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[1]Glycome Informatics, Kiyoko F. Aoki-Kinoshita, CRC Press, 2009.
[2]½Ά¨w,ιΨNv Δσ, R[hXvOn[o[, 2003.
[3]½πmι`»ΜfηΖaCΦΜ§ν,ΘwZpU»@\, 2010.
[4] GlycoWord@http://www.glycoforum.gr.jp/science/word/wordJ.html
[5] Y. Akune, M. Hosoda, S. Kaiya, D. Shinmachi, and K.F. Aoki-Kinoshita. The RINGS Resource for Glycome Informatics Analysis and Data Mining on the Web. OMICS: A Journal of Integrative Biology, 14(4):475{486, 2010.
[6] K.F. Aoki, A. Yamaguchi, N. Ueda, T. Akutsu, H. Mamitsuka, S. Goto, and M. Kanehisa. KCaM (KEGG Carbohydrate Matcher): a software tool for analyzing the structures of carbohydrate sugar chains. Nucleic Acids Res., 32:W267{W272, 2004.
[7] K. Aoki-Kinoshita. An introduction to bioinformatics for glycomics research. PLoS Computational Biology, 4(5):e1000075, 2008.
[8] K.F. Aoki-Kinoshita. Glycome Informatics: Methods and Applications. Chapman Hall/CRC, 2009.
[9] K.F. Aoki-Kinoshita, N. Ueda, H. Mamitsuka, and M. Kanehisa. ProfilePSTMM: capturing tree-structure motifs in carbohydrate sugar chains. Bioinformatics, 22(14):e25{e34, 2006.
[10] A. Bohne-Lang, E. Lang, T. Forster, and C.-W. von der Lieth. LINUCS: LInear Notation for Unique description of Carbohydrate Sequences. Carbohydrate Research, 336(1):1{11, 2001.
[11] B. Ehud, N. Yael, A. Yaniv, H. Asaf, I. Ori, N. Dotan, and D. Avinoam. A Novel Linear Code Nomenclature for Complex Carbohydrates. Trends Glycoscience Glycotechnology, 14(77):127{137, 2002.
[12] K. Hashimoto, I. Takigawa, M. Shiga, M. Kanehisa, and H. Mamitsuka. Mining significant tree patterns in carbohydrate sugar chains. Bioinformatics, 24(16):i167{i173, 2008.
[13] S. Herget, R. Ranziner, K. Maass, and C.-W. von der Lieth. GlycoCT- a unifying sequence format for carbohydrates. Carbohydrate Research, 343:2162{2171, 2008.
[14] F.J. Krambeck, S.V. Bennun, S. Narang, S. Choi, K.J. Yarema, and M.J. Betenbaugh. A mathematical model to derive N-glycan structures and cellular enzyme activities from mass spectrometric data. Glycobiology, 19(11):1163, 2009.
[15] F.J. Krambeck and M.J. Betenbaugh. A mathematical model of N-linked glycosylation. Biotechnology and Bioengineering, 92(6):711{728, 2005.
[16] N. Packer, C.-W. von der Lieth, K.F. Aoki-Kinoshita, et al. Frontiers in glycomics: bioinformatics and biomarkers in disease. An NIH white paper prepared from discussions by the focus groups at a workshop on the NIH campus, Bethesda MD (September 11-13, 2006). Proteomics, 8(1):8{20, 2008.
[17] A. Suga, Y. Yamanishi, K. Hashimoto, S. Goto, and M. Kanehisa. An improved scoring scheme for predicting glycan structures from gene expression data. Genome Inform., 18:237{246, 2007.
[18] A. Varki, R.D. Cummings, J.D. Esko, H.H. Freeze, et al., editors. Essentials of Glycobiology. Cold Spring Harbor Laboratory Press, 2nd edition, 2009.