Sequence Information from 42−108-mer DNAs (Complete for a 50-mer) by Tandem Mass Spectrometry

Complete sequence information for an “unknown” 50-mer DNA and extensive sequence verification for another 50-mer and 42-, 51-, 55-, 60-, 72-, 100-, and 108-mer DNAs is obtained by electrospray ionization/Fourier transform mass spectrometry that supplies 10−100× higher accuracy and resolving-power da...

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Veröffentlicht in:	Journal of the American Chemical Society 1996-10, Vol.118 (39), p.9352-9359
Hauptverfasser:	Little, Daniel P, Aaserud, David J, Valaskovic, Gary A, McLafferty, Fred W
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container_end_page	9359
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container_title	Journal of the American Chemical Society
container_volume	118
creator	Little, Daniel P Aaserud, David J Valaskovic, Gary A McLafferty, Fred W
description	Complete sequence information for an “unknown” 50-mer DNA and extensive sequence verification for another 50-mer and 42-, 51-, 55-, 60-, 72-, 100-, and 108-mer DNAs is obtained by electrospray ionization/Fourier transform mass spectrometry that supplies 10−100× higher accuracy and resolving-power data using nozzle-skimmer (NS), collisionally activated, and infrared multiphoton dissociation (IRMPD). In addition to the previously recognized 3‘- and 5‘-terminal (w and a) ions, internal ions (i) and MS/MS/MS of fragment ions provide unique structural information across the DNA. NS dissociation can also yield other new backbone cleavages (forming b, c, d, and r ions) that provide extensive 5‘-end information. These spectra indicate that loss of the base T rarely triggers formation of w, a, or i fragment ions, a correlation of further sequencing utility. Point mutation screening is demonstrated using a modified 50-mer unknown; a 9.04 (theory 9.01) decrease in the molecular weight (M r) value indicates A → T, while three IRMPD fragment ions pinpoint this mutation at base 27. Introduction (measurement time
doi_str_mv	10.1021/ja9533611
format	Article
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In addition to the previously recognized 3‘- and 5‘-terminal (w and a) ions, internal ions (i) and MS/MS/MS of fragment ions provide unique structural information across the DNA. NS dissociation can also yield other new backbone cleavages (forming b, c, d, and r ions) that provide extensive 5‘-end information. These spectra indicate that loss of the base T rarely triggers formation of w, a, or i fragment ions, a correlation of further sequencing utility. Point mutation screening is demonstrated using a modified 50-mer unknown; a 9.04 (theory 9.01) decrease in the molecular weight (M r) value indicates A → T, while three IRMPD fragment ions pinpoint this mutation at base 27. 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Am. Chem. Soc</addtitle><description>Complete sequence information for an “unknown” 50-mer DNA and extensive sequence verification for another 50-mer and 42-, 51-, 55-, 60-, 72-, 100-, and 108-mer DNAs is obtained by electrospray ionization/Fourier transform mass spectrometry that supplies 10−100× higher accuracy and resolving-power data using nozzle-skimmer (NS), collisionally activated, and infrared multiphoton dissociation (IRMPD). In addition to the previously recognized 3‘- and 5‘-terminal (w and a) ions, internal ions (i) and MS/MS/MS of fragment ions provide unique structural information across the DNA. NS dissociation can also yield other new backbone cleavages (forming b, c, d, and r ions) that provide extensive 5‘-end information. These spectra indicate that loss of the base T rarely triggers formation of w, a, or i fragment ions, a correlation of further sequencing utility. 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Am. Chem. Soc</addtitle><date>1996-10-02</date><risdate>1996</risdate><volume>118</volume><issue>39</issue><spage>9352</spage><epage>9359</epage><pages>9352-9359</pages><issn>0002-7863</issn><eissn>1520-5126</eissn><abstract>Complete sequence information for an “unknown” 50-mer DNA and extensive sequence verification for another 50-mer and 42-, 51-, 55-, 60-, 72-, 100-, and 108-mer DNAs is obtained by electrospray ionization/Fourier transform mass spectrometry that supplies 10−100× higher accuracy and resolving-power data using nozzle-skimmer (NS), collisionally activated, and infrared multiphoton dissociation (IRMPD). In addition to the previously recognized 3‘- and 5‘-terminal (w and a) ions, internal ions (i) and MS/MS/MS of fragment ions provide unique structural information across the DNA. NS dissociation can also yield other new backbone cleavages (forming b, c, d, and r ions) that provide extensive 5‘-end information. These spectra indicate that loss of the base T rarely triggers formation of w, a, or i fragment ions, a correlation of further sequencing utility. Point mutation screening is demonstrated using a modified 50-mer unknown; a 9.04 (theory 9.01) decrease in the molecular weight (M r) value indicates A → T, while three IRMPD fragment ions pinpoint this mutation at base 27. Introduction (measurement time <1 min) of 8 × 10-16 mol of the 50-mer gave an M r value with only a 0.2 error.</abstract><pub>American Chemical Society</pub><doi>10.1021/ja9533611</doi><tpages>8</tpages></addata></record>
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title	Sequence Information from 42−108-mer DNAs (Complete for a 50-mer) by Tandem Mass Spectrometry
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