Team:Shenzhen BGIC 0101/Tutorial
From 2013.igem.org
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Second, this plugin detects the overlapping genes in the same chromosome. In case the overlapping genes are detected, it will judge whether the overlapping initial site is located in the CDS region, and identify the site is belong to phase0/1/2.<br/> | Second, this plugin detects the overlapping genes in the same chromosome. In case the overlapping genes are detected, it will judge whether the overlapping initial site is located in the CDS region, and identify the site is belong to phase0/1/2.<br/> | ||
Third, the plugin attempts to synonymous substitute codon to break the initial codon intra the CDS. Printing information whether or not be decoupled successfully, such as:<br/> | Third, the plugin attempts to synonymous substitute codon to break the initial codon intra the CDS. Printing information whether or not be decoupled successfully, such as:<br/> | ||
- | <img src="https://static.igem.org/mediawiki/2013/e/e0/T1-1.png" alt="data" /><br/> | + | <img src="https://static.igem.org/mediawiki/2013/e/e0/T1-1.png" alt="data" style="width: 750px" /><br/> |
And non-redundancy genes are generated.<br/> | And non-redundancy genes are generated.<br/> | ||
Finally, the plugin links non-redundancy genes to construct a new chromosome according to the gene order. | Finally, the plugin links non-redundancy genes to construct a new chromosome according to the gene order. | ||
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<p>The output files are standard GFF and FASTA format files which are decoupled.<br/> | <p>The output files are standard GFF and FASTA format files which are decoupled.<br/> | ||
1. decoupled GFF file<br/> | 1. decoupled GFF file<br/> | ||
- | <img src="https://static.igem.org/mediawiki/2013/e/e5/T1-2.png" alt="data" /><br/> | + | <img src="https://static.igem.org/mediawiki/2013/e/e5/T1-2.png" alt="data" style="width: 750px" /><br/> |
2.decoupled FASTA file<br/> | 2.decoupled FASTA file<br/> | ||
- | <img src="https://static.igem.org/mediawiki/2013/b/b2/T1-3.png" alt="data" /><br/> | + | <img src="https://static.igem.org/mediawiki/2013/b/b2/T1-3.png" alt="data" style="width: 750px" /><br/> |
<p class="tit">2.2 Add.pl </p> | <p class="tit">2.2 Add.pl </p> | ||
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<p>The output files are standard GFF and FASTA format of adding features chromosome.<br/> | <p>The output files are standard GFF and FASTA format of adding features chromosome.<br/> | ||
1. added features GFF file<br/> | 1. added features GFF file<br/> | ||
- | <img src="https://static.igem.org/mediawiki/2013/e/e0/T1-4.png" alt="data"></a> | + | <img src="https://static.igem.org/mediawiki/2013/e/e0/T1-4.png" alt="data" style="width: 750px" ></a> |
</p> | </p> | ||
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<p>test</p> | <p>test</p> | ||
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</div> | </div> | ||
<div id="tab3"> | <div id="tab3"> |
Revision as of 10:13, 27 September 2013
Tutorial
1. NeoChr
NeoChr module would assist users to grab related genes in different pathways manually, to rewire genes’ relationship logically*, and to replace genes with ortholog that score higher*. Firstly, it would allow users to define gene order and orientation in DRAG&DROP way. Secondly, decoupled these genes if have overlap and make all genes are non-redundancy. Finally, add chromosome features to build a new chromosome and show in the JBrowse. Moreover, users can drag a window in the JBrowse and delete any gene in the window.
Note:
*These function are unavailable now, please wait for version 2.
**You can also add any thing here including your own water mark.
2. Plugin Scripts
This module contains three plugins: Decouple.pl, Add.pl and Delete.pl.
2.1 Decouple.pl
This plugin is to decouple the genes which have overlap gene regions. These overlapping genes can be decoupled if meet the following conditions: (1)If two genes have overlap gene regions, the latter gene 5’UTR does not cover the former gene initial codon (ATG); (2)Overlapping region initial coordinate is in the coding DNA sequences(CDS) of gene which is need to be decoupled; (3)The decouple site of CDS have synonymous substitute codon to replace; After decoupling, we use these non-redundancy genes to generate a GFF file and a FASTA file.
2.1.1 Internal operation
First, this plugin extracts base sequence from the genome file according to the gene order list, and records the gene order in the list. And then plugin records the annotation information according to the specie GFF file, moreover, plugin extends gene CDS upstream 600bp as 5’-UTR and downstream 100bp as 3’-UTR if the GFF file does not contain annotated these two features.
Second, this plugin detects the overlapping genes in the same chromosome. In case the overlapping genes are detected, it will judge whether the overlapping initial site is located in the CDS region, and identify the site is belong to phase0/1/2.
