1 August 2019: Sweet Sixteen:
The Carbohydrate Binding Module Family 16
page in CAZypedia
has been flipped to Curator Approved
today. The page features CBM16
members from two environmental bacteria with very different backgrounds: One bacterium was isolated from a red alga (red seaweed) and its GH16
binds the red algal extracellular matrix polysaccharide carrageenan and influences the processive mechanism of the catalytic module. The other bacterium was isolated from organic waste leachate and deletion of both its CBM16s
from a GH5
mannanase severely impairs binding ability of the catalytic module. The CBM16
page was Authored
by Maria Matard-Mann
with Elizabeth Ficko-Blean
acting as Responsible Curator
. Learn more about these "sweet sixteen" CBMs on the CBM16 page.
21 July 2019: Back to the future: Author James Stevenson and Responsible Curator Joel Weadge completed the Glycoside Hydrolase Family 105 page today, which is related to the recently completed (see below) GH88 page. Like GH88, GH105 comprises hexeuronic acid hydrolases that use a distinct mechanism of glycosidic bond cleavage. You can learn more about these enzymes on the GH105 and GH88 pages. We'd like to especially thank Joel and James for taking the initiative to reach out on their own to offer to produce the GH105 page; this is directly in the spirit of CAZypedia as a community-led, volunteer resource!
17 July 2019: A flashback on unsaturated glucuronyl hydrolases: Back in 2015, Author Seino Jongkees essentially completed the Glycoside Hydrolase Family 88 page, which was finally upgraded to Curator Approved status today. GH88 unsaturated glucuronyl hydrolases use an atypical glycoside hydrolase mechanism that involves the hydration of the double bond between carbons 4 and 5 of the non-reducing terminal sugar of their substrates and subsequent rearrangement. In this way, the activity of GH88 enzymes is dependent on the prior action of Polysaccharide Lyases to produce the required hexenuronic acid terminus. Learn more about these non-canonical enzymes, and their cousins in GH105, on the GH88 page.
15 July 2019: Of carbohydrates, esters, and lignin: Authors Jenny Arnling Bååth and Scott Mazurkewich, together with Responsible Curator Johan Larsbrink finalized CAZypedia's third Carbohydrate Esterase Family page today. Carbohydrate Esterase Family 15 comprises glucuronoyl esterases that utilize a classical serine hydrolase catalytic triad to cleave pendant non-carbohydrate groups from, for example, plant glucuronoxylan (i.e. de-esterification with the sugar as the acid). CE15 members have therefore be suggested to facilitate the breakdown of lignin-carbohydrate complexes (LCC) and are of growing interest for biomass processing. Learn more about these enzymes, including the seminal work of Peter Biely and colleagues, on the CE15 page.
5 June 2019: New and cool beta(1,2)-glucanases of GH162: Today Author Nobukiyo Tanaka and Responsible Curator Masahiro Nakajima completed the Glycoside Hydrolase Family 162 page in CAZypedia. As its high number would imply, GH162 is one of the newest families in the CAZy classification, of which the first example has been elegantly characterized in 2019 by Drs. Tanaka and Nakajima and their colleagues. GH162 is a tiny family of mostly fungal members, which has structural and mechanistic commonality with GH144, and may be distantly related to GH8 (Clan GH-M) and GH15 (Clan GH-L). Learn more about all of these families on their respective pages.
14 May 2019: Starch... it's not over yet: Two new families of starch-binding CBMs, CBM82 and CBM83, have joined the CAZypedia ranks. These CBMs are both found in an enormous multi-modular cell-wall anchored enzyme from a gut bacterium. The pages were both authored by Darrell Cockburn with Nicole Koropatkin acting as responsible curator. Learn more about the new starch-binding CBM82 and CBM83 families on their respective pages.
28 February 2019: CE9 is CE page #2!: Graduate student Alex Anderson has completed CAZypedia's second Carbohydrate Esterase (CE) family page, Carbohydrate Esterase Family 9, which was Curator Approved by his supervisor Michael Suits today. CE9 enzymes are metal-dependent N-acetylglucosamine 6-phosphate deacetylases that function in peptidoglycan recycling in bacteria. CE9 is a huge family, currently comprising over 10,000 members (nearly all are from bacteria), which underscores their biological importance. Alex and Mike completed CAZypedia's first CE family page, CE4 earlier this month, and we thank them for these seminal expansions of of our resource. Learn more about the structure and mechanism of metal-dependent deamidases here: CE9, CE4.
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