Endo-fucoidan hydrolases from glycoside hydrolase family 107 (GH107) display structural and mechanistic similarities to α-l-fucosidases from GH29

Vickers, Chelsea; Liu, Feng; Abe, Kento T.; Salama-Alber, Orly; Jenkins, Meredith L.; Springate, Christopher M. K.; Burke, John E.; Withers, Stephen G.; Boraston, A.B.

doi:10.1074/jbc.ra118.005134

Cited by 43 publications

(62 citation statements)

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“…FunA was incompetent to hydrolyze sulfated fucans from F. vesiculosus , A. nodosum and M. pyrifera ( Supplementary Table S2 ), which were the effective substrates of GH107 enzymes. Currently, the GH107 family is the only reported fucanase GH family, and its enzymes all exhibited endo-1,4-fucanase activity: MfFcnA was specifically active on α-1,4 glycoside bonds in type II sulfated fucans from F. vesiculosus and A. nodosum (the primary structures were shown in Supplementary Figure S2 ; Schultz-Johansen et al, 2018 ); Fp277 and Fp279 could cleave α-1,4 glycoside bonds in A. nodosum ( Schultz-Johansen et al, 2018 ); P5AFcnA and P19DFcnA showed activity on sulfated fucan from M. pyrifera ( Vickers et al, 2018 ), though the primary structure of M. pyrifera was poorly defined. It has not been reported yet whether the current GH107 enzymes could act on α-1,3 glycosidic linkages.…”

Section: Resultsmentioning

confidence: 99%

“…Schultz-Johansen et al, 2018); Fp277 and Fp279 could cleave α-1,4 glycoside bonds in A. nodosum (Schultz-Johansen et al, 2018); P5AFcnA and P19DFcnA showed activity on sulfated fucan from M. pyrifera (Vickers et al, 2018), though the primary structure of M. pyrifera was poorly defined. It has not been reported yet whether the current GH107 enzymes could act on α-1,3 glycosidic linkages.…”

Section: Action Mode Of Funa Revealed By Hpsec-ridmentioning

confidence: 99%

“…Fucanases are desirable tools to identify the structure of sulfated fucans ( Berteau and Mulloy, 2003 ) and establish structure-activity relationships ( Kusaykin et al, 2016 ). To date, a few genes of endo-1,4-fucanases (i.e., enzymes cleaving α-1,4 glycosidic linkages in type II sulfated fucan backbones) have been characterized, including FcnA, FFA1, FFA2, Fp273, Fp277, Fp279, P5AFcnA, and P19DFcnA ( Colin et al, 2006 ; Silchenko et al, 2017 , 2018 ; Schultz-Johansen et al, 2018 ; Vickers et al, 2018 ). All of the reported endo-1,4-fucanases belong to the glycoside hydrolase (GH) 107 family in the CAZy database 1 .…”

Section: Introductionmentioning

confidence: 99%

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Discovery and Characterization of an Endo-1,3-Fucanase From Marine Bacterium Wenyingzhuangia fucanilytica: A Novel Glycoside Hydrolase Family

et al. 2020

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Sulfated fucans are important marine polysaccharides widely distributed in brown algae and echinoderms, which gained increasing research interest for their various biological and biomedical activities. Fucanases could serve as tools in the bioconversion and structural investigation of sulfated fucans. A few gene-defined endo-1,4-fucanases have been characterized, while the sequence of endo-1,3-fucanase remain unstudied. Here, an endo-1,3-fucanase gene funA was screened from the genome of marine bacterium Wenyingzhuangia fucanilytica CZ1127 T using transcriptomics. None of the previously reported glycoside hydrolase domains were predicted in the enzyme FunA, which hydrolyzed sulfated fucans in a random endo-acting manner. Ultrahigh performance size exclusion chromatography-mass spectrometry and nuclear magnetic resonance analyses revealed that FunA specifically cleaves α-1,3 glycosidic linkage between 2-O-sulfated and non-sulfated fucose residues. FunA exhibited transglycosylating activity with glycerin, methanol, and L-fucose as acceptors. D206 and E264 were critical for the functioning of FunA as identified by the site-directed mutagenesis. Another five homologs of FunA were confirmed to possess endo-1,3-fucanase activities. This is the first report on the sequence of endo-1,3-fucanase. The novelty of FunA and its homologs in sequences and activity shed light on a novel glycoside hydrolase family, GH168.

