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A New Approach to TOF Mass Spectrometry for High Performance MS and MS-MS

A New Approach to TOF Mass Spectrometry for High Performance MS and MS-MS. Marvin Vestal and Kevin Hayden SimulTOF Systems AKA Virgin Instruments Corp. Sudbury, MA 01776 Presented at 60 th ASMS Conference on Mass Spectrometry May 21, 2012. Elements of TOF Analyzer. Ion production MALDI

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A New Approach to TOF Mass Spectrometry for High Performance MS and MS-MS

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  1. A New Approach to TOF Mass Spectrometry for High Performance MS and MS-MS Marvin Vestal and Kevin Hayden SimulTOF Systems AKA Virgin Instruments Corp. Sudbury, MA 01776 Presented at 60th ASMS Conference on Mass Spectrometry May 21, 2012

  2. Elements of TOF Analyzer • Ion production • MALDI • Time focusing to reduce effect of initial position and initial velocity • Delayed extraction • Simultaneous space and velocity focusing (SimulTOF) • Ion optics for efficient ion transmission of ions of interest and mass gate and filtering to remove ion noise • Detector for efficient detection of broad range of masses with fast response

  3. Elements of TOF Analyzer • Ion production • MALDI 5 kHz operation • Time focusing to reduce effect of initial position and initial velocity • Delayed extraction • Simultaneous space and velocity focusing (SimulTOF) • Ion optics for efficient ion transmission of ions of interest and mass gate and filtering to remove ion noise • Detector for efficient detection of broad range of masses with fast response • Destroy the myth that high mass singly charged ions cannot be detected by conventional detectors Note: All data presented are “raw” directly from the digitizer. No data processing, smoothing, or baseline correction has been employed.

  4. y= V/(V-Vg) Ds= 2d1y3/2– 2d2y/(1+y1/2) Dv= Ds + (2d1y)2/vnDt where vn = (2zV/m)1/2 V Vg dv/v= [2d1y/(Dv-Ds)](dv0/vn) velocity focus space focus 0 Ds d1 d2 Dv Delayed extraction. The distance to the velocity focus Dv is always greater than the distance to the space focus Ds, and if the difference is small the velocity spread dv/v is large. As a result it is not possible to obtain high mass resolution over a broad range with a linear analyzer, but refocusing with a two-field mirror can yield high resolution over a broad range.

  5. y= V/(V-Vg) Ds= 2d1y3/2– 2d2y/(1+y1/2) Dv= 2d3V/Vp V Vg dv/v= [d1y/Dv](dv0/vn) velocity and space focus Vp 0 d1 d2 Ds d3 Dv SimulTOF focusing: The velocity focus Dv is adjusted by varying the amplitude of the accelerating pulse Vp and the space focus Ds by adjusting the voltage ratio y, allowing simultaneous space and velocity focusing to be achieved. Moreover, if Dv is greater than d1y then the velocity spread is reduced. Thus high resolution over a broad range is possible for a linear analyzer and it provides a preferred first stage for a reflecting analyzer or a tandem TOF-TOF.

  6. V SimulTOF Systems Velocity and space focus Vg Vp 100 Linear detector V Vg detector Vp 200 Combo Ion mirror detector V Vg Collision cell Ion accelerator timed ion selector Vp 300 Tandem Ion mirror detector

  7. SimulTOF Linear @10 kV -- Higher Resolving Power than the old XL Reflector

  8. Typical single ion pulse with fast scintillator Photonisdetector See Ritzau Poster THP 564 for more info +/-30 kV +/-30 kV light e- 0 V -1 kV Ion beam Signal out 1 ns photomultiplier scintillator Micro channel plate +20 kV 0 V Potential diagram for linear detector

  9. 2.3 ns Spectrum of a-cyano matrix dimer measured in SimulTOF 100 Linear MALDI-TOF At 15 kV energy using Photonis fast hybrid detector

  10. 1 shot ~20,000 ions detected 10 shots Mixture of peptide standards, 100 femtomole/mL, 2.5 mm spot Laser spot ca. 50 mm, fluence1.3x threshold, 0.4 attomole/spot=240,000 molecules

  11. 7.4mJ 6mJ 9.0mJ 6.4mJ Mixture of peptide standards, 100 femtomole/mL, 2.5 mm spot, 1000 shots as function of laser fluence

  12. Resolving power Intensity (mV) Laser fluence (mJ) Resolving power and peak intensity for 963.5 in a-cyano matrix

  13. 1500 ns RP=60 Spectrum of BSA in Sinapinic acid matrix measured in SimulTOF 100 Linear MALDI-TOF at 20 kV energy using Photonis fast hybrid detector with channel plate at ground potential

  14. X10 Spectrum of IgG in Sinapinic acid matrix measured in SimulTOF 100 Linear MALDI-TOF at 20 kV energy using Photonis fast hybrid detector with channel plate at ground potential

  15. 1 picomole/mL 200 laser shots @5kHz 0.04 s acquisition Spectrum of IgG in Sinapinic acid matrix measured in SimulTOF 100 Linear MALDI-TOF at 20 kV energy using Photonis fast hybrid detector with channel plate at ground potential

  16. V SimulTOF Systems Velocity and space focus Vg Vp 100 Linear detector V Vg detector Vp 200 Combo Ion mirror detector V Vg Collision cell Ion accelerator timed ion selector Vp 300 Tandem Ion mirror detector

  17. 2 ns 2 ns 200 Combo Reflector Mode, 100 femtomole peptide standards in a-cyano matrix

  18. V SimulTOF Systems Velocity and space focus Vg Vp 100 Linear detector V Vg detector Vp 200 Combo Ion mirror detector V Vg Collision cell Ion accelerator timed ion selector Vp 300 Tandem Ion mirror detector

  19. Unimolecular (psd) 35% fragmentation angiotensin +cid 65% fragmentation

  20. Unimolecular (psd) 35% fragmentation +cid 65% fragmentation

  21. Neurotensin 100 attomoles Unimolecular (PSD) pELYENKPRRPYIL P MH+ =1672.917 Y y7 KP y5 b3 MS-MS at 100 attomoles/mL on 2.5 mm spot. 100,000 shots, 20 s acquisition at 5 kHz 19 of 30 most intense peaks matched neurotensin using Protein Prospector

  22. 100 attomoles 100,000 shots 100 femtomoles 1,000 shots

  23. Conclusions • SimulTOF focusing provides high resolving power over broad range in linear analyzer • Combination with high performance gridless ion optics and hybrid detector provides very high efficiency for ion transmission and detection for both small molecules and proteins • Combination with two-stage ion mirror provides resolving power comparable to delayed extraction but with higher sensitivity • Provides efficient first stage for Tandem TOF with both PSD and CID fragmentation

  24. Acknowledgements • Financial Support • NIGMS and NCRR of NIH • Christina Hsieh Vestal and the Hsieh Family • The entire staff at Virgin Instruments • Steve Gabeler, Mark Dahl, Joe Valentine electronics • George Mills, Matt Gabeler-Lee software • Roger Voyer machinist • Steve Hattan, Ken Parker scientists • Christina Vestal, Bill Gibbs management

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