Author: Mathias Kuhring; Joerg Doellinger; Andreas Nitsche; Thilo Muth; Bernhard Y. Renard
Title: An iterative and automated computational pipeline for untargeted strain-level identification using MS/MS spectra from pathogenic samples Document date: 2019_10_24
ID: k7hm3aow_20
Snippet: In comparison, bronchitis and bacillus samples feature notable variability in proposed taxa candidates. For bronchitis, TaxIt could identify the expected Avian infectious bronchitis virus (strain Beaudette CK) strain. Despite applying a small correction based on weighting, however, final candidate selection is not limited to a single strain but additionally includes a closely related strain, namely Avian infectious bronchitis virus (strain Beaude.....
Document: In comparison, bronchitis and bacillus samples feature notable variability in proposed taxa candidates. For bronchitis, TaxIt could identify the expected Avian infectious bronchitis virus (strain Beaudette CK) strain. Despite applying a small correction based on weighting, however, final candidate selection is not limited to a single strain but additionally includes a closely related strain, namely Avian infectious bronchitis virus (strain Beaudette US) ( Figure 3A) . Nevertheless, TaxIt provides a highly constrained selection of candidates in the first place. In contrast, the Pipasic-based strategy results in considerably more initial candidates and eventually promotes an incorrect strain, namely Avian infectious bronchitis virus (strain 6/82) (Figure 3B ). Since no unique PSMs are available for the bronchitis sample, strain-level identification was not possible with this strategy.
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