原著論文

2023年

1. Ganglong Yang, Chenyang Zuo, Yuxiang Lin, Xiaoman Zhou, Piaopiao Wen, Chairui Zhang, Han Xiao, Meichen Jiang, Morihisa Fujita, Xiao-Dong Gao, Fangmeng Fu:
   Comprehensive proteome, phosphoproteome and kinome characterization of luminal A breast cancer.
   Front. Oncol., 13:1127446 (2023).
2. Shu-Ya Cao, Yi-Shi Liu, Xiao-Dong Gao, Taroh Kinoshita, and Morihisa Fujita*:
   A lipid scramblase TMEM41B is involved in the processing and transport of GPI-anchored proteins.
   J. Biochem., 174(2):109-123 (2023).
3. Yi-Shi Liu, Yicheng Wang, Xiaoman Zhou, Linpei Zhang, Ganglong Yang, Xiao-Dong Gao, Yoshiko Murakami, Morihisa Fujita*, and Taroh Kinoshita:
   Accumulated precursors of specific GPI-anchored proteins upregulate GPI biosynthesis with ARV1.
   J. Cell Biol., 222(5):e202208159 (2023).

2022年

1. Shijiao Huang, Yoshimi Haga, Jie Li, Jianchao Zhang, Hye Kyong Kweon, Junichi Seino, Hiroto Hirayama, Morihisa Fujita, Kelley W Moremen, Philip Andrews, Tadashi Suzuki, and Yanzhuang Wang:
   Mitotic phosphorylation inhibits the Golgi mannosidase MAN1A1.
   Cell Rep., 41(8):111679 (2022).
2. Piaopiao Wen, Jingru Chen, Chenyang Zuo, Xiao-Dong Gao, Morihisa Fujita*, and Ganglong Yang:
   Proteome and glycoproteome analyses reveal the protein N-linked glycosylation specificity of STT3A and STT3B.
   Cells, 11(18):2775 (2022).
3. Tetsuya Hirata, Jing Yang, Seita Tomida, Yuko Tokoro, Taroh Kinoshita, Morihisa Fujita, Yasuhiko Kizuka:
   ER entry pathway and glycosylation of GPI-anchored proteins are determined by N-terminal signal sequence and C-terminal GPI-attachment sequence.
   J. Biol. Chem., in press (2022).
4. Yicheng Wang, Anant K. Menon, Yuta Maki, Yi-Shi Liu, Yugo Iwasaki, Morihisa Fujita, Paula A. Guerrero, Daniel Varon Silva, Peter H. Seeberger, Yoshiko Murakami, and Taroh Kinoshita:
   Genome-wide CRISPR screen reveals CLPTM1L as a lipid scramblase required for efficient glycosylphosphatidylinositol biosynthesis.
   Proc. Natl. Acad. Sci. USA, 119(14):e2115083119 (2022).
5. Smrithi Salian, Xin-Yu Guo, Yoshiko Murakami, Taroh Kinoshita, Parneet Kaur, Anju Shukla, Katta M Girisha, Morihisa Fujita, Philippe M Campeau:
   C18orf32 loss-of-function is associated with a neurodevelopmental disorder with hypotonia and contractures.
   Hum. Genet., 141(8):1423-1429 (2022).

