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Polysaccharide Lyase Family 17
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- Author: ^^^Emil Stender^^^
- Responsible Curator: ^^^Birte Svensson^^^
| Polysaccharide Lyase Family 17 | |
| 3D structure | (α/α)6 barrel + anti-parallel β-sheet |
| Mechanism | β-eliminationg |
| Charge neutralizer | Asparagine and histidine |
| Active site residues | known |
| CAZy DB link | |
| https://www.cazy.org/PL17.html | |
Substrate specificities
PL17 currently contains 2 subfamilies [1] as well as several proteins currently not assigned to any subfamily. Subfamily 2 has been shown to be exolytic alginate lyases [2, 3, 4, 5] with specificity for all tree block structure observed [6]. Alginate consisting of 1,4 linked β-D-mannuronic acid and α-L-guluronic acid arranged in poly-mannuronic acid blocks, poly-guluronic acid blocks or poly-mannuronic/guluronic acid blocks [7, 8].
Kinetics and Mechanism
Content is to be added here.
Catalytic Residues
Content is to be added here.
Three-dimensional structures
Content is to be added here.
Family Firsts
- First stereochemistry determination
- Content is to be added here.
- First catalytic nucleophile identification
- Content is to be added here.
- First general acid/base residue identification
- Content is to be added here.
- First 3-D structure
- Content is to be added here.
References
- Jagtap SS, Hehemann JH, Polz MF, Lee JK, and Zhao H. (2014). Comparative biochemical characterization of three exolytic oligoalginate lyases from Vibrio splendidus reveals complementary substrate scope, temperature, and pH adaptations. Appl Environ Microbiol. 2014;80(14):4207-14. DOI:10.1128/AEM.01285-14 |
- Park D, Jagtap S, and Nair SK. (2014). Structure of a PL17 family alginate lyase demonstrates functional similarities among exotype depolymerases. J Biol Chem. 2014;289(12):8645-55. DOI:10.1074/jbc.M113.531111 |
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Shin, J. W., Lee, O. K., Park, H. H., Kim, H. S., and Lee, E. Y. (2015) Molecular characterization of a novel oligoalginate lyase consisting of AlgL- and heparinase II/III-like domains from Stenotrophomonas maltophilia KJ-2 and its application to alginate saccharification. Korean J. Chem. Eng. 32, 917–924
- Wang L, Li S, Yu W, and Gong Q. (2015). Cloning, overexpression and characterization of a new oligoalginate lyase from a marine bacterium, Shewanella sp. Biotechnol Lett. 2015;37(3):665-71. DOI:10.1007/s10529-014-1706-z |
- Mathieu S, Touvrey-Loiodice M, Poulet L, Drouillard S, Vincentelli R, Henrissat B, Skjåk-Bræk G, and Helbert W. (2018). Ancient acquisition of "alginate utilization loci" by human gut microbiota. Sci Rep. 2018;8(1):8075. DOI:10.1038/s41598-018-26104-1 |
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Haug, A., Larsen, B., and Smidsrod, O. (1967) Studies on sequence of uronic acid residues in alginic acid. Acta Chem. Scand. 21, 691–704
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Haug, A., Larsen, B., and Smidsrod, O. (1966) A study of constitution of alginic acid by partial acid hydrolysis. Acta Chem. Scand. 20, 183–190
- Lombard V, Bernard T, Rancurel C, Brumer H, Coutinho PM, and Henrissat B. (2010). A hierarchical classification of polysaccharide lyases for glycogenomics. Biochem J. 2010;432(3):437-44. DOI:10.1042/BJ20101185 |