The hardware and bandwidth for this mirror is donated by dogado GmbH, the Webhosting and Full Service-Cloud Provider. Check out our Wordpress Tutorial.
If you wish to report a bug, or if you are interested in having us mirror your free-software or open-source project, please feel free to contact us at mirror[@]dogado.de.
The ampir (short for antimicrobial peptide prediction in r ) package was designed to be a fast and user-friendly method to predict antimicrobial peptides (AMPs) from any given size protein dataset. ampir uses a supervised statistical machine learning approach to predict AMPs. It incorporates two support vector machine classification models, “precursor” and “mature” that have been trained on publicly available antimicrobial peptide data. The default model, “precursor” is best suited for full length proteins and the “mature” model is best suited for small mature proteins (<60 amino acids). ampir also accepts custom (user trained) models based on the caret package. Please see the ampir “How to train your model” vignette for details.
Standard input to ampir is a data.frame
with sequence names in the first column and protein sequences in the second column.
library(ampir)
Read in a FASTA formatted file as a data.frame
with read_faa()
<- read_faa(system.file("extdata/little_test.fasta", package = "ampir")) my_protein_df
seq_name | seq_aa |
---|---|
tr|G1P6H5|G1P6H5_MYOLU | MALTVRIQAACLLLLLLASLTSYSLLLSQTTQLADLQTQDTAGAT… |
tr|L5L3D0|L5L3D0_PTEAL | MKPLLIVFVFLIFWDPALAGLNPISSEMYKKCYGNGICRLECYTS… |
tr|A0A183U1F1|A0A183U1F1_TOXCA | LLRLYSPLVMFATRRVLLCLLVIYLLAQPIHSSWLKKTYKKLENS… |
tr|Q5F4I1|Q5F4I1_DROPS | MNFYKIFIFVALILAISVGQSEAGWLKKLGKRLERVGQHTRDATI… |
tr|A7S075|A7S075_NEMVE | MFLKVVVVLLAVELSVAQSARQRVRPLDRKAGRKRFAPIFPRQCS… |
tr|F1DFM9|F1DFM9_9CNID | MKVLVILFGAMLVLMEFQKASAATLLEDFDDDDDLLDDGGDFDLE… |
tr|Q5XV93|Q5XV93_ARATH | MSKREYERQLANEEDEQLRNFQAAVAARSAILHEPKEAALPPPAP… |
tr|Q2XXN9|Q2XXN9_POGBA | MRFLYLLFAVAFLFSVQAEDAELEQEQQGDPWEGLDEFQDQPPDD… |
Calculate the probability that each protein is an antimicrobial peptide with predict_amps()
using the default “precursor” model.
Note that amino acid sequences that are shorter than 10 amino acids long and/or contain anything other than the standard 20 amino acids are not evaluated and will contain an NA
as their prob_AMP
value.
<- predict_amps(my_protein_df, model = "precursor") my_prediction
seq_name | seq_aa | prob_AMP |
---|---|---|
tr|G1P6H5|G1P6H5_MYOLU | MALTVRIQAACLLLLLLASLTSYSLLLSQTTQLADLQTQDTAGAT… | 0.612 |
tr|L5L3D0|L5L3D0_PTEAL | MKPLLIVFVFLIFWDPALAGLNPISSEMYKKCYGNGICRLECYTS… | 0.945 |
tr|A0A183U1F1|A0A183U1F1_TOXCA | LLRLYSPLVMFATRRVLLCLLVIYLLAQPIHSSWLKKTYKKLENS… | 0.088 |
tr|Q5F4I1|Q5F4I1_DROPS | MNFYKIFIFVALILAISVGQSEAGWLKKLGKRLERVGQHTRDATI… | 0.998 |
tr|A7S075|A7S075_NEMVE | MFLKVVVVLLAVELSVAQSARQRVRPLDRKAGRKRFAPIFPRQCS… | 0.032 |
tr|F1DFM9|F1DFM9_9CNID | MKVLVILFGAMLVLMEFQKASAATLLEDFDDDDDLLDDGGDFDLE… | 0.223 |
tr|Q5XV93|Q5XV93_ARATH | MSKREYERQLANEEDEQLRNFQAAVAARSAILHEPKEAALPPPAP… | 0.009 |
tr|Q2XXN9|Q2XXN9_POGBA | MRFLYLLFAVAFLFSVQAEDAELEQEQQGDPWEGLDEFQDQPPDD… | 0.733 |
Predicted proteins with a specified predicted probability value could then be extracted and written to a FASTA file:
<- my_protein_df[my_prediction$prob_AMP > 0.8,] my_predicted_amps
seq_name | seq_aa | |
---|---|---|
2 | tr|L5L3D0|L5L3D0_PTEAL | MKPLLIVFVFLIFWDPALAGLNPISSEMYKKCYGNGICRLECYTS… |
4 | tr|Q5F4I1|Q5F4I1_DROPS | MNFYKIFIFVALILAISVGQSEAGWLKKLGKRLERVGQHTRDATI… |
Write the data.frame
with sequence names in the first column and protein sequences in the second column to a FASTA formatted file with df_to_faa()
df_to_faa(my_predicted_amps, tempfile("my_predicted_amps.fasta", tempdir()))
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.
Health stats visible at Monitor.