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'''2 May 2018:''' The [[CBM65]] page has been added to the CBM CAZypedia fold. This is a small CAZy family with  two currently characterized members from an anaerobic cellulolytic ruminal bacterium.  The two [[CBM65]] members bind various beta-glucans and play an important role in enhancing enzymatic activity on substrate. The page was authored by '''[[User:Ana Luis|Ana Luis]]''' and '''[[User:Harry Gilbert|Harry Gilbert]]''' acted as responsible curator. ''Learn more about this CBM family [[CBM65|here]].''
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'''4 May 2018:''' ''CAZypedia's first non-LPMO Auxiliary Activity Family page.''  Today [[Responsible Curator]] '''[[User:Roland Ludwig|Roland Ludwig]]''' [[Curator Approved|approved]] his and '''[[User:Daniel Kracher|Daniel Kracher's]]''' expansive '''[[Auxiliary Activity Family 3]]''' page. '''[[AA3]]''' comprises a number of FAD-dependent redox enzymes including cellobiose dehydrogenase, aryl alcohol oxidase/dehydrogenases, glucose oxidases and glucose dehydrogenases, pyranose dehydrogenase, alcohol oxidase, and pyranose oxidase across four subfamilies. '''''[[User:Roland Ludwig|Roland]]''' and '''[[User:Daniel Kracher|Daniel]]''' have done a monumental job in succinctly capturing the diversity of this family, which you can read about [[AA3|here]].''
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'''2 May 2018:''' ''The [[CBM65]] page has been added to the CAZypedia fold.'' This is a small CAZy family with  two currently characterized members from an anaerobic cellulolytic ruminal bacterium.  The two [[CBM65]] members bind various beta-glucans and play an important role in enhancing enzymatic activity on substrate. The page was authored by '''[[User:Ana Luis|Ana Luis]]''' and '''[[User:Harry Gilbert|Harry Gilbert]]''' acted as responsible curator. ''Learn more about this CBM family [[CBM65|here]].''
 
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'''1 March 2018:''' The shortest month of the year saw four '''[[CBM]]''' families reach '''[[Curator Approved]]''' status, including two early members.  '''[[User:Harry Gilbert|Harry Gilbert]]''' with input from '''[[User:Ed Bayer|Ed Bayer]]''', who also acted as '''[[Responsible Curator]]''', authored the cellulose-binding '''[[CBM3]]''' page.  '''[[User:Harry Gilbert|Harry Gilbert]]''' and '''[[User:Claire Dumon|Claire Dumon]]''' both contributed to the xylan and glucan-binding '''[[CBM4]]''' page.  The xylan-binding '''[[CBM22]]''' page was taken on by '''[[User:Harry Gilbert|Harry Gilbert]]''' solo.  Finally, the cellulose-binding '''[[CBM78]]''' family was authored by '''[[User:Immacolata Venditto|Immacolata Venditto]]''', with '''[[User:Harry Gilbert|Harry Gilbert]]''' acting as '''[[Responsible Curator]]'''.  ''Learn more about each of these families on [[Carbohydrate Binding Module Families|their respective pages]].''
 
'''1 March 2018:''' The shortest month of the year saw four '''[[CBM]]''' families reach '''[[Curator Approved]]''' status, including two early members.  '''[[User:Harry Gilbert|Harry Gilbert]]''' with input from '''[[User:Ed Bayer|Ed Bayer]]''', who also acted as '''[[Responsible Curator]]''', authored the cellulose-binding '''[[CBM3]]''' page.  '''[[User:Harry Gilbert|Harry Gilbert]]''' and '''[[User:Claire Dumon|Claire Dumon]]''' both contributed to the xylan and glucan-binding '''[[CBM4]]''' page.  The xylan-binding '''[[CBM22]]''' page was taken on by '''[[User:Harry Gilbert|Harry Gilbert]]''' solo.  Finally, the cellulose-binding '''[[CBM78]]''' family was authored by '''[[User:Immacolata Venditto|Immacolata Venditto]]''', with '''[[User:Harry Gilbert|Harry Gilbert]]''' acting as '''[[Responsible Curator]]'''.  ''Learn more about each of these families on [[Carbohydrate Binding Module Families|their respective pages]].''
 
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'''13 February 2018:''' ''The intricacies of pectin deconstruction:'' Rhamnogalacturonan II (RGII) represents the most structurally complex plant cell wall polysaccharide currently known, the complete saccharification of which requires a battery of CAZymes.  Under the guidance of [[Responsible Curator]] '''[[User:Harry Gilbert|Harry Gilbert]]''', four new GH pages related to RGII deconstruction were [[Curator Approved]] today. Special thanks go to [[Author]]s '''[[User:Ana Luis|Ana Luis]]''' ('''[[GH106]]''', '''[[GH139]]''', and '''[[GH141]]''') and '''[[User:Didier Ndeh|Didier Ndeh]]''' ('''[[GH138]]''') for their hard work in putting these pages together. ''Learn more about the individual, specific contributions of each of these families (three of which have been recently uncovered) to microbial RGII utilization on their respective pages.''
 
