Mercurial > repos > kaymccoy > calculate_fitnesses
comparison calc_fitness.xml @ 8:e783db184163 draft
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author | kaymccoy |
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date | Fri, 12 Aug 2016 16:45:37 -0400 |
parents | 4a08992142ee |
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7:61bd336c50c2 | 8:e783db184163 |
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1 <tool id="calc_fitness" name="Calculate Fitnesses"> | |
2 <description>of transposon insertion locations</description> | |
3 <requirements> | |
4 <requirement type="package" version="1.64">biopython</requirement> | |
5 </requirements> | |
6 <command interpreter="python"> | |
7 calc_fitness.py | |
8 -ef $ef | |
9 -el $el | |
10 -wig $output3 | |
11 -t1 $t1 | |
12 -t2 $t2 | |
13 -ref $ref | |
14 -out $output | |
15 -out2 $output2 | |
16 -expansion $expansion | |
17 -maxweight $maxweight | |
18 -cutoff $cutoff | |
19 -cutoff2 $cutoff2 | |
20 -strand $strand | |
21 #if $normalization.calculations == "yes": | |
22 -normalize $normalization.genes | |
23 #end if | |
24 #if $multiply.choice == "yes": | |
25 -multiply $multiply.factor | |
26 #end if | |
27 #if $reads.uncol == "yes": | |
28 -uncol 1 | |
29 #end if | |
30 #if $reads1.choice == "yes": | |
31 -reads1 $reads1.number | |
32 #end if | |
33 #if $reads2.choice == "yes": | |
34 -reads1 $read1.number | |
35 #end if | |
36 </command> | |
37 <inputs> | |
38 <param name="t1" type="data" label="Map files from t1"/> | |
39 <param name="t2" type="data" label="Map files from t2"/> | |
40 <param name="ref" type="data" label="GenBank reference genome"/> | |
41 <conditional name="normalization"> | |
42 <param name="calculations" type="select" label="Normalize fitness calculations?"> | |
43 <option value="no">No</option> | |
44 <option value="yes">Yes</option> | |
45 </param> | |
46 <when value="no"> | |
47 <!-- do nothing --> | |
48 </when> | |
49 <when value="yes"> | |
50 <param name="genes" type="data" label="Genes to normalize by" /> | |
51 </when> | |
52 </conditional> | |
53 <param name="strand" type="select" label="Use reads from which strands?"> | |
54 <option value="both">both</option> | |
55 <option value="+">Watson (+)</option> | |
56 <option value="-">Crick (-)</option> | |
57 </param> | |
58 <param name="expansion" type="float" value="250" label="Expansion factor"/> | |
59 <param name="cutoff" type="float" value="0.0" label="Cutoff"/> | |
60 <param name="cutoff2" type="float" value="0.0" label="Cutoff2"/> | |
61 <param name="ef" type="float" value="0.0" label="Exclude first %"/> | |
62 <param name="el" type="float" value="0.0" label="Exclude last %"/> | |
63 <param name="maxweight" type="float" value="75" label="Maximum weight of a transposon gene in normalization calculations"/> | |
64 <conditional name="multiply"> | |
65 <param name="choice" type="select" label="Multiply fitness scores by a certain value?"> | |
66 <option value="no">No</option> | |
67 <option value="yes">Yes</option> | |
68 </param> | |
69 <when value="no"> | |
70 <!-- do nothing --> | |
71 </when> | |
72 <when value="yes"> | |
73 <param name="factor" type="float" value="0.0" label="Multiply by" /> | |
74 </when> | |
75 </conditional> | |
76 <conditional name="reads"> | |
77 <param name="uncol" type="select" label="Were reads uncollapsed when mapped?"> | |
78 <option value="no">No</option> | |
79 <option value="yes">Yes</option> | |
80 </param> | |
81 <when value="no"> | |
82 <!-- do nothing --> | |
83 </when> | |
84 <when value="yes"> | |
85 <!-- do nothing --> | |
86 </when> | |
87 </conditional> | |
88 <conditional name="reads1"> | |
89 <param name="choice" type="select" label="Set reads1 manually?"> | |
90 <option value="no">No</option> | |
91 <option value="yes">Yes</option> | |
92 </param> | |
93 <when value="no"> | |
94 <!-- do nothing --> | |
95 </when> | |
96 <when value="yes"> | |
97 <param name="number" type="float" value="0.0" label="Reads1" /> | |
98 </when> | |
99 </conditional> | |
100 <conditional name="reads2"> | |
101 <param name="choice" type="select" label="Set reads2 manually?"> | |
102 <option value="no">No</option> | |
103 <option value="yes">Yes</option> | |
104 </param> | |
105 <when value="no"> | |
106 <!-- do nothing --> | |
107 </when> | |
108 <when value="yes"> | |
109 <param name="number" type="float" value="0.0" label="Reads2" /> | |
110 </when> | |
111 </conditional> | |
112 </inputs> | |
113 <outputs> | |
114 <data format="csv" name="output" /> | |