Third, the plugin attempts to synonymous substitute codon to break the initial codon intra the CDS. Printing information whether or not be decoupled successfully, such as:
And non-redundancy genes are generated.
Finally, the plugin links non-redundancy genes to construct a new chromosome according to the gene order.
2.2.1 Example
We have two input forms to execute the plugin:
1. Using string format as gene order list input form:
perl GeneDecouple.pl --species saccharomyces_cerevisiae_chr --list_format string --gene_order="YAL054C -,YAL038W +,YBR019C -,YBR145W +,YCL040W +,YCR012W +,YCR105W +,YDL168W +,YPL017C -,YIL177C -,YIL177W-A +,YIL172C -,YIL171W-A +,” --geneset_dir ../gene_set --upstream_extend 600 --downstream_extend 100 --neo_chr_gff neochr.gff --neo_chr_fa neochr.fa
2. Using file format as gene order list input form:
erl GeneDecouple.pl --species saccharomyces_cerevisiae_chr --list_format file --gene_order gene_ordre.list --geneset_dir ../gene_set --upstream_extend 600 --downstream_extend 100 --neo_chr_gff neochr.gff --neo_chr_fa neochr.fa
2.1.3 Parameters
Parameter | Description | ||
---|---|---|---|
list_format | set the input form of gene order list | string | string/file |
gene_order | set the input gene order list file(include pathway genes and addition genes) | ||
Parameter | Description | Default | Selectable range |
geneset_dir | set the species annotation directory | 600 | |
upstream_extend | set the length of gene downstram(bp) | 100 | |
neo_chr_gff | set the name of output neochr gff file | ||
neo_chr_fa | set the name of output neochr fasta file | ||
help | Show help information |
2.4.1 The format of output file
The output files are standard GFF and FASTA format files which are decoupled.
1. decoupled GFF file
2.decoupled FASTA file
2.2 Add.pl
This plugin will add the LoxPsym sequence and the customized left and right telomeres, centromere and autonomously replicating sequence (ARS) into the FASTA file and GFF file which are generated by Decouple.pl.
2.2.1 Internal operation
The plugin adds LoxPsym behind the first 3bp of 3’-UTR in each gene and adds telomere, centromere and ARS according this mode:
left_telomere + gene1 + centromere + gene2 + ARS + gene3 + right_telomere
The distance between centromere and ARS is less than 30Kb.
Finally, user can see the new added features chromosome according to the JBrowse.
2.2.2 Example
perl 04.Add.pl --loxp loxPsym.feat --left_telomere UTC_left.feat --right_telomere UTC_right.feat --ars chromosome_I_ARS108.feature --centromere chromosome_I_centromere.feat --chr_gff neochr.gff --chr_seq neochr.fa --neochr_seq neochr.final.fa --neochr_gff neochr.final.gff
All the feature file format is 4 lines format, for example:
name = site_specific_recombination_target_region
type = loxPsym
source = BIO
sequence = ATAACTTCGTATAATGTACATTATACGAAGTTAT
Note: the first line is the detail name of feature, the second line is the type of feature, the third line is the source of feature and the last line is the sequence of feature.
2.2.3 Parameters
Parameter Description Default Selectable range loxp set the sequence of loxp ATAACTTCGTATAATGTATGCTATACGAAGTTAT left_telomere set the sequence of left telomere right_telomere set the sequence of right telomere chr_gff set the input neorchr_gff file chr_seq set the input neorchr_gff file neochr_seq set the name of output added loxps and telomeres neochr_fa file neochr_gff set the name of output added loxps and telomeres neochr_gff file
2.2.4 The format of output
The output files are standard GFF and FASTA format of adding features chromosome.
1. added features GFF file
2.3 Delete.pl
This plugin can modify the GFF and FASTA file which are generated by Add.pl according to the user drags a window in the JBrowse and delete any gene in the window.
2.3.1 Internal operation
Firstly, user uses mouse to drag a window in the added features FASTA file which is showed in the JBrowse and JBrowse displays all the genes in this window.Secondly, user decides which genes is need to be delected from the new chromosome and plugin deletes genes from GFF file and modify FASTA in the same time.
2.3.2 Example
perl 05.delete.pl --delete="YAL054C,YAL038W" --neochr_gff neochr.refine.final.gff --neochr_fa neochr.refine.final.fa --slim_gff neochr.refine.delete.gff --slim_fa neochr.refine.delete.fa
2.3.3 Parameters
Parameter Description Default Selectable range delete Set the to be deleted gene list neochr_gff Set the input GFF file which is generated by Add.pl neochr_fa Set the input FASTA file which is generated by Add.pl slim_gff Set the output GFF file slim_fa Set the output FASTA file
2.3.4 The format of ouput
The output files are standard GFF and FASTA format of deleted genes chromosome.
test
test