2021年

1. Si-Si Liu, Fei Jin, Yi-Shi Liu, Yoshiko Murakami, Yukihiko Sugita, Takayuki Kato, Xiao-Dong Gao, Taroh Kinoshita, Motoyuki Hattori, and Morihisa Fujita*:
   Functional analysis of the GPI transamidase complex by screening for amino acid mutations in each subunit.
   Molecules, 26(18):5462 (2021).
2. Yi-Fan Huang, Shuji Mizumoto, and Morihisa Fujita*:
   Novel insight into glycosaminoglycan biosynthesis based on gene expression profiles.
   Frontiers Cell Dev. Biol., 9: 709018 (2021).
3. Si-Si Liu, Yi-Shi Liu, Xin-Yu Guo, Yoshiko Murakami, Ganglong Yang, Xiao-Dong Gao, Taroh Kinoshita and Morihisa Fujita*:
   A knockout cell library of GPI biosynthetic genes for functional studies of GPI-anchored proteins.
   Commun. Biol., 4: 777 (2021).
4. Yi-Fan Huang, Kazuhiro Aoki, Sachiko Akase, Mayumi Ishihara, Yi-Shi Liu, Ganglong Yang, Yasuhiko Kizuka, Shuji Mizumoto, Michael Tiemeyer, Xiao-Dong Gao, Kiyoko F. Aoki-Kinoshita, and Morihisa Fujita*:
   Global mapping of glycosylation pathways in human-derived cells.
   Dev. Cell, 56(8):1195-1209 (2021).
5. Xin-Yu Guo, Xiao-Dong Gao, and Morihisa Fujita*:
   Sulfation of a FLAG tag mediated by SLC35B2 and TPST2 affects antibody recognition.
   PLoS ONE, 16(5):e0250805 (2021).
6. Jing Yang, Tetsuya Hirata, Yi-Shi Liu, Xin-Yu Guo, Xiao-Dong Gao, Taroh Kinoshita, and Morihisa Fujita*:
   Human SND2 mediates ER targeting of GPI-anchored proteins with low hydrophobic GPI-attachment signals.
   FEBS Lett., 595(11):1542-1558 (2021).
7. Ji-Xiong Leng, Wei-Wei Ren, Li Y, Ganglong Yang, Xiao-Dong Gao, and Morihisa Fujita*:
   Cell engineering for the production of hybrid-type N-glycans in HEK293 cells.
   J. Biochem., 170(1):139-151 (2021).
8. Yi-Shi Liu, Emmanuel Matabaro, Xiao-Dong Gao, and Morihisa Fujita*:
   Selecting cells expressing high levels of recombinant proteins using the GPI-anchored protein with selenocysteine system.
   J. Biosci. Bioeng., 131(3):225-233 (2021).

2020年

1. Wenyan Chen, Rong Wang, Dan Li, Chenyang Zuo, Piaopiao Wen, Haili Liu, Yongquan Chen, Morihisa Fujita, Zhimeng Wu, and Ganglong Yang:
   Comprehensive Analysis of the Glycome and Glycoproteome of Bovine Milk-Derived Exosomes.
   J. Agric. Food Chem., 68(45):12692-12701 (2020).
2. Xin-Yu Guo, Yi-Shi Liu, Xiao-Dong Gao, Taroh Kinoshita, and Morihisa Fujita*:
   Calnexin mediates the maturation of GPI-anchors through ER retention.
   J. Biol. Chem., 295(48):16393-16410 (2020).
3. Ran Cao, Tian-Chan Zhang, Ya-Ran Chen, Cui Cao, Huan Chen, Yi-Fan Huang, Morihisa Fujita, Li Liu, and Josef Voglmeir:
   Aberration of Serum and Tissue N-Glycans in Mouse β1,4-GalT1 Y286L Mutant Variants.
   Glycoconj. J., 37(6):767-775 (2020).
4. Gun-Hee Lee, Morihisa Fujita, Hideki Nakanishi, Haruhiko Miyata, Masahito Ikawa, Yusuke Maeda, Yoshiko Murakami, and Taroh Kinoshita:
   PGAP6, a GPI-specific phospholipase A2, has narrow substrate specificity against GPI-anchored proteins.
   J. Biol. Chem., 295(42): 14501-14509 (2020).
5. Shen-Bao Zhao, Neta Dean, Xiao-Dong Gao, and Morihisa Fujita*:
   MON2 Guides Wntless Transport to the Golgi through Recycling Endosomes.
   Cell Struct. Funct., 45(1): 77-92 (2020).
6. Yicheng Wang, Yusuke Maeda, Yi-Shi Liu, Yoko Takada, Akinori Ninomiya, Tetsuya Hirata, Morihisa Fujita, Yoshiko Murakami, and Taroh Kinoshita:
   Cross-talks of glycosylphosphatidylinositol biosynthesis with glycosphingolipid biosynthesis and ER-associated degradation.
   Nat. Commun., 11(1): 860 (2020).

