Development of high-sensitivity ion trap ion mobility spectrometry time-of-flight techniques: A high-throughput nano-LC-IMS-TOF separation of peptides arising from a Drosophila protein extract

Sunnie Myung; Young Jin Lee; Myeong Hee Moon; John Taraszka; Rena Sowell; Stormy Koeniger; Amy E. Hilderbrand; Stephen J. Valentine; Lucy Cherbas; Peter Cherbas; Thomas C. Kaufmann; David F. Miller; Yehia Mechref; Milos V. Novotny; Michael A. Ewing; C. Ray Sporieder; David E. Clemmer

doi:10.1021/ac030107f

Development of high-sensitivity ion trap ion mobility spectrometry time-of-flight techniques: A high-throughput nano-LC-IMS-TOF separation of peptides arising from a Drosophila protein extract

Sunnie Myung, Young Jin Lee, Myeong Hee Moon, John Taraszka, Rena Sowell, Stormy Koeniger, Amy E. Hilderbrand, Stephen J. Valentine, Lucy Cherbas, Peter Cherbas, Thomas C. Kaufmann, David F. Miller, Yehia Mechref, Milos V. Novotny, Michael A. Ewing, C. Ray Sporieder, David E. Clemmer

Department of Chemistry

Research output: Contribution to journal › Article › peer-review

36 Citations (Scopus)

Abstract

A linear octopole trap interface for an ion mobility time-of-flight mass spectrometer has been developed for focusing and accumulating continuous beams of ions produced by electrospray ionization. The interface improves experimental efficiencies by factors of ∼50-200 compared with an analogous configuration that utilizes a three-dimensional Paul geometry trap (Hoaglund-Hyzer, C. S.; Lee, Y. J.; Counterman, A. E.; Clemmer, D. E. Anal. Chem. 2002, 74, 992-1006). With these improvements, it is possible to record nested drift (flight) time distributions for complex mixtures in fractions of a second. We demonstrate the approach for several well-defined peptide mixtures and an assessment of the detection limits is given. Additionally, we demonstrate the utility of the approach in the field of proteomics by an on-line, three-dimensional nano-LC-ion mobility-TOF separation of tryptic peptides from the Drosophila proteome.

Original language	English
Pages (from-to)	5137-5145
Number of pages	9
Journal	Analytical Chemistry
Volume	75
Issue number	19
DOIs	https://doi.org/10.1021/ac030107f
Publication status	Published - 2003 Oct 1

All Science Journal Classification (ASJC) codes

Analytical Chemistry

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10.1021/ac030107f

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Myung, S., Lee, Y. J., Moon, M. H., Taraszka, J., Sowell, R., Koeniger, S., Hilderbrand, A. E., Valentine, S. J., Cherbas, L., Cherbas, P., Kaufmann, T. C., Miller, D. F., Mechref, Y., Novotny, M. V., Ewing, M. A., Sporieder, C. R., & Clemmer, D. E. (2003). Development of high-sensitivity ion trap ion mobility spectrometry time-of-flight techniques: A high-throughput nano-LC-IMS-TOF separation of peptides arising from a Drosophila protein extract. Analytical Chemistry, 75(19), 5137-5145. https://doi.org/10.1021/ac030107f

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title = "Development of high-sensitivity ion trap ion mobility spectrometry time-of-flight techniques: A high-throughput nano-LC-IMS-TOF separation of peptides arising from a Drosophila protein extract",

abstract = "A linear octopole trap interface for an ion mobility time-of-flight mass spectrometer has been developed for focusing and accumulating continuous beams of ions produced by electrospray ionization. The interface improves experimental efficiencies by factors of ∼50-200 compared with an analogous configuration that utilizes a three-dimensional Paul geometry trap (Hoaglund-Hyzer, C. S.; Lee, Y. J.; Counterman, A. E.; Clemmer, D. E. Anal. Chem. 2002, 74, 992-1006). With these improvements, it is possible to record nested drift (flight) time distributions for complex mixtures in fractions of a second. We demonstrate the approach for several well-defined peptide mixtures and an assessment of the detection limits is given. Additionally, we demonstrate the utility of the approach in the field of proteomics by an on-line, three-dimensional nano-LC-ion mobility-TOF separation of tryptic peptides from the Drosophila proteome.",