115 <data format="txt" name="output2" /> | |
116 <data format="wig" name="output3" /> | |
117 </outputs> | |
118 <help> | |
119 | |
120 **What it does** | |
121 | |
122 This tool calculates the fitness values of transposon insertion mutations generated by Tn-Seq, by analyzing Illumina sequencing reads from t1 and t2. | |
123 | |
124 **The options explained** | |
125 | |
126 Map files from t1: a bowtie mapfile containing the mapped flanking reads from t1 | |
127 | |
128 Map files from t2: a bowtie mapfile containing the mapped flanking reads from t2 | |
129 | |
130 GenBank reference genome: the reference genome of whatever model you're working with, which needs to be in standard genbank format. For more on that format see the genbank website. | |
131 | |
132 Normalizing fitness calculations: our normalization relies on the fitness scores of insertions within transposon genes, which ought to have a neutral fitness of 1. The file of normalization genes should be formatted so that each line is a single gene loci like "SP_0017" | |
133 | |
134 Using reads from certain strands: typically users will use reads from both strands, but this lets you do things like comparing reads between strands. | |
135 | |
136 Expansion factor: the expansion factor of the bacteria culture you got your reads from - this is something you should measure when you're growing up the bacteria from t1 to t2. Using the default expansion factor of 250 will give you very rough fitness calculations and so it's not recommended. | |
137 | |
138 Cutoff: the cutoff for all genes; insertion locations with an average count less than this number will be disregarded, as insertion locations with a low number of reads can have inaccurate fitnesses calculated, for the same reason studies with low sample sizes can be inaccurate. | |
139 | |
140 Cutoff2: the cutoff for the normalization genes; only has an effect if larger than cutoff | |
141 | |
142 Exclude first %: insertions in the very beginning of genes sometimes don't actually interfere with their function, and so you can exclude insertions from the first % of a gene from being counted as within those genes. This mostly affects the aggregate calculations downstream. | |
143 | |
144 Exclude last %: similarly insertions in the very end of genes sometimes don't actually interfere with their function, and so you can exclude insertions from the last % of a gene. Also mostly affects the aggregate calculations downstream. | |
145 | |
146 Maximum weight of a transposon gene in normalization calculations: in the normalization calculations, fitnesses within transposon genes are weighted according to their number of reads, as fitnesses calculated from more reads tend to be more accurate. However, to keep those fitnesses with huge numbers of reads from vastly outweighing the others, you can limit the max weight. | |
147 | |
148 Multiplying fitness scores by a certain value: what it says on the lid; you can multiply the normalized fitness scores by a certain value. This can be helpful for genetic interaction screens, where Tn-seq is performed as usual except there's one background knockout all the mutants share. This is because a combination of independent mutations should have a fitness value that's equal to their individual fitness values multipled, but related mutations will deviate from that; to find those deviations you'd multiply all the fitness values from mutants from a normal library by the fitness of the background knockout and compare that to the fitness values found from the knockout library! | |
149 | |
150 Setting reads1 / reads2 manually: these are related to the correction factor calculations; it's not recommended that you set them manually. If this number is too low it will cause a mathematical error and Calculate Fitness will not work. | |
151 | |
152 Output: the output is a csv (comma separated values) file containing the fitness values calculated. Each line besides the header will represent the following information for an insertion location: position, strand, count_1, count_2, ratio, mt_freq_t1, mt_freq_t2, pop_freq_t1, pop_freq_t2, gene, D, W, nW | |
153 | |
154 Output2: a txt file containing the percent blanks to be used in the Aggregate tool for normalization | |
155 | |
156 Output3: a wig file that can be used for visualization of the fitness values; each line besides the header will be an insertion location and its (possibly normalized) fitness. | |
157 | |
158 </help> | |
159 </tool> |