Candidate prioritization for low-abundant differentially expressed proteins in 2D-DIGE datasets

U.K. Nandal; W.J. Vlietstra; C. Byrman; R.E. Jeeninga; J.H. Ringrose; A.H.C. van Kampen; D. Speijer; P.D. Moerland

doi:https://doi.org/10.1186/s12859-015-0455-x

Candidate prioritization for low-abundant differentially expressed proteins in 2D-DIGE datasets

U.K. Nandal, W.J. Vlietstra, C. Byrman, R.E. Jeeninga, J.H. Ringrose, A.H.C. van Kampen, D. Speijer, P.D. Moerland

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

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Abstract

BACKGROUND: Two-dimensional differential gel electrophoresis (2D-DIGE) provides a powerful technique to separate proteins on their isoelectric point and apparent molecular mass and quantify changes in protein expression. Abundantly available proteins in spots can be identified using mass spectrometry-based approaches. However, identification is often not possible for low-abundant proteins.
RESULTS: We present a novel computational approach to prioritize candidate proteins for unidentified spots. Our approach exploits noisy information on the isoelectric point and apparent molecular mass of a protein spot in combination with functional similarities of candidate proteins to already identified proteins to select and rank candidates. We evaluated our method on a 2D-DIGE dataset comparing protein expression in uninfected and HIV-1 infected T-cells. Using leave-one-out cross-validation, we show that the true-positive rate for the top-5 ranked proteins is 43.8%.
CONCLUSIONS: Our approach shows good performance on a 2D-DIGE dataset comparing protein expression in uninfected and HIV-1 infected T-cells. We expect our method to be highly useful in (re-)mining other 2D-DIGE experiments in which especially the low-abundant protein spots remain to be identified.

Original language	English
Article number	25
Pages (from-to)	25
Number of pages	11
Journal	BMC Bioinformatics
Volume	16
Issue number	1
DOIs	https://doi.org/10.1186/s12859-015-0455-x
Publication status	Published - 2015

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Cite this

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title = "Candidate prioritization for low-abundant differentially expressed proteins in 2D-DIGE datasets",

abstract = "BACKGROUND: Two-dimensional differential gel electrophoresis (2D-DIGE) provides a powerful technique to separate proteins on their isoelectric point and apparent molecular mass and quantify changes in protein expression. Abundantly available proteins in spots can be identified using mass spectrometry-based approaches. However, identification is often not possible for low-abundant proteins. RESULTS: We present a novel computational approach to prioritize candidate proteins for unidentified spots. Our approach exploits noisy information on the isoelectric point and apparent molecular mass of a protein spot in combination with functional similarities of candidate proteins to already identified proteins to select and rank candidates. We evaluated our method on a 2D-DIGE dataset comparing protein expression in uninfected and HIV-1 infected T-cells. Using leave-one-out cross-validation, we show that the true-positive rate for the top-5 ranked proteins is 43.8%. CONCLUSIONS: Our approach shows good performance on a 2D-DIGE dataset comparing protein expression in uninfected and HIV-1 infected T-cells. We expect our method to be highly useful in (re-)mining other 2D-DIGE experiments in which especially the low-abundant protein spots remain to be identified.",

author = "U.K. Nandal and W.J. Vlietstra and C. Byrman and R.E. Jeeninga and J.H. Ringrose and {van Kampen}, A.H.C. and D. Speijer and P.D. Moerland",

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year = "2015",

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T1 - Candidate prioritization for low-abundant differentially expressed proteins in 2D-DIGE datasets

AU - Nandal, U.K.

AU - Vlietstra, W.J.

AU - Byrman, C.

AU - Jeeninga, R.E.

AU - Ringrose, J.H.

AU - van Kampen, A.H.C.

AU - Speijer, D.

AU - Moerland, P.D.

N1 - With additional files

PY - 2015

Y1 - 2015

N2 - BACKGROUND: Two-dimensional differential gel electrophoresis (2D-DIGE) provides a powerful technique to separate proteins on their isoelectric point and apparent molecular mass and quantify changes in protein expression. Abundantly available proteins in spots can be identified using mass spectrometry-based approaches. However, identification is often not possible for low-abundant proteins. RESULTS: We present a novel computational approach to prioritize candidate proteins for unidentified spots. Our approach exploits noisy information on the isoelectric point and apparent molecular mass of a protein spot in combination with functional similarities of candidate proteins to already identified proteins to select and rank candidates. We evaluated our method on a 2D-DIGE dataset comparing protein expression in uninfected and HIV-1 infected T-cells. Using leave-one-out cross-validation, we show that the true-positive rate for the top-5 ranked proteins is 43.8%. CONCLUSIONS: Our approach shows good performance on a 2D-DIGE dataset comparing protein expression in uninfected and HIV-1 infected T-cells. We expect our method to be highly useful in (re-)mining other 2D-DIGE experiments in which especially the low-abundant protein spots remain to be identified.

AB - BACKGROUND: Two-dimensional differential gel electrophoresis (2D-DIGE) provides a powerful technique to separate proteins on their isoelectric point and apparent molecular mass and quantify changes in protein expression. Abundantly available proteins in spots can be identified using mass spectrometry-based approaches. However, identification is often not possible for low-abundant proteins. RESULTS: We present a novel computational approach to prioritize candidate proteins for unidentified spots. Our approach exploits noisy information on the isoelectric point and apparent molecular mass of a protein spot in combination with functional similarities of candidate proteins to already identified proteins to select and rank candidates. We evaluated our method on a 2D-DIGE dataset comparing protein expression in uninfected and HIV-1 infected T-cells. Using leave-one-out cross-validation, we show that the true-positive rate for the top-5 ranked proteins is 43.8%. CONCLUSIONS: Our approach shows good performance on a 2D-DIGE dataset comparing protein expression in uninfected and HIV-1 infected T-cells. We expect our method to be highly useful in (re-)mining other 2D-DIGE experiments in which especially the low-abundant protein spots remain to be identified.

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Candidate prioritization for low-abundant differentially expressed proteins in 2D-DIGE datasets

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