2019年

1. Wei-Wei Ren, Ze-Cheng Jin, Weijie Dong, Toshihiko Kitajima, Xiao-Dong Gao, and Morihisa Fujita*:
   Glycoengineering of HEK293 Cells to Produce High-Mannose-Type N-Glycan Structures.
   J. Biochem., 166(3): 245-258 (2019).
2. Shen-Bao Zhao, Yasuyuki Suda, Hideki Nakanishi, Ning Wang, Takehiko Yoko-o, Xiao-Dong Gao, and Morihisa Fujita*:
   Yeast Dop1 is required for glycosyltransferase retrieval from the trans-Golgi network.
   Biochim. Biophys. Acta – General Subjects, 1863: 1147-1157 (2019).
3. Emmanuel Osei Mensah, Xin-Yu Guo, Xiao-Dong Gao, and Morihisa Fujita*:
   Establishment of DHFR-deficient HEK293 cells for high yield of therapeutic glycoproteins.
   J. Biosci. Bioeng., 128(4): 487-494 (2019).
4. Yicheng Wang, Tetsuya Hirata, Yusuke Maeda, Yoshiko Murakami, Morihisa Fujita, Taroh Kinoshita:
   Free, unlinked glycosylphosphatidylinositols on mammalian cell surfaces revisited.
   J. Biol. Chem., 294(13): 5038-5049 (2019).

2018年

1. Xin-Xin Xu, Sheng-Tao Li, Ning Wang, Toshihiko Kitajima, Takehiko Yoko-o, Morihisa Fujita, Hideki Nakanishi, and Xiao-Dong Gao:
   Structural and functional analysis of Alg1 beta-1,4 mannosyltransferase reveals the physiological importance of its membrane topology.
   Glycobiology, 28(10): 741-753 (2018).
2. Diane Mutumwinka, Shen-Bao Zhao, Yi-Shi Liu, Emmanuel Osei Mensah, Xiao-Dong Gao, and Morihisa Fujita*:
   PiggyBac-based screening identified BEM4 as a suppressor to rescue growth defects in och1-disrupted yeast cells.
   Biosci. Biotechnol. Biochem., 82(9): 1497-1507 (2018).
3. Ze-Cheng Jin, Toshihiko Kitajima, Weijie Dong, Yi-Fan Huang, Wei-Wei Ren, Feng Guan, Yasunori Chiba, Xiao-Dong Gao, and Morihisa Fujita*:
   Genetic disruption of multiple α1,2-mannosidases generates mammalian cells producing recombinant proteins with high-mannose-type N-glycans.
   J. Biol. Chem., 293(15): 5572-5584 (2018).
4. Tetsuya Hirata, Sushil K. Mishra, Shota Nakamura, Kazunobu Saito, Daisuke Motooka, Yoko Takada, Noriyuki Kanzawa, Yoshiko Murakami, Yusuke Maeda, Morihisa Fujita, Yoshiki Yamaguchi, and Taroh Kinoshita:
   Identification of a Golgi GPI-N-acetylgalactosamine transferase with tandem transmembrane regions in the catalytic domain.
   Nat. Commun., 9(1): 405 (2018).
5. Yi-Shi Liu, Xin-Yu Guo, Tetsuya Hirata, Yao Rong, Daisuke Motooka, Toshihiko Kitajima, Yoshiko Murakami, Xiao-Dong Gao, Shota Nakamura, Taroh Kinoshita, and Morihisa Fujita*:
   N-Glycan dependent protein folding and ER retention regulates GPI-anchor processing.
   J. Cell Biol., 217(2): 585-599 (2018).
6. Toshihiko Kitajima, Wei Xue, Yi-Shi Liu, Chu-Di Wang, Si-Si Liu, Morihisa Fujita, Xiao-Dong Gao:
   Construction of green fluorescence protein mutant to monitor STT3B-dependent N-glycosylation.,
   FEBS J., 285(5): 915-928 (2018).
7. Sheng-Tao Li, Ning Wang, Xin-Xin Xu, Morihisa Fujita, Hideki Nakanishi, Toshihiko Kitajima, Neta Dean, Xiao-Dong Gao:
   Alternative routes for synthesis of N-linked glycans by Alg2 mannosyltransferase.,
   FASEB J., 32(5): 2492-2506 (2018).