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Section: Resultsmentioning

confidence: 99%

Section: Action Mode Of Funa Revealed By Hpsec-ridmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Discovery and Characterization of an Endo-1,3-Fucanase From Marine Bacterium Wenyingzhuangia fucanilytica: A Novel Glycoside Hydrolase Family

et al. 2020

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“…105 Recently, fucoidanases from marine Proteobacteria that are able to degrade brown algae have gained increasingly attention due to the beneficial biomedical properties of fucoidan derived oligosaccharides. 106,107 Heterologous expression has been a powerful tool to identify novel gene functions, but it becomes more cumbersome when gene fragments exceed 10 kb. 25 However, most biosynthetic pathways involve dozens of proteins that catalyze and regulate the production of secondary metabolites and thus are often larger than 10 kb and some may even exceed 100 kb.…”

Section: Heterologous Expression Of Bgcs From Marine Proteobacteriamentioning

confidence: 99%

Marine Proteobacteria as a source of natural products: advances in molecular tools and strategies

et al. 2019

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“…KDH14 isolated from abalone intestine is a novel species that possesses a gene cluster encoding putative l -fucose transporter (FucT), l -fucose mutarotase (FucU), l -fucose isomerase (FucI), l -fuculokinase (FucK), and l -fucose operon activator (FucR), indicating its potential involvement in l -fucose metabolism. Abalone feeds on brown seaweeds containing fucoidan and is a good source of fucoidan-degrading enzymes, which can degrade the polymeric fucoidan into its monomeric l -fucose [25–27]. In this study, Raoultella sp.…”

Section: Discussionmentioning

confidence: 99%

Enzymatic synthesis of l-fucose from l-fuculose using a fucose isomerase from Raoultella sp. and the biochemical and structural analyses of the enzyme

Kim

Nam

et al. 2019

Biotechnol Biofuels

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Backgroundl-Fucose is a rare sugar with potential uses in the pharmaceutical, cosmetic, and food industries. The enzymatic approach using l-fucose isomerase, which interconverts l-fucose and l-fuculose, can be an efficient way of producing l-fucose for industrial applications. Here, we performed biochemical and structural analyses of l-fucose isomerase identified from a novel species of Raoultella (RdFucI).ResultsRdFucI exhibited higher enzymatic activity for l-fuculose than for l-fucose, and the rate for the reverse reaction of converting l-fuculose to l-fucose was higher than that for the forward reaction of converting l-fucose to l-fuculose. In the equilibrium mixture, a much higher proportion of l-fucose (~ ninefold) was achieved at 30 °C and pH 7, indicating that the enzyme-catalyzed reaction favors the formation of l-fucose from l-fuculose. When biochemical analysis was conducted using l-fuculose as the substrate, the optimal conditions for RdFucI activity were determined to be 40 °C and pH 10. However, the equilibrium composition was not affected by reaction temperature in the range of 30 to 50 °C. Furthermore, RdFucI was found to be a metalloenzyme requiring Mn2+ as a cofactor. The comparative crystal structural analysis of RdFucI revealed the distinct conformation of α7–α8 loop of RdFucI. The loop is present at the entry of the substrate binding pocket and may affect the catalytic activity.ConclusionsRdFucI-catalyzed isomerization favored the reaction from l-fuculose to l-fucose. The biochemical and structural data of RdFucI will be helpful for the better understanding of the molecular mechanism of l-FucIs and the industrial production of l-fucose.

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Endo-fucoidan hydrolases from glycoside hydrolase family 107 (GH107) display structural and mechanistic similarities to α-l-fucosidases from GH29

Cited by 43 publications

References 54 publications

Discovery and Characterization of an Endo-1,3-Fucanase From Marine Bacterium Wenyingzhuangia fucanilytica: A Novel Glycoside Hydrolase Family

Discovery and Characterization of an Endo-1,3-Fucanase From Marine Bacterium Wenyingzhuangia fucanilytica: A Novel Glycoside Hydrolase Family

Marine Proteobacteria as a source of natural products: advances in molecular tools and strategies

Enzymatic synthesis of l-fucose from l-fuculose using a fucose isomerase from Raoultella sp. and the biochemical and structural analyses of the enzyme

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