CAZypedia needs your help! We have many unassigned GH, PL, CE, AA, GT, and CBM pages in need of Authors and Responsible Curators.
Scientists at all career stages, including students, are welcome to contribute to CAZypedia. Read more here, and in the 10th anniversary article in Glycobiology.
New to the CAZy classification? Read this first.
*
Consider attending the 15th Carbohydrate Bioengineering Meeting in Ghent, 5-8 May 2024.

Difference between revisions of "Template:News"

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'''4 January 2024:''' ''More "Fun" from the sea.'' Today, '''[[User:Yaoguang Chang|Yaoguang Chang]]''' [[Curator Approved]] the '''[[Glycoside Hydrolase Family 187]]''' page [[Author]]ed by '''[[User:Jingjing Shen|Jingjing Shen]]'''. The founding member of '''[[GH187]]''' is the alpha-1,3-L-fucanase ("Fun187A") the marine bacterium ''Wenyingzhuangia aestuarii'', which recognizes a specific sulfated motif in seaweed fucans.  '''[[GH187]]''' is a small family (<50 members) and there remains much to elucidate regarding catalytic mechanism and enzyme structure. Interest in CAZymes active on marine biomass continues to grow, and we welcome this expansion in ''CAZypedia''. ''Learn more about '''[[GH187|GH187 here!]]'''''
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'''2 May 2024:''' ''CBDs I to X... A major milestone!'' '''CBM families 1 to 10 are now complete!''' These are the old CBD (cellulose-binding domain) families, which used to have roman numerals as part of their nomenclature. A special thank you to all the authors and responsible curators who have contributed to this major milestone. Go have a peek at each of these old school families on their respective ''CAZypedia'' pages: '''[[CBM1]], [[CBM2]], [[CBM3]], [[CBM4]], [[CBM5]], [[CBM6]], [[CBM7]], [[CBM8]], [[CBM9]], and [[CBM10]]'''.
 
 
 
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'''17 December 2023:''' ''Redox-assisted glycoside hydrolysis.'' Just before the turn of the new year, '''[[User:Spencer Williams|Spencer Williams]]''' completed the '''[[Glycoside Hydrolase Family 188]]''' page. '''[[GH188]]''' is the latest representative of a growing number of [[Glycoside hydrolases|Glycoside Hydrolase]] families, including [[GH4]], [[GH109]], [[GH177]], and [[GH179]], which use an [[NAD-dependent hydrolysis|NAD-dependent]] oxidation-elimination-addition-reduction cycle to cleave glycosidic bonds. First established ca. 20 years ago in [[GH4]], [[NAD-dependent hydrolysis|this mechanism]] is therefore distinct from the [[Glycoside_hydrolases#Mechanism|canonical Koshland mechanisms]] of glycoside hydrolysis. Notably, because oxidation occurs at C-3 of the sugar ring, followed by elimination at C-1, these enzymes can cleave both alpha- and beta-glycosides! Recently, [[User:Spencer Williams|Spencer]], [[User:Ethan Goddard-Borger|Ethan Goddard-Borger]], and [[User:Gideon Davies|Gideon Davies]] showed that [[NAD-dependent hydrolysis]] also extends to sulfoquinovoside hydrolysis by bacterial '''[[GH188]]''' members, complementing canonical sulfoquinovosidases in [[GH31]]. ''Read more about these remarkable enzymes '''[[GH188|here!]]'''''  
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'''11 February 2024:''' ''A "BLAST" from the past, with a fresh update.'' [[Author]] '''[[User:Eduardo Moreno Prieto|Eduardo Moreno Prieto]]''' composed a new page on '''[[Glycoside Hydrolase Family 119]]''',a family of bacterial amylases, which was [[Curator Approved]] by '''[[User:Stefan Janecek|Stefan Janecek]]''' and '''[[User:Bernard Henrissat|Bernard Henrissat]]''' today.  The first member of '''[[GH119]]''' was characterized in 2006, and through sequence analysis with [[GH57]] members, [[User:Stefan Janecek|Janeček]] and Kuchtová predicted the active-site residues in 2012. Over a decade later, '''[[User:Eduardo Moreno Prieto|Eduardo]]''', '''[[User:Bernard Henrissat|Bernard]]''', and colleagues finally provided critical experimental support for these predictions.  ''Learn more about this history, and especially the relationship between '''[[GH119]]''' and '''[[GH57]]''', in CAZypedia.''
 
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'''16 August 2023:''' ''An oldie but a goodie.'' The page for '''[[CBM9]]''', one of the original founding top 10 [[Carbohydrate Binding Module Families]], has been completed by '''[[User:Johan Larsbrink|Johan Larsbrink]]''', who multitasked as both [[Author]] and [[Responsible Curator]]. '''[[CBM9]]''' members are often found in ultra-multimodular, xylan deconstructing, bacterial enzymes, and their cellulose-binding functionality has been exploited as affinity tags in recombinant protein purifications. ''Read more on this historically important [[Carbohydrate-binding modules|CBM]] family '''[[CBM9|here]]'''!''
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'''3 February 2024:''' ''A new family of beta-1,2-glucan-cyclizing enzymes.'' A page on the (currently) newest GH family, '''[[Glycoside Hydrolase Family 189]]''', was completed today by [[Author]]s '''[[User:Tomoko Masaike|Tomoko Masaike]]''', '''[[User:Masahiro Nakajima|Masahiro Nakajima]]''', and '''[[User:Nobukiyo Tanaka|Nobukiyo Tanaka]]''' ([[User:Masahiro Nakajima|Masahiro Nakajima]] is the [[Responsible Curator]]). '''[[GH189]]''' is a family of bacterial transglycosylases that comprise a critical domain in cyclic beta-1,2-glucan synthase (CGS), because this domain is responsible for the final cyclization step during the biosynthesis of these key effector moleculesThe discovery of '''[[GH189]]''' builds on similarly exciting work by these authors and their colleagues on beta-1,2-glucan hydrolases in [[GH144]] and [[GH162]], which share a common protein fold with '''[[GH189]]''', but have distinct mechansims. ''Check out the '''[[GH189]]''', [[GH144]], and [[GH162]] pages to learn more about this breakthrough work on beta-1,2-glucan-active enzymes!''
 
