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Items: 1 to 20 of 75

1.

Human ZG16p recognizes pathogenic fungi through non-self polyvalent mannose in the digestive system.

Tateno H, Yabe R, Sato T, Shibazaki A, Shikanai T, Gonoi T, Narimatsu H, Hirabayashi J.

Glycobiology. 2012 Feb;22(2):210-20. doi: 10.1093/glycob/cwr130. Epub 2011 Sep 5.

PMID:
21893569
2.

ZG16p, an animal homolog of β-prism fold plant lectins, interacts with heparan sulfate proteoglycans in pancreatic zymogen granules.

Kumazawa-Inoue K, Mimura T, Hosokawa-Tamiya S, Nakano Y, Dohmae N, Kinoshita-Toyoda A, Toyoda H, Kojima-Aikawa K.

Glycobiology. 2012 Feb;22(2):258-66. doi: 10.1093/glycob/cwr145. Epub 2011 Sep 23.

PMID:
21948871
3.

Structural basis for multiple sugar recognition of Jacalin-related human ZG16p lectin.

Kanagawa M, Liu Y, Hanashima S, Ikeda A, Chai W, Nakano Y, Kojima-Aikawa K, Feizi T, Yamaguchi Y.

J Biol Chem. 2014 Jun 13;289(24):16954-65. doi: 10.1074/jbc.M113.539114. Epub 2014 Apr 30.

4.

Crystal structures of human secretory proteins ZG16p and ZG16b reveal a Jacalin-related β-prism fold.

Kanagawa M, Satoh T, Ikeda A, Nakano Y, Yagi H, Kato K, Kojima-Aikawa K, Yamaguchi Y.

Biochem Biophys Res Commun. 2011 Jan 7;404(1):201-5. doi: 10.1016/j.bbrc.2010.11.093. Epub 2010 Nov 24.

PMID:
21110947
5.

C-type lectin Mincle is an activating receptor for pathogenic fungus, Malassezia.

Yamasaki S, Matsumoto M, Takeuchi O, Matsuzawa T, Ishikawa E, Sakuma M, Tateno H, Uno J, Hirabayashi J, Mikami Y, Takeda K, Akira S, Saito T.

Proc Natl Acad Sci U S A. 2009 Feb 10;106(6):1897-902. doi: 10.1073/pnas.0805177106. Epub 2009 Jan 26.

6.
7.

Mannose-binding plant lectins: different structural scaffolds for a common sugar-recognition process.

Barre A, Bourne Y, Van Damme EJ, Peumans WJ, Rougé P.

Biochimie. 2001 Jul;83(7):645-51. Review.

PMID:
11522393
8.

Lectin ZG16p inhibits proliferation of human colorectal cancer cells via its carbohydrate-binding sites.

Mito A, Nakano Y, Saitoh T, Gouraud SSS, Yamaguchi Y, Sato T, Sasaki N, Kojima-Aikawa K.

Glycobiology. 2017 Oct 23. doi: 10.1093/glycob/cwx088. [Epub ahead of print]

PMID:
29069492
9.

C-type lectin Langerin is a beta-glucan receptor on human Langerhans cells that recognizes opportunistic and pathogenic fungi.

de Jong MA, Vriend LE, Theelen B, Taylor ME, Fluitsma D, Boekhout T, Geijtenbeek TB.

Mol Immunol. 2010 Mar;47(6):1216-25. doi: 10.1016/j.molimm.2009.12.016. Epub 2010 Jan 25.

10.

Unusual entropy-driven affinity of Chromobacterium violaceum lectin CV-IIL toward fucose and mannose.

Pokorná M, Cioci G, Perret S, Rebuffet E, Kostlánová N, Adam J, Gilboa-Garber N, Mitchell EP, Imberty A, Wimmerová M.

Biochemistry. 2006 Jun 20;45(24):7501-10.

PMID:
16768446
11.
12.

Defining the Interaction of Human Soluble Lectin ZG16p and Mycobacterial Phosphatidylinositol Mannosides.

Hanashima S, Götze S, Liu Y, Ikeda A, Kojima-Aikawa K, Taniguchi N, Varón Silva D, Feizi T, Seeberger PH, Yamaguchi Y.

Chembiochem. 2015 Jul 6;16(10):1502-11. doi: 10.1002/cbic.201500103. Epub 2015 Jun 11.

PMID:
25919894
14.
15.

ERGIC-53 is a functional mannose-selective and calcium-dependent human homologue of leguminous lectins.

Itin C, Roche AC, Monsigny M, Hauri HP.

Mol Biol Cell. 1996 Mar;7(3):483-93.

16.

A new Ralstonia solanacearum high-affinity mannose-binding lectin RS-IIL structurally resembling the Pseudomonas aeruginosa fucose-specific lectin PA-IIL.

Sudakevitz D, Kostlánová N, Blatman-Jan G, Mitchell EP, Lerrer B, Wimmerová M, Katcoff DJ, Imberty A, Gilboa-Garber N.

Mol Microbiol. 2004 May;52(3):691-700.

18.

Molecular basis of sugar recognition by the human L-type lectins ERGIC-53, VIPL, and VIP36.

Kamiya Y, Kamiya D, Yamamoto K, Nyfeler B, Hauri HP, Kato K.

J Biol Chem. 2008 Jan 25;283(4):1857-61. Epub 2007 Nov 19.

19.

Isolation and characterization of a jacalin-related mannose-binding lectin from salt-stressed rice (Oryza sativa) plants.

Zhang W, Peumans WJ, Barre A, Astoul CH, Rovira P, Rougé P, Proost P, Truffa-Bachi P, Jalali AA, Van Damme EJ.

Planta. 2000 May;210(6):970-8.

PMID:
10872230
20.

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