BACKGROUND: MALDI-typing has become a frequently used approach for the identification of microorganisms and recently also of invertebrates. Similarity-comparisons are usually based on single-spectral data. We apply self-organizing maps (SOM) to portray the MS-spectral data with individual resolution and to improve the typing of Prototheca algae by using meta-spectra representing prototypes of groups of similar-behaving single spectra. RESULTS: The MALDI-TOF peaklists of more than 300 algae extracts referring to five Prototheca species were transformed into colored mosaic images serving as molecular portraits of the individual samples. The portraits visualize the algae-specific distribution of high- and low-amplitude peaks in two dimensions. Species-specific pattern of MS intensities were readily discernable in terms of unique single spots of high amplitude MS-peaks which collect characteristic fingerprint spectra. The spot patterns allow the visual identification of groups of samples referring to different species, genotypes or isolates. The use of meta-peaks instead of single-peaks reduces the dimension of the data and leads to an increased discriminating power in downstream analysis. CONCLUSIONS: We expect that our SOM portray method improves MS-based classifications and feature selection in upcoming applications of MALDI-typing based species identifications especially of closely related species.
BACKGROUND: MALDI-typing has become a frequently used approach for the identification of microorganisms and recently also of invertebrates. Similarity-comparisons are usually based on single-spectral data. We apply self-organizing maps (SOM) to portray the MS-spectral data with individual resolution and to improve the typing of Prototheca algae by using meta-spectra representing prototypes of groups of similar-behaving single spectra. RESULTS: The MALDI-TOF peaklists of more than 300 algae extracts referring to five Prototheca species were transformed into colored mosaic images serving as molecular portraits of the individual samples. The portraits visualize the algae-specific distribution of high- and low-amplitude peaks in two dimensions. Species-specific pattern of MS intensities were readily discernable in terms of unique single spots of high amplitude MS-peaks which collect characteristic fingerprint spectra. The spot patterns allow the visual identification of groups of samples referring to different species, genotypes or isolates. The use of meta-peaks instead of single-peaks reduces the dimension of the data and leads to an increased discriminating power in downstream analysis. CONCLUSIONS: We expect that our SOM portray method improves MS-based classifications and feature selection in upcoming applications of MALDI-typing based species identifications especially of closely related species.
Authors: Hans Binder; Henry Wirth; Arsen Arakelyan; Kathrin Lembcke; Evgeny S Tiys; Vladimir A Ivanisenko; Nikolay A Kolchanov; Alexey Kononikhin; Igor Popov; Evgeny N Nikolaev; Lyudmila Pastushkova; Irina M Larina Journal: BMC Genomics Date: 2014-12-19 Impact factor: 3.969
Authors: Pavel Pořízka; Petra Prochazková; David Prochazka; Lucia Sládková; Jan Novotný; Michal Petrilak; Michal Brada; Ota Samek; Zdeněk Pilát; Pavel Zemánek; Vojtěch Adam; René Kizek; Karel Novotný; Jozef Kaiser Journal: Sensors (Basel) Date: 2014-09-23 Impact factor: 3.576
Authors: Kaveh Emami; Ethan Hack; Andrew Nelson; Chelsea M Brain; Fern M Lyne; Ehsan Mesbahi; John G Day; Gary S Caldwell Journal: Sci Rep Date: 2015-05-12 Impact factor: 4.379
Authors: Carlos E Fidelis; Manoela Franke; Letícia C R de Abreu; Tomasz Jagielski; Márcio G Ribeiro; Marcos V Dos Santos; Juliano L Gonçalves Journal: J Vet Diagn Invest Date: 2021-08-05 Impact factor: 1.569