2017年

1. Emmanuel Matabaro, Zeng’an He, Yi-Shi Liu, Hui-Jie Zhang, Xiao-Dong Gao, and Morihisa Fujita*:
   Molecular switching system using glycosylphosphatidylinositol to select cells highly expressing recombinant proteins.,
   Sci. Rep., 7(1): 4033 (2017).
2. Ting Yan, Huijie Zhang, Dandi Huang, Shini Feng, Morihisa Fujita, and Xiao-Dong Gao:
   Chitosan-Functionalized Graphene Oxide as a Potential Immunoadjuvant.,
   Nanomaterials, 7(3): E59 (2017).
3. Huijie Zhang, Ting Yan, Sha Xu, Shini Feng, Dandi Huang, Morihisa Fujita, and Xiao-Dong Gao:
   Graphene oxide-chitosan nanocomposites for intracellular delivery of immunostimulatory CpG oligodeoxynucleotides.,
   Mater. Sci. Eng. C Mater. Biol. Appl., 73:144-151 (2017).
4. Masamishi Nagae, Dorothee Liebschner, Yusuke Yamada, Kana Morita-Matsumoto, Naohiro Matsugaki, Toshiya Senda, Morihisa Fujita, Taroh Kinoshita, and Yoshiki Yamaguchi:
   Crystallographic analysis of murine p24γ2 Golgi dynamics domain.,
   Proteins, 85(4):764-770 (2017).

2016年

1. Gun-Hee Lee#, Morihisa Fujita#, Katsuyoshi Takaoka, Yoshiko Murakami, Yoshitaka Fujihara, Noriyuki Kanzawa, Kei-ichi Murakami., Eriko Kajikawa, Yoko Takada, Kazunobu Saito, Masahito Ikawa, Hiroshi Hamada, Yusuke Maeda, and Taroh Kinoshita (#共同筆頭著者):
   A GPI processing phospholipase A2, PGAP6, modulates Nodal signaling in embryos by shedding CRIPTO.,
   J. Cell Biol., 215(5):705-718 (2016).
2. Masamichi Nagae, Tetsuya Hirata, Kana Morita-Matsumoto, Romina Theiler, Morihisa Fujita, Taroh Kinoshita, and Yoshiki Yamaguchi:
   3D Structure and Interaction of p24β and p24δ Golgi Dynamics Domains: Implication for p24 Complex Formation and Cargo Transport.,
   J. Mol. Biol., 428(20):4087-4099 (2016).

2015年

1. Yao Rong, Shota Nakamura, Tetsuya Hirata, Daisuke Motooka, Yi-Shi Liu, Zeng-An He, Xiao-Dong Gao, Yusuke Maeda, Taroh Kinoshita, and Morihisa Fujita*:
   Genome-Wide Screening of Genes Required for Glycosylphosphatidylinositol Biosynthesis.,
   PLoS ONE, 10: e0138553 (2015).
2. Tetsuya Hirata#, Morihisa Fujita#, *, Shota Nakamura, Kazuyoshi Gotoh, Daisuke Motooka, Yoshiko Murakami, Yusuke Maeda, and Taroh Kinoshita*:
   Post-Golgi anterograde transport requires GARP-dependent endosome-to-TGN retrograde transport.,
   Mol. Biol. Cell, 26: 3071-84 (2015).

