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Difference between revisions of "Template:News"
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+ | '''11 January 2023''' ''CBM44, it's what's in store.'' We begin 2023 right with a curator approved [[CBM44]] page. '''[[User:Marie-Katherin Zuehlke|Marie-Katherin Zühlke]]''' has authored the page on the characterized bacterial [[CBM44]] shown to interact with polymers containing ß-1,4-linked glucose in their chains. Responsible curator [[User:Elizabeth Ficko-Blean|Elizabeth Ficko-Blean]] is pleased as punch. ''Check out the '''[[CBM44]]''' CAZypedia page to learn more about this CBM family!'' | ||
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'''25 November 2021''' ''Something to CRO about!:'' In our latest [[Curator Approved]] page in a while, '''[[User:Maria Cleveland|Maria Cleveland]]''' has written an extensive history of the Copper Radical Oxidases (CROs) that constitute '''[[Auxiliary Activity Family 5]]'''. The archetypal '''[[AA5]]''' CRO is the ''Fusarium graminearum'' galactose oxidase, which was first isolated in the 1950s, provided the first 3-D structure in the 1990s, and has been the subject of numerous mechanistic studies up through the new millennium. '''[[AA5]]''' also contains the glyoxal oxidases, which were discovered in Wisconsin in the late 1980s and form their own subfamily. More recent work by [[User:Maria Cleveland|Maria]], [[User:Yann Mathieu|Yann Mathieu]], and others has shown that a wider range of substrate specificities exists in this family than previously anticipated, while the catalytic flexibility of wild-type and mutant enzymes has spurred numerous biotech applications. ''Slide on over to the '''[[AA5]]''' page, which includes a <u>deep</u> reference list, to learn more about these interesting enzymes!'' | '''25 November 2021''' ''Something to CRO about!:'' In our latest [[Curator Approved]] page in a while, '''[[User:Maria Cleveland|Maria Cleveland]]''' has written an extensive history of the Copper Radical Oxidases (CROs) that constitute '''[[Auxiliary Activity Family 5]]'''. The archetypal '''[[AA5]]''' CRO is the ''Fusarium graminearum'' galactose oxidase, which was first isolated in the 1950s, provided the first 3-D structure in the 1990s, and has been the subject of numerous mechanistic studies up through the new millennium. '''[[AA5]]''' also contains the glyoxal oxidases, which were discovered in Wisconsin in the late 1980s and form their own subfamily. More recent work by [[User:Maria Cleveland|Maria]], [[User:Yann Mathieu|Yann Mathieu]], and others has shown that a wider range of substrate specificities exists in this family than previously anticipated, while the catalytic flexibility of wild-type and mutant enzymes has spurred numerous biotech applications. ''Slide on over to the '''[[AA5]]''' page, which includes a <u>deep</u> reference list, to learn more about these interesting enzymes!'' | ||
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Revision as of 06:52, 11 January 2023
11 January 2023 CBM44, it's what's in store. We begin 2023 right with a curator approved CBM44 page. Marie-Katherin Zühlke has authored the page on the characterized bacterial CBM44 shown to interact with polymers containing ß-1,4-linked glucose in their chains. Responsible curator Elizabeth Ficko-Blean is pleased as punch. Check out the CBM44 CAZypedia page to learn more about this CBM family!
25 November 2021 Something to CRO about!: In our latest Curator Approved page in a while, Maria Cleveland has written an extensive history of the Copper Radical Oxidases (CROs) that constitute Auxiliary Activity Family 5. The archetypal AA5 CRO is the Fusarium graminearum galactose oxidase, which was first isolated in the 1950s, provided the first 3-D structure in the 1990s, and has been the subject of numerous mechanistic studies up through the new millennium. AA5 also contains the glyoxal oxidases, which were discovered in Wisconsin in the late 1980s and form their own subfamily. More recent work by Maria, Yann Mathieu, and others has shown that a wider range of substrate specificities exists in this family than previously anticipated, while the catalytic flexibility of wild-type and mutant enzymes has spurred numerous biotech applications. Slide on over to the AA5 page, which includes a deep reference list, to learn more about these interesting enzymes!
23 June 2021 A free CAZypedia webinar: Check out the presentation on CAZypedia by Senior Curator Elizabeth Ficko-Blean, which was part of a webinar on Recent Advances in Carbohydrate-Active Enzymes organized by Stefan Janecek. Stefan also gave a talk on alpha-amylase bioinformatics, and Nicolas Terrapon gave an overview of the CAZy database in a presentation entitled "Carbohydrate-Active EnZymes Annotation in the High-Throughput Era". More information on the webinar can be found here, and you can watch all three lectures for free on YouTube.
31 May 2021 Celebrating CAZy: The B.A. Stone Award for Excellence in Plant Polysaccharide Biochemistry was awarded to CAZy founder Bernard Henrissat today. CAZy, CAZypedia, and Prof. Bruce Stone have a long, intertwined history, and today we celebrate Bernie's insight to create a sequence-based classification of the Carbohydrate-Active EnZymes, starting with the cellulases.