new class of BioBrick parts. | + | <p>In order to make pseudoknots available for use by the synthetic biology community, we are developing a software program to facilitate the overlapping of coding sequences. This program implements two strategies for finding overlapping sequences. The program will take two amino acid sequences, convert them into a DNA sequences, and attempt to align them in all reading frames. Codon redundancy is used to facilitate overlapping of the two sequences. If the sequences can be aligned in a particular region, the program will output a DNA sequence that will have the two original sequences overlapped. This sequence can then be synthesized and inserted into a construct downstream of a pseudoknot to give expression of both input sequences.We see this program as an additional tool that can be used to facilitate use of this new class of BioBrick parts. |
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+ | <p>This program has a newly added function that allows users to specify a single amino acid sequence of interest. The program will translate that amino acid sequence into all corresponding DNA sequences and generate a list of 10,000,000 DNA sequences that would successfully overlap with the specified coding seqeunce. This list of sequences can be produced as a FASTA file and blasted against the NCBI nucleotide database. This will allow for identification of all proteins that could overlap with the protein of interest. Using this, the correct codon usage and pseudoknot type can be selected for dual coding.</p> | ||
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+ | <p> Be advised, this new functionality is computationally intensive. In order to run the new single protein overlap search it is recommended that your system has 32 GB of RAM.</p> | ||
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+ | <center><image src="https://static.igem.org/mediawiki/2013/f/f3/ULeth2013iGEM_Example_Run_with_Manual_print.JPG" width="400px"; height="600px" /></center> | ||
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+ | <p><b>Figure 2. Screenshot of the Program.</b> The upper section demonstrates a comparison between two amino acid strings. The lower section is a print out of the Zipper.pl manual.</p><br> | ||
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+ | <p>The program currently consists of the sequence comparison algorithm as a perl script. If you would like to try out this program, install the perl environment on your computer and download our program from the file below. | ||
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+ | <a href="https://www.dropbox.com/s/houa7wrqucmaw3a/Zipper.pl"> Click here to access file </a> | ||
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Latest revision as of 01:57, 29 October 2013
No Frameshifting with Continued Translation Frameshifting into -1 Frame |