2014年以前

1. Romina Theiler, Morihisa Fujita, Masamichi Nagae, Yoshiki Yamaguchi, Yusuke Maeda, and Taroh Kinoshita:
   The α-helical region in p24γ2 subunit of p24 protein cargo receptor is pivotal for the recognition and transport of glycosylphosphatidylinositol-anchored proteins.,
   J. Biol. Chem., 289: 16835-43 (2014).
2. Tetsuya Hirata, Morihisa Fujita, Noriyuki Kanazawa, Yoshiko Murakami, Yusuke Maeda, and Taroh Kinoshita:
   Glycosylphosphatidylinositol mannosyltransferase II is the rate-limiting enzyme in glycosylphosphatidylinositol biosynthesis under limited dolichol-phosphate mannose availability.,
   J. Biochem., 154: 257-264 (2013).
3. Noriyuki Kanzawa, Nobuyuki Shimozawa, Ronald J. A. Wanders, Kazutaka Ikeda, Yoshiko Murakami, Hans R. Waterham, Satoru Mukai, Morihisa Fujita, Yusuke Maeda, Ryo Taguchi, Yukio Fujiki and Taroh Kinoshita:
   Defective lipid remodeling of GPI anchors in peroxisomal disorders, Zellweger syndrome, and rhizomelic chondrodysplasia punctata.,
   J. Lipid Res., 53:653-663 (2012).
4. Morihisa Fujita, Reika Watanabe, Nina Jaensch, Maria Romanova-Michaelides, Tadashi Satoh, Masaki Kato, Howard Riezman, Yoshiki Yamaguchi, Yusuke Maeda, and Taroh Kinoshita:
   Sorting of GPI-anchored proteins into ER exit sites by p24 proteins is dependent on remodeled GPI.,
   J. Cell Biol., 194: 61-75 (2011).
5. Yuri Nakano, Morihisa Fujita, Kazutoyo Ogino, Taroh Kinoshita, Yoichi Oda, and Hiromi Hirata:
   Biogenesis of GPI-anchored proteins is essential for surface expression of sodium channels in zebrafish Rohon-Beard neurons to respond to mechanosensory stimulation.,
   Development, 137: 1689-1698　(2010).
6. Atsuhiro Adachi, Fumi Kano, Takashi Tsuboi, Morihisa Fujita, Yusuke Maeda, and Masayuki Murata:
   Golgi-associated GSK3{beta} regulates the sorting process of post-Golgi membrane trafficking.,
   J. Cell Sci., 123: 3215-3225　(2010).
7. Morihisa Fujita, Yusuke Maeda, Moonjin Ra, Yoshiki Yamaguchi, Ryo Taguchi, and Taroh Kinoshita:
   GPI glycan remodeling by PGAP5 regulates transport of GPI-anchored proteins from the endoplasmic reticulum to the Golgi.,
   Cell, 139: 352-365 (2009).
8. Hiroto Hirayama, Morihisa Fujita, Takehiko Yoko-o, and Yoshifumi Jigami:
   O-mannosylation is required for degradation of the endoplasmic reticulum-associated degradation substrate Gas1*p via the ubiquitin/proteasome pathway in Saccharomyces cerevisiae.,
   J. Biochem., 143(4): 555-67 (2008).
9. Mariko Umemura, Morihisa Fujita, Takehiko Yoko-o, Akiyoshi Fukamizu, and Yoshifumi Jigami:
   Saccharomyces cerevisiae CWH43 is involved in the remodeling of the lipid moiety of GPI anchors to ceramides.,
   Mol. Biol. Cell, 18(11): 4304-16 (2007).
10. Yusuke Maeda, Yuko Tashima, Toshiaki Houjou, Morihisa Fujita, Takehiko Yoko-o, Yoshifumi Jigami , Ryo Taguchi, and Taroh Kinoshita:
    Fatty acid remodeling of GPI-anchored proteins is required for their raft association.,
    Mol. Biol. Cell, 18(4): 1497-506 (2007).
11. Morihisa Fujita, Mariko Umemura, Takehiko Yoko-o, and Yoshifumi Jigami:
    PER1 is required for GPI-phospholipase A2 activity and involved in lipid remodeling of GPI-anchored proteins.,
    Mol. Biol. Cell, 17(12): 5253-64 (2006).
12. Morihisa Fujita, Takehiko Yoko-o, and Yoshifumi Jigami:
    Inositol deacylation by Bst1p is required for the quality control of glycosylphosphatidylinositol-anchored proteins.,
    Mol. Biol. Cell, 17(2): 834-50 (2006).
13. Morihisa Fujita, Takehiko Yoko-o, Michiyo Okamoto, and Yoshifumi Jigami:
    GPI7 involved in glycosylphosphatidylinositol biosynthesis is essential for yeast cell separation.,
    J. Biol. Chem., 279(50): 51869-79 (2004).