author = "Sunnie Myung and Lee, {Young Jin} and Moon, {Myeong Hee} and John Taraszka and Rena Sowell and Stormy Koeniger and Hilderbrand, {Amy E.} and Valentine, {Stephen J.} and Lucy Cherbas and Peter Cherbas and Kaufmann, {Thomas C.} and Miller, {David F.} and Yehia Mechref and Novotny, {Milos V.} and Ewing, {Michael A.} and Sporieder, {C. Ray} and Clemmer, {David E.}",

year = "2003",

month = oct,

day = "1",

doi = "10.1021/ac030107f",

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Myung, S, Lee, YJ, Moon, MH, Taraszka, J, Sowell, R, Koeniger, S, Hilderbrand, AE, Valentine, SJ, Cherbas, L, Cherbas, P, Kaufmann, TC, Miller, DF, Mechref, Y, Novotny, MV, Ewing, MA, Sporieder, CR & Clemmer, DE 2003, 'Development of high-sensitivity ion trap ion mobility spectrometry time-of-flight techniques: A high-throughput nano-LC-IMS-TOF separation of peptides arising from a Drosophila protein extract', Analytical Chemistry, vol. 75, no. 19, pp. 5137-5145. https://doi.org/10.1021/ac030107f

Development of high-sensitivity ion trap ion mobility spectrometry time-of-flight techniques: A high-throughput nano-LC-IMS-TOF separation of peptides arising from a Drosophila protein extract. / Myung, Sunnie; Lee, Young Jin; Moon, Myeong Hee et al.
In: Analytical Chemistry, Vol. 75, No. 19, 01.10.2003, p. 5137-5145.

Research output: Contribution to journal › Article › peer-review

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AU - Moon, Myeong Hee

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AU - Sowell, Rena

AU - Koeniger, Stormy

AU - Hilderbrand, Amy E.

AU - Valentine, Stephen J.

AU - Cherbas, Lucy

AU - Cherbas, Peter

AU - Kaufmann, Thomas C.

AU - Miller, David F.

AU - Mechref, Yehia

AU - Novotny, Milos V.

AU - Ewing, Michael A.

AU - Sporieder, C. Ray

AU - Clemmer, David E.

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N2 - A linear octopole trap interface for an ion mobility time-of-flight mass spectrometer has been developed for focusing and accumulating continuous beams of ions produced by electrospray ionization. The interface improves experimental efficiencies by factors of ∼50-200 compared with an analogous configuration that utilizes a three-dimensional Paul geometry trap (Hoaglund-Hyzer, C. S.; Lee, Y. J.; Counterman, A. E.; Clemmer, D. E. Anal. Chem. 2002, 74, 992-1006). With these improvements, it is possible to record nested drift (flight) time distributions for complex mixtures in fractions of a second. We demonstrate the approach for several well-defined peptide mixtures and an assessment of the detection limits is given. Additionally, we demonstrate the utility of the approach in the field of proteomics by an on-line, three-dimensional nano-LC-ion mobility-TOF separation of tryptic peptides from the Drosophila proteome.

AB - A linear octopole trap interface for an ion mobility time-of-flight mass spectrometer has been developed for focusing and accumulating continuous beams of ions produced by electrospray ionization. The interface improves experimental efficiencies by factors of ∼50-200 compared with an analogous configuration that utilizes a three-dimensional Paul geometry trap (Hoaglund-Hyzer, C. S.; Lee, Y. J.; Counterman, A. E.; Clemmer, D. E. Anal. Chem. 2002, 74, 992-1006). With these improvements, it is possible to record nested drift (flight) time distributions for complex mixtures in fractions of a second. We demonstrate the approach for several well-defined peptide mixtures and an assessment of the detection limits is given. Additionally, we demonstrate the utility of the approach in the field of proteomics by an on-line, three-dimensional nano-LC-ion mobility-TOF separation of tryptic peptides from the Drosophila proteome.

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Development of high-sensitivity ion trap ion mobility spectrometry time-of-flight techniques: A high-throughput nano-LC-IMS-TOF separation of peptides arising from a Drosophila protein extract

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