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Difference between revisions of "Polysaccharide Lyase Family 6"
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== Substrate specificities == | == Substrate specificities == | ||
− | + | PL6 currently contains 3 subfamilies all of which contain members catalyzing the depolymerisation of alginate <cite>Mathieu2016</cite>. 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 <cite>Haug1966 Haug1967</cite>. Subfamily 2 and 3 have so far only shown specificity for poly-mannuronic/guluronic acid blocks <cite>Mathieu2016</cite>, while subfamily 1 has been demonstrated to depolymerize poly-guluronic acid <cite>Lyu2019 Xu2017</cite>, poly-mannuronic acid <cite>Maki1993</cite>, poly-mannuronic/guluronic acid <cite>Mathieu2016</cite> as well as dermatan sulfate (formerly chrondroitin B) <cite>Mathieu2016 #Huang1999 #Michel2004</cite>. | |
+ | '' | ||
− | |||
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== Kinetics and Mechanism == | == Kinetics and Mechanism == | ||
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== References == | == References == | ||
<biblio> | <biblio> | ||
− | # | + | #Mathieu2016 pmid=27438604 |
− | # | + | #Haug1967 Haug, A., Larsen, B., and Smidsrod, O. (1967) Studies on sequence of uronic acid residues in alginic acid. Acta Chem. Scand. 21, 691–704 |
+ | #Haug1966 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 | ||
+ | #Lyu2019 pmid=31004719 | ||
+ | #Xu2017 pmid=28154171 | ||
+ | #Maki1993 pmid=8336113 | ||
+ | #Huang1999 pmid=10600383 | ||
+ | #Michel2004 pmid=15155751 | ||
+ | #Garron2010 pmid=20805221 | ||
</biblio> | </biblio> | ||
[[Category:Polysaccharide Lyase Families|PL006]] | [[Category:Polysaccharide Lyase Families|PL006]] |
Revision as of 03:37, 6 June 2019
This page is currently under construction. This means that the Responsible Curator has deemed that the page's content is not quite up to CAZypedia's standards for full public consumption. All information should be considered to be under revision and may be subject to major changes.
- Author: ^^^Emil Stender^^^
- Responsible Curator: ^^^Birte Svensson^^^
Polysaccharide Lyase Family 6 | |
3D structure | parralel β-helix |
Mechanism | β-elimination |
Charge neutralizer | calcium or water |
Active site residues | known |
CAZy DB link | |
https://www.cazy.org/PL6.html |
Substrate specificities
PL6 currently contains 3 subfamilies all of which contain members catalyzing the depolymerisation of alginate [1]. 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 [2, 3]. Subfamily 2 and 3 have so far only shown specificity for poly-mannuronic/guluronic acid blocks [1], while subfamily 1 has been demonstrated to depolymerize poly-guluronic acid [4, 5], poly-mannuronic acid [6], poly-mannuronic/guluronic acid [1] as well as dermatan sulfate (formerly chrondroitin B) [1, 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
- Mathieu S, Henrissat B, Labre F, Skjåk-Bræk G, and Helbert W. (2016). Functional Exploration of the Polysaccharide Lyase Family PL6. PLoS One. 2016;11(7):e0159415. DOI:10.1371/journal.pone.0159415 |
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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
-
Haug, A., Larsen, B., and Smidsrod, O. (1967) Studies on sequence of uronic acid residues in alginic acid. Acta Chem. Scand. 21, 691–704
- Lyu Q, Zhang K, Shi Y, Li W, Diao X, and Liu W. (2019). Structural insights into a novel Ca(2+)-independent PL-6 alginate lyase from Vibrio OU02 identify the possible subsites responsible for product distribution. Biochim Biophys Acta Gen Subj. 2019;1863(7):1167-1176. DOI:10.1016/j.bbagen.2019.04.013 |
- Xu F, Dong F, Wang P, Cao HY, Li CY, Li PY, Pang XH, Zhang YZ, and Chen XL. (2017). Novel Molecular Insights into the Catalytic Mechanism of Marine Bacterial Alginate Lyase AlyGC from Polysaccharide Lyase Family 6. J Biol Chem. 2017;292(11):4457-4468. DOI:10.1074/jbc.M116.766030 |
- Maki H, Mori A, Fujiyama K, Kinoshita S, and Yoshida T. (1993). Cloning, sequence analysis and expression in Escherichia coli of a gene encoding an alginate lyase from Pseudomonas sp. OS-ALG-9. J Gen Microbiol. 1993;139(5):987-93. DOI:10.1099/00221287-139-5-987 |
- Huang W, Matte A, Li Y, Kim YS, Linhardt RJ, Su H, and Cygler M. (1999). Crystal structure of chondroitinase B from Flavobacterium heparinum and its complex with a disaccharide product at 1.7 A resolution. J Mol Biol. 1999;294(5):1257-69. DOI:10.1006/jmbi.1999.3292 |
- Michel G, Pojasek K, Li Y, Sulea T, Linhardt RJ, Raman R, Prabhakar V, Sasisekharan R, and Cygler M. (2004). The structure of chondroitin B lyase complexed with glycosaminoglycan oligosaccharides unravels a calcium-dependent catalytic machinery. J Biol Chem. 2004;279(31):32882-96. DOI:10.1074/jbc.M403421200 |
- Garron ML and Cygler M. (2010). Structural and mechanistic classification of uronic acid-containing polysaccharide lyases. Glycobiology. 2010;20(12):1547-73. DOI:10.1093/glycob/cwq122 |