Direct probe mass spectrometry of single colonies of different bacteria produced spectra which could be distinguished by calculations based on the intensities of 25 selected ions. Direct probe mass spectrometry has enormous potential as a rapid technique for characterizing micro-organisms.
EshuisW.,
KistemakerP. G.,
MeuzelaarH. L. C.1977; Some numerical aspects of reproducibility and specificity.. In Analytical Pyrolysis pp. 151–166JonesC. E. R.,
CramersC. A.
Edited by Amsterdam:: Elsevier.;
GutteridgeC. S.,
NorrisJ. R.1979; The application of pyrolysis techniques to the identification of micro-organisms.. Journal of Applied Bacteriology 47:5–43
KistemakerP. G.,
MeuzelaarH. L. C.,
PosthumusM. A.1975; Rapid and automated identification of micro-organisms by Curie-point pyrolysis techniques. II. Fast identification of microbiological samples by Curie-point mass spectrometry.. In New Approaches to the Identification of Micro-organisms pp. 179–191HedénC. G.,
IlléniT.
Edited by London:: John Wiley & Sons.;
MacFieH. J. H.,
GutteridgeC. S.,
NorrisJ. R.1978; Use of canonical variates analysis in differentiation of bacteria by pyrolysis gas-liquid chromatography.. Journal of General Microbiology 104:67–74
MeuzelaarH. L. C.,
KistemakerP. G.1973; A technique for fast and reproducible fingerprinting of bacteria by pyrolysis mass spectrometry.. Analytical Chemistry 45:587–590
MeuzelaarH. L. C.,
KistemakerP. G.,
EshuisW.,
EngelH. W. B.1976; Progress in automated and computerised characterisation of microorganisms by pyrolysis mass spectrometry.. In Proceedings of the 2nd International Symposium on Rapid Methods and Automation in Microbiology pp. 225–230JohnstonH. H.,
NewsomS. W. B.
Edited by Oxford:: Learned Information Ltd.;
RisbyT. H.,
YergeyA. L.1976; Identification of bacteria using linear programmed thermal degradation mass spectrometry. The preliminary investigation.. Journal of Physical Chemistry 80:2839–2845