- 1) Roy M, Dubois MP, Proffit M, Vincenot L, Desmarais E, and Selosse M-A, Mol. Ecol., 17, 2825–2838 (2008).
- 2) Guillot J, Genaud L, Guegunot J, and Damez M, Biochemistry, 22, 5365–5369 (1983).
- 3) Barondes SH, Castronovo V, Cooper DNW, Cummings RD, Drickamer K, Feizi T, Gitt MA, Hirabayashi J, Hughes C, Kasai K, Effler LH, Liu F, Lotan R, Mercurio AM, Monsigny M, Pillai S, Poirier F, Raz A, Rigby PWJ, Rini JM, and Wang JL, Cell, 76, 597–598 (1994).
- 4) Cooper DN, Boulianne PR, Charlton S, Farrell EM, Sucher A, and Lu BC, J. Biol. Chem., 272, 1514–1521 (1997).
- 5) Yagi F, Hiroyama H, and Kodama S, Glycoconj. J., 18, 745–749 (2001).
- 6) Yang N, Tong X, Xiang Y, Zhang Y, Liang Y, Sun H, and Wang D, J. Biochem., 138, 145–150 (2005).
- 7) Wälti MA, Walser PJ, Thore S, Grünler A, Bednar B, Künzle M, and Aebi M, J. Mol. Biol., 379, 146–159 (2008).
- 8) Mueller GM, Mycologia, 77, 121–129 (1985).
- 9) Elo J and Estola E, Ann. Med. Exp. Biol. Fenn., 30, 165–167 (1952).
- 10) Raszeja S, Z. Arztl. Fortbild., 58, 801–803 (1964).
- 11) Martin F, Aerts A, Ahren D, Brun A, Danchin EGJ, Duchaussoy F, Gibon J, Kohler A, Lindquist E, Pereda V, Salamov A, Shapiro HJ, Wuyts J, Blaudez D, Buee M, Brokstein P, Canbaeck B, Cohen D, Courty PE, Coutinho PM, Delaruelle C, Detter JC, Deveau A, DiFazio S, Duplessis S, Fraissinet-Tachet L, Lucic E, Frey-Klett P, Fourrey C, Feussner I, Gay G, Grimwood J, Hoegger PJ, Jain P, Kilaru S, Labbe J, Lin YC, Legue V, Le Tacon F, Marmeisse R, Melayah D, Montanini B, Muratet M, Nehls U, Niculita-Hirzel H, Oudot-Le Secq MP, Peter M, Quesneville H, Rajashekar B, Reich M, Rouhier N, Schmutz J, Yin T, Chalot M, Henrissat B, Kuees U, Lucas S, van de Peer Y, Podila GK, Polle A, Pukkila PJ, Richardson PM, Rouze P, Sanders IR, Stajich JE, Tunlid A, Tuskan G, and Grigoriev IV, Nature, 452, 88–92 (2008).
- 12) Duk M, Lisowska E, Wu J, and Wu AM, Anal. Biochem., 221, 266–272 (1994).
- 13) Lowry OH, Rosebrough NJ, Farr AL, and Randal RJ, J. Biol. Chem., 193, 265–275 (1951).
- 14) Davis BJ, Ann. NY Acad. Sci., 121, 404–427 (1964).
- 15) Laemmli UK, Nature, 227, 680–685 (1970).
- 16) Mahoney WC, Smith PK, and Hermodson MA, Biochemistry, 20, 443–448 (1981).
- 17) Enfield DL, Ericsson LH, Fujikawa K, Walsh KA, Neurath H, and Titani R, Biochemistry, 19, 659–667 (1980).
- 18) Schagger H, Anal. Biochem., 166, 368–379 (1987).
- 19) Matsudaira P, J. Biol. Chem., 262, 10035–10038 (1987).
- 20) Liu YG and Whittier RF, Genomics, 25, 674–681 (1995).
- 21) Didier E, Didier P, Fargein N, Guillot J, Croisille Y, and Thiery JP, Int. J. Dev. Biol., 34, 421–431 (1990).
- 22) Hirabayashi J, Hashidate T, Arata Y, Nishi N, Nakamura T, Hirashima M, Urashima T, Oka T, Futai M, Muller EGW, Yagi F, and Kasai K, Biochim. Biophys. Acta, 1572, 232–254 (2002).
- 23) Oda Y, Herrmann J, Gitt MA, Turck CW, Burlingame AL, Barondes SH, and Leffler H, J. Biol. Chem., 268, 5929–5939 (1993).
- 24) Marschal P, Herrmann J, Leffler H, Barondes SH, and Cooper DNW, J. Biol. Chem., 267, 12942–12949 (1992).
- 25) Hanish F-G, Saur A, Muller WRG, Conrad J, and Uhlenbruck G, Biochim. Biophys. Acta, 801, 388–395 (1984).
- 26) Walser PJ, Haebel PW, Künzler M, Sargent D, Kües U, Aebi M, and Ban N, Structure, 12, 689–702 (2004).
- 27) Yagi F, Miyamoto M, Abe T, Minami Y, Tadera K, and Goldstein IJ, Glycoconj. J., 14, 281–288 (1997).
- 28) Tsuji T and Osawa T, Carbohydr. Res., 151, 391–402 (1986).
- 29) Karlsson NG, Nordman H, Karlsson H, Carlstedt I, and Hansson GC, Biochem. J., 326, 911–917 (1997).
- 30) Wu AM, J. Biomed. Sci., 10, 676–688 (2003).
- 31) Leffler H and Barondes SH, J. Biol. Chem., 261, 10119–10126 (1986).
- 32) Hirabayashi J, Ubukata T, and Kasai K, J. Biol. Chem., 271, 2497–2502 (1996).
- 33) Larkin MA, Blackshields G, Brown NP, Chenna R, McGettigan PA, McWilliam H, Valentin F, Wallace IM, Wilm A, Lopez R, Thompson JD, Gibson TJ, and Higgins DG, Bioinformatics, 23, 2947–2948 (2007).
- 34) Hirabayashi J, Satoh T, and Kasai K, J. Biol Chem., 267, 15485–15490 (1992).
- 35) Ban M, Yoon HJ, Demirkan E, Utsumi S, Mikami B, and Yagi F, J. Mol. Biol., 351, 695–706 (2005).
- 36) Lobsanov Y, Gitt MA, Leffler H, Barondes SH, and Rini JM, J. Biol. Chem., 268, 27034–27038 (1993).
- 37) Boulianne RP, Liu Y, Aebi M, Lu BC, and Kües U, Microbiology, 146, 1841–1853 (2000).
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Primary Structure and Specificity of a New Member of Galectin Family from the Amethyst Deceiver Mushroom Laccaria amethystina
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