Concurrent serotyping and genotyping of pneumococci by use of PCR and electrospray ionization mass spectrometry.

A pneumococcal serotyping/genotyping system (PSGS) was developed based upon targeted PCR, followed by electrospray ionization mass spectrometry and amplicon base composition analysis. Eight multiplex PCRs, 32 targeting serotype-determining capsular biosynthetic loci, and 8 targeting multilocus sequence typing (MLST) loci were employed for each of 229 highly diverse Streptococcus pneumoniae isolates. The most powerful aspect of the PSGS system was the identification of capsular serotypes accounting for the majority of invasive and carried pneumococcal strains. Altogether, 45 different serotypes or serogroups were correctly predicted among the 196 resolvable isolates, with only 2 unexpected negative results. All 33 isolates that represented 23 serotypes not included in the PSGS yielded negative serotyping results. A genotyping database was constructed using the base compositions of 65- to 100-bp sections of MLST alleles compiled within http://www.mlst.net. From this database, one or more MLST sequence types (STs) that comprised a PSGS genotype were identified. The end result of more PSGS genotypes (163) than conventional STs actually tested (155) was primarily due to amplification failures of 1 to 3 targets. In many instances, the PSGS genotype could provide resolution of single- and double-locus variants. This molecular serotyping/genotyping scheme is well suited to rapid characterization of large sets of pneumococcal isolates.

Usefulness of multilocus polymerase chain reaction followed by electrospray ionization mass spectrometry to identify a diverse panel of bacterial isolates.

Polymerase chain reaction electrospray ionization mass spectrometry (PCR/ESI-MS) was tested for its ability to accurately identify a blinded panel of 156 diverse bacterial isolates, mostly human and/or animal pathogens. Here, 142/156 (91%) isolates were correctly identified to the genus level and 115/156 (74%) were correctly identified to the species level. Only 9% were misidentified. This study shows that multilocus PCR/ESI-MS has the potential to be a useful technique for identifying a broad range of bacteria.

Multitarget affinity/specificity screening of natural products: finding and characterizing high-affinity ligands from complex mixtures by using high-performance mass spectrometry.

In this work we describe a high-throughput screening approach based on electrospray ionization-Fourier transform ion cyclotron resonance mass spectrometry (ESI-FTICR) that rapidly interrogates the noncovalent interaction between RNA-based drug targets and components derived from a bacterial natural product library. The screening process detects molecules present in the natural product library that bind to a synthetic RNA target that mimics the prokaryotic 16S rRNA A-site, while simultaneously measuring specificity for the synthetic A-site target using a control RNA target that lacks the critical structural element of the A-site construct. This screening approach known as multitarget affinity/specificity screening (MASS) demonstrated the expected binding of paromomycin from a fractionated natural product library derived from Streptomyces rimosus sp. paromomycinus. A new molecule was observed to bind with specificity to the 16S A-site RNA construct. MS/MS characterization of this species yielded partial structural information suggesting it is an aminoglycoside consisting of a paromomycin core with one or more modified rings. This work demonstrates the tremendous utility of MASS for screening natural product fractions against macromolecular targets.