Computational Systems Biology Methods and Protocols.7z

Gheynst J, Fiehn O, Arita M (2015)

MS-DIAL: data-independent MS/MS decon-

volution for comprehensive metabolome

analysis. Nat Methods 12(6):523–526.

https://doi.org/10.1038/nmeth.3393

88. Chen G, Walmsley S, Cheung GCM, Chen L,
    Cheng CY, Beuerman RW, Wong TY,
    Zhou L, Choi H (2017) Customized consen-
    sus spectral library building for untargeted
    quantitative metabolomics analysis with data
    independent acquisition mass spectrometry
    and MetaboDIA workflow. Anal Chem 89
    (9):4897–4906. https://doi.org/10.1021/
    acs.analchem.6b05006


89. Li H, Cai Y, Guo Y, Chen F, Zhu ZJ (2016)
    MetDIA: targeted metabolite extraction of
    multiplexed MS/MS spectra generated by
    data-independent acquisition. Anal Chem 88
    (17):8757–8764.https://doi.org/10.1021/
    acs.analchem.6b02122


90. Jansen BC, Reiding KR, Bondt A, Ederveen
    ALH, Palmblad M, Falck D, Wuhrer M
    (2015) MassyTools: a high-throughput tar-
    geted data processing tool for relative quanti-
    tation and quality control developed for
    glycomic and glycoproteomic MALDI-MS. J
    Proteome Res 14(12):5088–5098


91. Savorani F, Tomasi G, Engelsen SB (2010)
    icoshift: a versatile tool for the rapid align-
    ment of 1D NMR spectra. J Magn Reson
    202(2):190–202.https://doi.org/10.1016/
    j.jmr.2009.11.012


92. Christensen JH, Tomasi G, Hansen AB
    (2005) Chemical fingerprinting of petroleum
    biomarkers using time warping and PCA.
    Environ Sci Technol 39(1):255–260


93. Vu TN, Valkenborg D, Smets K, Verwaest
    KA, Dommisse R, Lemiere F, Verschoren A,
    Goethals B, Laukens K (2011) An integrated
    workflow for robust alignment and simplified
    quantitative analysis of NMR spectrometry
    data. BMC Bioinformatics 12:405.https://
    doi.org/10.1186/1471-2105-12-405


94. De Meyer T, Sinnaeve D, Van Gasse B,
    Tsiporkova E, Rietzschel ER, De Buyzere
    ML, Gillebert TC, Bekaert S, Martins JC,
    Van Criekinge W (2008) NMR-based charac-
    terization of metabolic alterations in hyper-
    tension using an adaptive, intelligent binning
    algorithm. Anal Chem 80(10):3783–3790.
    https://doi.org/10.1021/ac7025964


95. Jacob D, Deborde C, Moing A (2013) An
    efficient spectra processing method for
    metabolite identification from 1H-NMR
    metabolomics data. Anal Bioanal Chem 405
    (15):5049–5061.https://doi.org/10.1007/
    s00216-013-6852-y
    96. Worley B, Powers R (2015) Generalized adap-
    tive intelligent binning of multiway data. Che-
    mom Intell Lab Syst 146:42–46.https://doi.
    org/10.1016/j.chemolab.2015.05.005
    97. Wishart DS, Jewison T, Guo AC, Wilson M,
    Knox C, Liu Y, Djoumbou Y, Mandal R,
    Aziat F, Dong E, Bouatra S, Sinelnikov I,
    Arndt D, Xia J, Liu P, Yallou F, Bjorndahl T,
    Perez-Pineiro R, Eisner R, Allen F, Neveu V,
    Greiner R, Scalbert A (2013) HMDB 3.0—
    the human metabolome database in 2013.
    Nucleic Acids Res 41(Database issue):
    D801–D807. https://doi.org/10.1093/
    nar/gks1065
    98. Wishart DS, Tzur D, Knox C, Eisner R, Guo
    AC, Young N, Cheng D, Jewell K, Arndt D,
    Sawhney S, Fung C, Nikolai L, Lewis M,
    Coutouly MA, Forsythe I, Tang P,
    Shrivastava S, Jeroncic K, Stothard P,
    Amegbey G, Block D, Hau DD, Wagner J,
    Miniaci J, Clements M, Gebremedhin M,
    Guo N, Zhang Y, Duggan GE, Macinnis
    GD, Weljie AM, Dowlatabadi R,
    Bamforth F, Clive D, Greiner R, Li L,
    Marrie T, Sykes BD, Vogel HJ, Querengesser
    L (2007) HMDB: the human metabolome
    database. Nucleic Acids Res 35(Database
    issue):D521–D526. https://doi.org/10.
    1093/nar/gkl923
    99. Markley JL, Anderson ME, Cui Q, Eghbalnia
    HR, Lewis IA, Hegeman AD, Li J, Schulte CF,
    Sussman MR, Westler WM, Ulrich EL, Zolnai
    Z (2007) New bioinformatics resources for
    metabolomics. Pacific Symposium on Biocom-
    puting. Pac Symp Biocomput 12:157–168


96. Cui Q, Lewis IA, Hegeman AD, Anderson
    ME, Li J, Schulte CF, Westler WM, Eghbalnia
    HR, Sussman MR, Markley JL (2008) Metab-
    olite identification via the Madison Metabo-
    lomics Consortium Database. Nat Biotechnol
    26(2):162–164. https://doi.org/10.1038/
    nbt0208-162


97. Kale NS, Haug K, Conesa P, Jayseelan K,
    Moreno P, Rocca-Serra P, Nainala VC, Spicer
    RA, Williams M, Li X, Salek RM, Griffin JL,
    Steinbeck C (2016) MetaboLights: an open-
    access database repository for metabolomics
    data. Curr Protoc Bioinformatics
    53:14.13.11–14.13.18.https://doi.org/10.
    1002/0471250953.bi1413s53


98. Ellinger JJ, Chylla RA, Ulrich EL, Markley JL
    (2013) Databases and software for
    NMR-based metabolomics. Curr Metabolo-
    mics 1(1). https://doi.org/10.2174/
    2213235X11301010028


99. Bingol K, Zhang F, Bruschweiler-Li L,
    Bruschweiler R (2012) TOCCATA: a

290 Jing Cheng et al.