Currently, the detection/quantitation of biomolecules using Inductively Coupled
Plasma Mass Spectrometry (ICR-MS) is focused on heteroatom containing (e.g. S.
P, Se, Cu) compounds. This limits the scope of ICP-MS as a routine analytical tool
in the bioanalytical sciences. To increase this scope novel strategies to
incorporate elemental labels have been developed. Chemical derivatisation is one
such strategy. Cyclic diethylenetriaminepentaacetic acid anhydride (cDTPA), a
bifunctional chelating agent (BFCA), is reacted with N-terminal amines and is
subsequently chelated with trivalent metals. This allows the detection of peptides
that contained no heteroatom using liquid chromatography (LC)-ICP-MS. The
derivatisation efficiency, optimised using LC-UV/vis detection, is approximately
99%. The derivatisation and chelation reactions products are characterised using
LC-electrospray ionisation tandem mass spectrometry (ESI-MS-MS).
The labelling procedure allowed the relative quantitation of peptides, by differential
isotopic labelling. Two individually derivatised peptide samples are chelated with
natural isotopic abundance and isotopically enriched 151Eu respectively. The Eu
labelled peptides were combined and analysed by LC-ICP-MS. The resulting
153EU:151EU ratio, measured using the pseudo steady state approach for transient
signals; is then used to calculate the original peptide proportions using a modified
isotope dilution equation. The ICP-MS measured peptide ratio was within 2.8% of
the theoretical peptide ratio. The absolute detection limit for the relative
quantitation of Eu labelled bradykinin was 5 pmol, which is comparable to current
ESI-MS methods. When cDTPA derivatisation was applied to a complex sample
multiple by-products were observed in the LC-UV/vis chromatogram. However, the
corresponding LC-ICP-MS chromatogram suggested that only singly derivatised
peptides were chelated with the metal.
To overcome by-product formation monoreactive BFCAs, namely isothiocyanate-benzyl-
EDTA (SCN-Bz-EDTA) and isothiocyanate-benzyl-DTPA (SCN-Bz-DTPA).
were evaluated as derivatisation reagents. Solid phase analytical derivatisation
(SPAD) and solid phase extraction (SPE) were also evaluated for speed and ease
of use. The monoreactive nature of SCN-Bz-EDTA and SCN-Bz-DTPA gave singly
derivatised peptides when applied to complex samples. However, the resulting
derivatisation efficiency was low and no significant improvement in efficiency was
noted when SPAD was used. SCN-Bz-EDTA derivatised peptides could not be
chelated to trivalent metals, whilst chelation occurred with SCN-Bz-DTPA
derivatised peptides. Eu labelled peptides were isolated and selectively extracted
by SPE for relative quantitation by LC-ICP-MS. However, due to the instability of
the isothiocyanate reagent and instrumental effects the relative error on the
measured peptide ratio was greater than 45% when compared to the theoretical
ratio. Although the peptide ratio obtained using the SPE method agreed with the
ratio from the non extracted sample.
Date of Award | 2008 |
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Original language | English |
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Awarding Institution | |
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RELATIVE QUANTITATION OF PEPTIDES BY INDUCTIVELY COUPLED PLASMA MASS SPECTROMETRY
Patel, P. (Author). 2008
Student thesis: PhD