CAZypedia celebrates the life of Senior Curator Emeritus Harry Gilbert, a true giant in the field, who passed away in September 2025.

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Difference between revisions of "Template:News"

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'''29 September 2020:''' ''Back to the future with beta-1,3-glucanases:'' The '''[[Glycoside Hydrolase Family 128]]''' page was promoted to [[Curator Approved]] status today by '''[[User:Mario Murakami|Mario Murakami]]''' today.  '''[[GH128]]''' was originally created following the initial discovery of this family by '''[[User:Yuichi Sakamoto|Yuichi Sakamoto]]''' and colleagues, who characterized the archetypal beta-1,3-glucanase from the shiitake mushroom.  More recently, a team led by '''[[User:Mario Murakami|Mario Murakami]]''', including first-author '''[[User:Camila Santos|Camila Santos]]''', presented a sweeping first mechanistic and structural study of this family this year.  ''We're grateful to '''[[User:Camila Santos|Camila]]''' and '''[[User:Mario Murakami|Mario]]''' for elaborating upon '''[[User:Yuichi Sakamoto|Yuichi's]]''' original CAZypedia page, which you can read [[Glycoside Hydrolase Family 128|here]]. You can also compare [[GH128]] with other distinct beta-1,3-glucanase families covered in CAZypedia, e.g. [[GH17]], [[GH81]], [[GH148]], and [[GH158]].''
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'''31 October 2025:''' ''A spooktacular addition to the CAZypedia family!'' Come and say 'Boo!' to the frighteningly well written '''[[CBM13]]''' ''CAZypedia'' pageThe '''[[CBM13]]''' family is a '''[[Carbohydrate-binding_modules#Blurred Lines: CBMs, Lectins and Outliers|lectin-like CBM family]]'''. Its first characterized members were lectins, including the B chain from the highly toxic [https://en.wikipedia.org/wiki/Ricin ricin] toxin from ''Ricinus communis''.  This spine tingling read was authored by '''[[User:Scott Mazurkewich|Scott Mazurkewich]]''' and '''[[User:Lauren McKee|Lauren McKee]]''' who also acted as responsible curator. ''Come and visit the scariest of ''CAZypedia'' CBM pages, '''[[CBM13|here!]]'''...  if you dare...''
 
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'''22 September 2020:''' ''Like PLs, but different:'' We are happy to announce the completion of a new [[Lexicon]] page on [[Polysaccharide epimerases]] today. '''[[User:Margrethe Gaardlos|Margrethe Gaardlos]]''' spearheaded the composition of this new page, with input from co-[[author]] '''[[User:Anne Tondervik|Anne Tøndervik]]''' and [[Responsible Curator]] '''[[User:Finn Aachmann|Finn Lillelund Aachmann]]'''.  Although they are not categorized into families in the CAZy system, '''[[Polysaccharide epimerases]]''' bear a lot of structural and mechanistic similarity to '''[[Polysaccharide Lyases]]''':  Instead of catalyzing an elimination reaction to break poly-uronic acid chains, '''[[Polysaccharide epimerases]]''' simply use the first part of the [[PL]] mechanism to remove and re-add the C-5 proton. The resulting change in the configuration of the C-6 carboxylate has major impacts on polysaccharide structure and properties.  ''The Norwegian team has done a tremendous job in capturing the broad history of these enzymes, including their diverse substrate specificities and structures (and over 130 references!), which you can read all about [[Polysaccharide epimerases|here.]]'' (We also thank [[User:Mirjam Czjzek|Mirjam Czjzek]] for championing the inclusion of the "PEs" in ''CAZYpedia''.)
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'''29 July 2025:'''  ''[[CBM91]] is in the news!''  The xylan binding '''[[CBM91]]''' family ''CAZypedia'' page is up and runningAppended to mainly [[GH43]] xylanases this [[CBM91]] family drives interaction with substrate. The [[CBM91]] page was authored by '''[[User:Daichi Ito|Daichi Ito]]''' who also discovered the initial xylan-binding function which resulted in the creation of the [[CBM91]] CAZy family. ''Read up on this industrially interesting '''[[CBM91]]''' family '''[[CBM91|here]]'''.''
 
 
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'''6 August 2020:''' ''A beta-1,3-glucanase family with a deep history:'' '''[[User:Julie Grondin|Julie Grondin's]]''' '''[[Glycoside Hydrolase Family 81]]''' page was [[Curator Approved]] by '''[[User:Al Boraston|Al Boraston]]''' today.  '''[[GH81]]''' has a long history of discovery and mechanistic study, including by original CAZypedian and [https://www.grc.org/carbohydrate-active-enzymes-for-glycan-conversions-conference/default.aspx Cellulase/CAZyme GRC co-founder] '''[[User:David Wilson|David Wilson]]''' and co-workersBy capturing a phenomenal number of oligosaccharide complexes, '''[[User:Al Boraston|Al's]]''' group has recently provided detailed molecular description of how enzymes in this family specifically recognize the helical structure adopted by beta-1,3-glucans. ''Be sure to check out the [[Glycoside Hydrolase Family 81|GH81 page]] to get the full history of the contributions of a number of groups world-wide to our knowledge of this family.''
 
