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'''2 December 2020:''' ''It's a bird, it's a plane, it's [[CBM14]]!'' From start to finish in superhero time, the lectin-containing chitin-binding [[CBM14]] page is up and running thanks to the heroic efforts of author [[User:Eva Madland|Eva Madland]].  [[User:Elizabeth Ficko-Blean|Elizabeth Ficko-Blean]] acted as responsible curator for the [[CBM14]] page.  [[CBM14|This]] CBM family continues to blur the lines betweeen CBMs and lectins and even type A, B and C CBMs. Find out more on these interesting chitin-binding CBMs [[CBM14|here]].
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'''1 December 2020:'''  ''YANCEFP! (<u>Y</u>et <u>A</u>nother <u>N</u>ew <u>C</u>arbohydrate <u>E</u>sterase <u>F</u>amily <u>P</u>age, from our friends at WLU!'') Following on a string of CE pages completed by students at Wilfred Laurier University (see [[CE3]], [[CE4]], [[CE7]] and [[CE9]]), today '''[[User:Bobby Lamont|Bobby Lamont]]''' finalized the  '''[[Carbohydrate Esterase Family 2]]''' under the guidance of '''[[User:Joel Weadge|Prof. Joel Weadge]]''' and '''[[User:Anthony Clarke|Prof. Anthony Clarke]]'''.  '''[[CE2]]''' contains carbohydrate de-''O''-acetylases with diverse regiospecifcity, which use a catalytic dyad to perform hydrolysis.  ''This family has a long and rich history of mechanistic and structural study, dating back to the last millennium, which you can learn much more about [[Carbohydrate Esterase Family 2|on Bobby's detailed page]].''
 
'''1 December 2020:'''  ''YANCEFP! (<u>Y</u>et <u>A</u>nother <u>N</u>ew <u>C</u>arbohydrate <u>E</u>sterase <u>F</u>amily <u>P</u>age, from our friends at WLU!'') Following on a string of CE pages completed by students at Wilfred Laurier University (see [[CE3]], [[CE4]], [[CE7]] and [[CE9]]), today '''[[User:Bobby Lamont|Bobby Lamont]]''' finalized the  '''[[Carbohydrate Esterase Family 2]]''' under the guidance of '''[[User:Joel Weadge|Prof. Joel Weadge]]''' and '''[[User:Anthony Clarke|Prof. Anthony Clarke]]'''.  '''[[CE2]]''' contains carbohydrate de-''O''-acetylases with diverse regiospecifcity, which use a catalytic dyad to perform hydrolysis.  ''This family has a long and rich history of mechanistic and structural study, dating back to the last millennium, which you can learn much more about [[Carbohydrate Esterase Family 2|on Bobby's detailed page]].''
 
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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 by '''[[User:Mario Murakami|Mario Murakami]]''' today.  '''[[GH128]]''' was originally created following the discovery of this family by '''[[User:Yuichi Sakamoto|Yuichi Sakamoto]]''' and colleagues, who characterized the archetypal beta-1,3-glucanase from the  shiitake mushroom.  This year, 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 '''[[GH128]]'''.  ''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]].''
 
'''29 September 2020:''' ''Back to the future with beta-1,3-glucanases:'' The '''[[Glycoside Hydrolase Family 128]]''' page was promoted to [[Curator Approved]] status by '''[[User:Mario Murakami|Mario Murakami]]''' today.  '''[[GH128]]''' was originally created following the discovery of this family by '''[[User:Yuichi Sakamoto|Yuichi Sakamoto]]''' and colleagues, who characterized the archetypal beta-1,3-glucanase from the  shiitake mushroom.  This year, 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 '''[[GH128]]'''.  ''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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Revision as of 01:36, 8 December 2020

2 December 2020: It's a bird, it's a plane, it's CBM14! From start to finish in superhero time, the lectin-containing chitin-binding CBM14 page is up and running thanks to the heroic efforts of author Eva Madland. Elizabeth Ficko-Blean acted as responsible curator for the CBM14 page. This CBM family continues to blur the lines betweeen CBMs and lectins and even type A, B and C CBMs. Find out more on these interesting chitin-binding CBMs here.


1 December 2020: YANCEFP! (Yet Another New Carbohydrate Esterase Family Page, from our friends at WLU!) Following on a string of CE pages completed by students at Wilfred Laurier University (see CE3, CE4, CE7 and CE9), today Bobby Lamont finalized the Carbohydrate Esterase Family 2 under the guidance of Prof. Joel Weadge and Prof. Anthony Clarke. CE2 contains carbohydrate de-O-acetylases with diverse regiospecifcity, which use a catalytic dyad to perform hydrolysis. This family has a long and rich history of mechanistic and structural study, dating back to the last millennium, which you can learn much more about on Bobby's detailed page.


29 September 2020: Back to the future with beta-1,3-glucanases: The Glycoside Hydrolase Family 128 page was promoted to Curator Approved status by Mario Murakami today. GH128 was originally created following the discovery of this family by Yuichi Sakamoto and colleagues, who characterized the archetypal beta-1,3-glucanase from the shiitake mushroom. This year, a team led by Mario Murakami, including first-author Camila Santos, presented a sweeping first mechanistic and structural study of GH128. We're grateful to Camila and Mario for elaborating upon Yuichi's original CAZypedia page, which you can read here. You can also compare GH128 with other distinct beta-1,3-glucanase families covered in CAZypedia, e.g. GH17, GH81, GH148, and GH158.