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'''27 February 2016:''' ''The sweet side of sulfur:'' [[Author]] '''[[User:Spencer Williams|Spencer Williams]]''' has updated the '''[[Glycoside Hydrolase Family 31]]''' page to reflect the recent discovery of the first dedicated sulfoquinovosidases (SQases), previously ‘hidden’ within this family. SQases cleave α-glycosides of sulfoquinovose (6-sulfoglucose), which represent a significant reservoir of organosulfur in the biosphere. ''See the [[GH31]] page to discover more of the hidden charms of this family.''
 
'''27 February 2016:''' ''The sweet side of sulfur:'' [[Author]] '''[[User:Spencer Williams|Spencer Williams]]''' has updated the '''[[Glycoside Hydrolase Family 31]]''' page to reflect the recent discovery of the first dedicated sulfoquinovosidases (SQases), previously ‘hidden’ within this family. SQases cleave α-glycosides of sulfoquinovose (6-sulfoglucose), which represent a significant reservoir of organosulfur in the biosphere. ''See the [[GH31]] page to discover more of the hidden charms of this family.''
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'''11 September 2015:''' ''Let's hear it for the [[transglycosylases]]!:''  Today, [[Author]]s '''[[User:Ramon Hurtado-Guerrero|Ramon Hurtado-Guerrero]]''' and '''[[User:Thierry Fontaine|Thierry Fontaine]]''', together with [[Responsible Curator]]  '''[[User:Bernard Henrissat|Bernard Henrissat]]''', completed the '''[[Glycoside Hydrolase Family 72]]''' page.  '''[[GH72]]''' is a small but important family of beta(1-3)-glucan [[transglycosylases]] that function to remodel the cell wall during the growth of yeast and other fungi.  Predominant or strict transglycosylases are relatively rare in GH families, with other notable examples coming from [[GH13]], [[GH16]], [[GH31]], [[GH70]], and [[GH77]]. ''Read more about '''[[GH72]]''' and what makes [[transglycosylases]] so interesting here in CAZypedia!''
 
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'''6 August 2015:'''  ''Live from the Cellulase/CAZyme GRC:''  ''CAZypedia'' marches on with the completion of the '''[[Polysaccharide Lyase Family 1]]''' today by [[Responsible Curator]] and [[Author]] '''[[User:Richard Pickersgill|Richard Pickersgill]]''', with additional editing by [[Polysaccharide Lyase Families]] coordinator '''[[User:Wade Abbott|Wade Abbott]]'''.  '''[[PL1]]''' contains pectate lyases from microbes and plants, which are key enzymes in plant cell wall remodelling/break-down.  The solution of the crystal structure of a pectate lyase C from the plant pathogen ''Erwinia chrysanthemi'' was the first to reveal the parallel beta-helix as a novel protein fold that is now known to serve as the scaffold of other pectinolytic enzymes, including pectin hydrolases ([[GH28]]) and pectin methylesterases ([http://www.cazy.org/CE8.html CE8]).  ''Read more about the discovery of pectate lyases and the enzymology and crystallography of [[PL1]] [[PL1|here]].''
 
 
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Revision as of 11:29, 31 October 2016

30 October 2016: Another X-module comes to light: Today Spencer Williams completed the Glycoside Hydrolase Family 134 page, which describes the genesis of a new CAZy family from a small group of modules formerly known as "X307" in the CAZyModO classification. The single biochemically and structurally characterized GH135 member hydrolyzes the unique fungal exo-polysaccharide galactosaminogalactan, with crystallographic evidence suggesting that the enzyme acts as a alpha-galactosaminidase. However, a number of key enzymological questions about this new family remain outstanding, and we look forward to future work in this direction of the CAZyme landscape.


3 September 2016: Galactosaminoglycan degradation: Spencer Williams has just completed a short entry on Glycoside Hydrolase Family 114, a small family of bacterial and fungal sequences currently represented by a single characterized endo-alpha-1,4-polygalactosaminidase. alpha-1,4-Polygalactosamine, also known as galactosaminoglycan, is produced as a secreted polysaccharide by select fungi, including Aspergilli.


27 February 2016: The sweet side of sulfur: Author Spencer Williams has updated the Glycoside Hydrolase Family 31 page to reflect the recent discovery of the first dedicated sulfoquinovosidases (SQases), previously ‘hidden’ within this family. SQases cleave α-glycosides of sulfoquinovose (6-sulfoglucose), which represent a significant reservoir of organosulfur in the biosphere. See the GH31 page to discover more of the hidden charms of this family.