英文総説

1. Yi-Shi Liu and Morihisa Fujita*:
   Mammalian GPI-anchor modifications and the enzymes involved.,
   Biochem. Soc. Trans., 48(3): 1129-1138 (2020).
2. Taroh Kinoshita and Morihisa Fujita:
   Biosynthesis of GPI-anchored proteins: special emphasis on GPI lipid remodeling.,
   J. Lipid Res. 57: 6-24 (2016).
3. Taroh Kinoshita, Yusuke Maeda and Morihisa Fujita:
   Transport of glycosylphosphatidylinositol-anchored proteins from the endoplasmic reticulum.,
   Biochim. Biophys. Acta – Mol. Cell Res., 1833: 2473-8 (2013).
4. Morihisa Fujita*:
   Potential Roles of GPI-Anchor Remodeling in Protein Trafficking and Raft Association in Mammalian Cells.,
   Trends Glycosci. Glycotech., 24: 244-257 (2012).
5. Morihisa Fujita* and Taroh Kinoshita:
   GPI-anchor remodeling: Potential functions of GPI-anchors in intracellular trafficking and membrane dynamics.,
   Biochim. Biophys. Acta, 1821 (8): 1050-1058 (2012).
6. Morihisa Fujita and Taroh Kinoshita:
   Structural remodeling of GPI anchors during biosynthesis and after attachment to proteins.,
   FEBS Lett., 584 (9): 1670-1677 (2010).
7. Yusuke Maeda, Morihisa Fujita, and Taroh Kinoshita:
   GPI-Anchor: Update for Biosynthesis and Remodeling.,
   Trends Glycosci. Glycotech., 22: 182-193 (2010).
8. Taroh Kinoshita, Morihisa Fujita, and Yusuke Maeda:
   Biosynthesis, remodelling and functions of mammalian GPI-anchored proteins: recent progress.,
   J. Biochem., 144(3): 287-94 (2008).
9. Morihisa Fujita and Yoshifumi Jigami:
   Lipid remodeling of GPI-anchored proteins and its function.,
   Biochim. Biophys. Acta, 1780(3): 410-20 (2008).

和文総説

1. 藤田盛久
   GPIアンカー型タンパク質の生合成・リモデリング機構, 生化学, 日本生化学会, Vol. 85, 985-995 (2013).
2. 藤田盛久
   糖脂質修飾が決めるタンパク質の選別輸送機構 GPIアンカーの構造変化によるタンパク質輸送・膜局在の制御, 化学と生物, 日本農芸化学会, Vol. 50, 564-566 (2012).
3. 藤田盛久、木下タロウ
   生体膜ダイナミクスにおけるGPIアンカーの機能, 細胞工学, 秀潤社, Vol. 30, 972-979 (2011).
4. 藤田盛久、木下タロウ
   GPI付加によるタンパク質選別輸送・局在の調節, 実験医学, 羊土社, Vol. 28, 3285-3291 (2010).
5. 神澤範行、藤田盛久、木下タロウ
   GPIアンカーの脂質・糖鎖リモデリング, 実験医学, 羊土社, Vol. 28, 1251-1256 (2010).
6. 藤田盛久、前田裕輔、木下タロウ
   GPIアンカー蛋白質のリモデリング機構, 蛋白質核酸酵素, Vol. 53, 1442-1447 (2008).
7. 藤田盛久
   タンパク質の品質管理機構 細胞内タンパク質生産工場の品質管理責任者の発見, 産総研TODAY Vol. 6, No. 3, p18-19 (2006).

著書

1. Wei-Wei Ren and Morihisa Fujita*:
   Simple N-Glycan Profile Analysis Using Lectin Staining, Mass Spectrometry, and GlycoMaple.,
   Methods Mol. Biol., 2557:691-707 (2023).
2. Sneha Sudha Komath, Morihisa Fujita, Gerald W. Hart, Michael A.J. Ferguson, and Taroh Kinoshita:
   Glycosylphosphatidylinositol Anchors.,
   Essentials of Glycobiology, 4th edition. Cold Spring Harbor Laboratory Press., Chapter 12 (2022).
3. Xin-Yu Guo and Morihisa Fujita*:
   Glycosylphosphatidylinositol Anchors and Lipids.,
   Comprehensive Glycoscience, 2nd edition Elsevier., 3: 103-116 (2021).
4. Si-Si Liu and Morihisa Fujita*:
   Glycosylphosphatidylinositol Anchors.,
   Encyclopedia of Biological Chemistry, second ed. Academic Press., 2: 663-671 (2021).
5. Morihisa Fujita*, Xiao-Dong Gao and Taroh Kinoshita:
   Glycan-Mediated Protein Transport from the Endoplasmic Reticulum.,
   Sugar Chains, Springer: 31 - 34 (2015).
6. Taroh Kinoshita and Morihisa Fujita:
   Overview of GPI biosynthesis.,
   The Enzymes, Academic Press, 26: 1-30 (2009).
7. 地神芳文、藤田盛久
   タンパク質の糖鎖修飾, 酵母のすべて, シュプリンガー・フェアラーク東京 (2007).