Preparation of single-stranded PCR products for electrospray ionization mass spectrometry using the DNA repair enzyme lambda exonuclease

文献信息

发布日期 2000-02-24
DOI 10.1039/A908022H
影响因子 4.616
作者

Allison P. Null, James C. Hannis, David C. Muddiman


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摘要

Electrospray ionization mass spectrometry (ESI-MS) has been utilized to obtain accurate mass measurements of intact PCR products; however, single-stranded PCR products are necessary to detect sequence modifications such as base substitutions, additions or deletions. The locations of these modifications can subsequently be determined using additional stages of mass spectrometry. The recombinant enzyme lambda exonuclease selectively digests one strand of a DNA duplex from a 5′ phosphorylated end leaving the complementary strand intact. Using this rapid enzymatic step, we were able to produce single-stranded PCR products by digestion of an intact PCR product derived from the Human Tyrosine Hydroxylase (HUMTHO1) gene, which contains a tetrameric repeating motif. The non-template directed 3′ adenylation common when using Taq polymerase resulted in three distinct species (blunt-ended, mono-adenylated and di-adenylated), which added complexity to the spectrum of the double-stranded product. The data from the single-stranded products shows that one strand is preferentially adenylated over the other, which cannot be determined from the mass spectrum of the double-stranded PCR product alone. The ESI-FTICR (Fourier transform ion cyclotron resonance) mass spectra of the lambda exonuclease treated PCR products exhibited less than expected signal-to-noise (S/N) ratios. This is attributed to inaccurate concentration calculations due to remaining double-stranded PCR product amplified with unphosphorylated primers, and to matrix effects contributed by the lambda exonuclease reaction buffer. To further test this hypothesis, we investigated and determined the limit of detection to be 0.27 μM using standard curve statistics for single acquisitions of a synthetic 75-mer. The concentrations of the noncoding and coding strands produced by lambda exonuclease digestion were calculated to be 0.29 and 0.37 μM, respectively, taking into account the presence of double-stranded product. The products were electrosprayed from concentrations at the limit of detection requiring the averaging of 5–10 acquisitions to produce a sufficient S/N ratio, indicating that product concentration, base composition and matrix effects play a combined, significant role in detection of lambda exonuclease treated PCR products. Although additional work will be required to further exploit this strategy, lambda exonuclease clearly provides mass spectrometrists with a method to generate single-stranded PCR products.

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