'''13 February 2018:''' ''The intricacies of pectin deconstruction:'' Rhamnogalacturonan II (RGII) represents the most structurally complex plant cell wall polysaccharide currently known, the complete saccharification of which requires a battery of CAZymes.  Under the guidance of [[Responsible Curator]] '''[[User:Harry Gilbert|Harry Gilbert]]''', four new GH pages related to RGII deconstruction were [[Curator Approved]] today. Special thanks go to [[Author]]s '''[[User:Ana Luis|Ana Luis]]''' ('''[[GH106]]''', '''[[GH139]]''', and '''[[GH141]]''') and '''[[User:Didier Ndeh|Didier Ndeh]]''' ('''[[GH138]]''') for their hard work in putting these pages together. ''Learn more about the individual, specific contributions of each of these families (three of which have been recently uncovered) to microbial RGII utilization on their respective pages.''
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'''31 January 2018:''' ''A flurry of CBM activity in the new year:'' Over the past two weeks, ''CAZypedia'' has enjoyed the promotion of no less than ''nine(!)''  [[Carbohydrate-binding modules|Carbohydrate-binding module (CBM)]] family pages to [[Curator Approved]] status, thanks to the tenacity of [[CBM]] vanguard '''[[User:Harry Gilbert|Harry Gilbert]]''' and the keen editorial oversight of '''[[User:Elizabeth Ficko-Blean|Elizabeth Ficko-Blean]]'''. [[CAZypedia:Assigned_pages#Carbohydrate_Binding_Module_Families|In order of appearance]], '''[[CBM2]]''', '''[[CBM10]]''', '''[[CBM15]]''', '''[[CBM29]]''', '''[[CBM66]]''', '''[[CBM60]]''' (co-authored by '''[[User:Cedric Montanier|Cedric Montanier]]'''), '''[[CBM46]]''', and '''[[CBM35]]''' all have completed pages, as does the deleted family '''[[CBM7]]'''. These pages cover many classic CBM studies and include examples of [[Carbohydrate-binding modules#Types|type A, type B, and type C CBMs]].      ''The CBM legacy runs deep - learn more about each family on [[Carbohydrate Binding Module Families|their respective pages]].''
 
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'''26 November 2017:''' ''CBM #1:'' Today, [[Carbohydrate-binding modules|CBM]] pioneer '''[[User:Markus Linder|Markus Linder]]''' completed the '''[[Carbohydrate Binding Module Family 1]]''' page.  [[CBM1]] comprises the canonical fungal cellulose-binding modules (originally known as cellulose-binding ''domains''), which were first found as stable cystine-knot-containing protein fragments released by controlled proteolysis of cellulases.  The planar nature of the substrate-binding face, and linear arrangement of key aromatic residues, represent the archetype of [[Carbohydrate-binding modules|CBMs]] that mediate glycosidase targeting to crystalline polysaccharides.  Building on the original discovery of the modules now classified into [[CBM1]] in Sweden, '''[[User:Markus Linder|Markus Linder]]''' (then a Ph.D. student) and Tuula Teeri, working together across the Baltic Sea in Finland, were among the first to undertake structure-function studies and protein engineering of [[CBM1]] using modern molecular techniques in the mid- to late-1990s.  ''We're pleased to finally have this one in CAZYpedia - learn more about this seminal CBM family [[CBM1|here]].''
 
 
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Revision as of 12:12, 7 May 2018

4 May 2018: CAZypedia's first non-LPMO Auxiliary Activity Family page. Today Responsible Curator Roland Ludwig approved his and Daniel Kracher's expansive Auxiliary Activity Family 3 page. AA3 comprises a number of FAD-dependent redox enzymes including cellobiose dehydrogenase, aryl alcohol oxidase/dehydrogenases, glucose oxidases and glucose dehydrogenases, pyranose dehydrogenase, alcohol oxidase, and pyranose oxidase across four subfamilies. Roland and Daniel have done a monumental job in succinctly capturing the diversity of this family, which you can read about here.


2 May 2018: The CBM65 page has been added to the CAZypedia fold. This is a small CAZy family with two currently characterized members from an anaerobic cellulolytic ruminal bacterium. The two CBM65 members bind various beta-glucans and play an important role in enhancing enzymatic activity on substrate. The page was authored by Ana Luis and Harry Gilbert acted as responsible curator. Learn more about this CBM family here.


1 March 2018: The shortest month of the year saw four CBM families reach Curator Approved status, including two early members. Harry Gilbert with input from Ed Bayer, who also acted as Responsible Curator, authored the cellulose-binding CBM3 page. Harry Gilbert and Claire Dumon both contributed to the xylan and glucan-binding CBM4 page. The xylan-binding CBM22 page was taken on by Harry Gilbert solo. Finally, the cellulose-binding CBM78 family was authored by Immacolata Venditto, with Harry Gilbert acting as Responsible Curator. Learn more about each of these families on their respective pages.


15 February 2018: More on pectin, and also arabinan: Jonathon Briggs recently completed the Glycoside Hydrolase Family 147 and Glycoside Hydrolase Family 146 pages, which are involved in the utilization of pectin and galactan, respectively, by human gut Bacteroidetes. Both pages were upgraded to Curator Approved status today by Responsible Curator Harry Gilbert. Learn more about these newly described families at GH146 and GH147.


13 February 2018: The intricacies of pectin deconstruction: Rhamnogalacturonan II (RGII) represents the most structurally complex plant cell wall polysaccharide currently known, the complete saccharification of which requires a battery of CAZymes. Under the guidance of Responsible Curator Harry Gilbert, four new GH pages related to RGII deconstruction were Curator Approved today. Special thanks go to Authors Ana Luis (GH106, GH139, and GH141) and Didier Ndeh (GH138) for their hard work in putting these pages together. Learn more about the individual, specific contributions of each of these families (three of which have been recently uncovered) to microbial RGII utilization on their respective pages.