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'''23 July 2020:''' ''Another CE family page from our friends at WLU!'' The '''[[Carbohydrate Esterase Family 7]]''' page was finalized and promoted to [[Curator Approved]] status today.  '''[[User:Joel Weadge|Joel Weadge]]''' and '''[[User:Joel Weadge|Michael Suits]]''' have been leading the completion of a bunch of CE pages with the help of keen students from Wilfred Laurier University (see [[CE3]], [[CE4]], and [[CE9]]).  This time, '''[[User:Emily Rodriguez|Emily Rodriguez]]''' produced the '''[[CE7]]''' page, which encompasses acetyl xylan esterases and cephalosporin-C deacetylases.  ''Learn more about the specificity, mechanism, and three-dimensional structure of CE7 enzymes [[Carbohydrate Esterase Family 7|here]].''
 
 
 
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'''19 June 2020:''' ''Three additional alginate lyase families!'' The number of PL family pages in ''CAZypedia'' continues to grow with the promotion of the '''[[Polysaccharide Lyase Family 6]]''', '''[[Polysaccharide Lyase Family 15]]''', and '''[[Polysaccharide Lyase Family 17]]''' pages to [[Curator Approved]] status today. We thank '''[[User:Emil Stender|Emil G.P. Stender]]''' for his hard work in tackling this trifecta of bacterial alginate lyase families (including some heparin/heparan sulfate lyases from the human gut microbiota in '''[[PL15]]'''), which were vetted [[Responsible Curator]] '''[[User:Birte Svensson|Birte Svensson]]'''.  ''Dig into the details of these families on the '''[[PL6]]''', '''[[PL15]]''', and '''[[PL17]]''' pages, in comparison with the recently completed '''[[PL7]]''' page (see previous news item, below).''
 
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'''17 June 2020:''' ''PLs from the sea.'' The '''[[Polysaccharide Lyase Family 7]]''' page, which was written by '''[[User:Nadine Gerlach|Nadine Gerlach]]''', was promoted to completed by [[Curator Approved]] status today by '''[[User:Jan-Hendrik Hehemann|Jan-Hendrik Hehemann]]'''.  The founding member of '''[[PL7]]''', an alginate lyase, was characterized way back in 1993 by a team notably including CAZypedian [[User:Gurvan Michel|Gurvan Michel]].  Alginate is heteropolysaccharide from brown algae and mucoid bacteria, consisting of beta-{{Smallcaps|d}}-mannuronate (M) and alpha-{{Smallcaps|l}}-guluronate (G) residues in varying ratios and intra-chain distributions, depending on the source.  As a result, '''[[PL7]]''' members exhibit mannuronate, guluronate, or mixed link specificity.  ''Read more about the deep history of enzymolgoy and structural biology of PL7 [[Polysaccharide Lyase Family 7|here]], including seminal work by '''[[User:Jan-Hendrik Hehemann|Jan-Hendrik]]''' showing the horizontal gene transfer of these enzymes into the human gut microbiota and other marine bacteria.''
 
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'''16 June 2020:''' ''From rotting plants to vegetable digestion in the gut.'' The '''[[Polysaccharide Lyase Family 9]]''' page was completed by '''[[User:Ana Luis|Ana Luis]]''' and upgraded to [[Curator Approved]] status today by '''[[User:Wade Abbott|Wade Abbott]]'''. '''[[PL9]]'''  was originally identified and characterized as part of the pectin-degrading machinery from the plant pathogenic bacterium [https://en.wikipedia.org/wiki/Dickeya_dadantii ''Dickeya dadantii''] (''Erwinia chrysanthemi''), including seminal structural work by [[User:Richard Pickersgill|Richard Pickersgill]] and colleagues.  More recently '''[[User:Ana Luis|Ana]]''' and '''[[User:Wade Abbott|Wade]]''', as part of a big team involving other CAZypedians [[User:Jonathon Briggs|Jonathon Briggs]], [[User:Didier Ndeh|Didier Ndeh]], [[User:Alan Cartmell|Alan Cartmell]], [[User:Bernard Henrissat|Bernard Henrissat]], and [[User:Harry Gilbert|Harry Gilbert]], shed new light on the role of '''[[PL9]]''' members in the human gut microbiota. ''Take some time to learn more about the long and rich history of '''[[Polysaccharide Lyase Family 9]]!'''''
 
 
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Latest revision as of 10:50, 3 November 2025

31 October 2025: A spooktacular addition to the CAZypedia family! Come and say 'Boo!' to the frighteningly well written CBM13 CAZypedia page. The CBM13 family is a lectin-like CBM family. Its first characterized members were lectins, including the B chain from the highly toxic ricin toxin from Ricinus communis. This spine tingling read was authored by Scott Mazurkewich and Lauren McKee who also acted as responsible curator. Come and visit the scariest of CAZypedia CBM pages, here!... if you dare...

29 July 2025: CBM91 is in the news! The xylan binding CBM91 family CAZypedia page is up and running. Appended to mainly GH43 xylanases this CBM91 family drives interaction with substrate. The CBM91 page was authored by Daichi Ito who also discovered the initial xylan-binding function which resulted in the creation of the CBM91 CAZy family. Read up on this industrially interesting CBM91 family here.

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