 
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'''25 June 2023:''' ''Another one from the [https://en.wikipedia.org/wiki/Capybara capybara gut].'' We're pleased to announce that the '''[[Glycoside Hydrolase Family 173]]''' page, written by [[Author]]s '''[[User:Clelton Santos|Clelton Aparecido dos Santos]]''' and '''[[User:Gabriela Persinoti|Gabriela Felix Persinoti]]''' was [[Curator Approved]] by '''[[User:Mario Murakami|Mario Murakami]]''' today.  This new family of beta-galactosidases was created through the same study of the capybara gut metagenome by the [[User:Mario Murakami|Murakami group]]  that led to the creation of family [[CBM89]] (''see the June 22nd [[News]] item'').  '''[[GH173]]''' appears to be distantly related to [[GH5]] and [[GH30]] in [[Clan]] GH-A, yet there remain many unknowns about this family and its founding member - ''read more  [[GH173|here]]!''
 
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'''23 June 2023:''' ''Human milk oligosaccharide metabolism.'' [[Author]] '''[[User:Chihaya Yamada|Chihaya Yamada]]''' and [[Responsible Curator]] '''[[User:Shinya Fushinobu|Shinya Fushinobu]]''' upgraded the '''[[Glycoside Hydrolase Family 136]]''' page to [[Curator Approved]] status today. '''[[GH136]]''' is a family of bacterial lacto-''N''-biosidases that release lacto-''N''-biose I and lactose from lacto-N-tetraose, the main component of human milk oligosaccharidesThese enzymes have a comparatively rare right-handed beta helix fold that more typical of pectin-active [[PL]]s and [[GH]]s. ''Read more about these interesting enzymes and their role in the human gut microbiota [[GH136|here]]!''
 
 
 
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'''22 June 2023:''' ''These [[CBM]]s are sizeable!'' The recently discovered xylan-binding '''[[CBM89]]''' family, originating from the capybara gut microbiota, is described by [[Author]]s '''[[User:Mariana Morais|Mariana Abrahão Bueno de Morais]]''' and '''[[User:Gabriela Persinoti|Gabriela Felix Persinoti]]'''. '''[[User:Mario Murakami|Mario Murakami]]''' acted as  [[Responsible Curator]] on the [[CBM89|page]].  '''[[CBM89]]''' members are 600 - 1000 amino acids long which puts them in the upper echelons of CBM sizes - just as the capybara is to the rodent order.  You can check out the write up on these unusually large CBMs on their '''[[CBM89]] ''[[CBM89|CAZypedia]]'' [[CBM89|page]]'''.
 
 
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Latest revision as of 08:08, 2 May 2024

2 May 2024: CBDs I to X... A major milestone! CBM families 1 to 10 are now complete! These are the old CBD (cellulose-binding domain) families, which used to have roman numerals as part of their nomenclature. A special thank you to all the authors and responsible curators who have contributed to this major milestone. Go have a peek at each of these old school families on their respective CAZypedia pages: CBM1, CBM2, CBM3, CBM4, CBM5, CBM6, CBM7, CBM8, CBM9, and CBM10.

11 February 2024: A "BLAST" from the past, with a fresh update. Author Eduardo Moreno Prieto composed a new page on Glycoside Hydrolase Family 119,a family of bacterial amylases, which was Curator Approved by Stefan Janecek and Bernard Henrissat today. The first member of GH119 was characterized in 2006, and through sequence analysis with GH57 members, Janeček and Kuchtová predicted the active-site residues in 2012. Over a decade later, Eduardo, Bernard, and colleagues finally provided critical experimental support for these predictions. Learn more about this history, and especially the relationship between GH119 and GH57, in CAZypedia.

3 February 2024: A new family of beta-1,2-glucan-cyclizing enzymes. A page on the (currently) newest GH family, Glycoside Hydrolase Family 189, was completed today by Authors Tomoko Masaike, Masahiro Nakajima, and Nobukiyo Tanaka (Masahiro Nakajima is the Responsible Curator). GH189 is a family of bacterial transglycosylases that comprise a critical domain in cyclic beta-1,2-glucan synthase (CGS), because this domain is responsible for the final cyclization step during the biosynthesis of these key effector molecules. The discovery of GH189 builds on similarly exciting work by these authors and their colleagues on beta-1,2-glucan hydrolases in GH144 and GH162, which share a common protein fold with GH189, but have distinct mechansims. Check out the GH189, GH144, and GH162 pages to learn more about this breakthrough work on beta-1,2-glucan-active enzymes!

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