Yuji Hatada scite author profile

An agar-degrading Thalassomonas bacterium, strain JAMB-A33, was isolated from the sediment off Noma Point, Japan, at a depth of 230 m. A novel alpha-agarase from the isolate was purified to homogeneity from cultures containing agar as a carbon source. The molecular mass of the purified enzyme, designated as agaraseA33, was 85 kDa on both SDS-PAGE and gel-filtration chromatography, suggesting that it is a monomer. The optimal pH and temperature for activity were about 8.5 and 45 degrees C, respectively. The enzyme had a specific activity of 40.7 U/mg protein. The pattern of agarose hydrolysis showed that the enzyme is an endo-type alpha-agarase, and the final main product was agarotetraose. The enzyme degraded not only agarose but also agarohexaose, neoagarohexaose, and porphyran.

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Alkaline detergent enzymes from alkaliphiles: enzymatic properties, genetics, and structures

Ito

et al. 1998

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The cleaning power of detergents seems to have peaked; all detergents contain similar ingredients and are based on similar detergency mechanisms. To improve detergency, modern types of heavy-duty powder detergents and automatic dishwasher detergents usually contain one or more enzymes, such as protease, amylase, cellulase, and lipase. Alkaliphilic Bacillus strains are often good sources of alkaline extracellular enzymes, the properties of which fulfil the essential requirements for enzymes to be used in detergents. We have isolated numbers of alkaliphilic Bacillus that produce such alkaline detergent enzymes, including cellulase (CMCase), protease, alpha-amylase, and debranching enzymes, and have succeeded in large-scale industrial production of some of these enzymes. Here, we describe the enzymatic properties, genetics, and structures of the detergent enzymes that we have developed.

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Combination of six enzymes of a marine Novosphingobium converts the stereoisomers of β-O-4 lignin model dimers into the respective monomers

Ohta

Nishi

Hasegawa

et al. 2015

Sci Rep

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Lignin, an aromatic polymer of phenylpropane units joined predominantly by β-O-4 linkages, is the second most abundant biomass component on Earth. Despite the continuous discharge of terrestrially produced lignin into marine environments, few studies have examined lignin degradation by marine microorganisms. Here, we screened marine isolates for β-O-4 cleavage activity and determined the genes responsible for this enzymatic activity in one positive isolate. Novosphingobium sp. strain MBES04 converted all four stereoisomers of guaiacylglycerol-β-guaiacyl ether (GGGE), a structural mimic of lignin, to guaiacylhydroxypropanone as an end metabolite in three steps involving six enzymes, including a newly identified Nu-class glutathione-S-transferase (GST). In silico searches of the strain MBES04 genome revealed that four GGGE-metabolizing GST genes were arranged in a cluster. Transcriptome analysis demonstrated that the lignin model compounds GGGE and (2-methoxyphenoxy)hydroxypropiovanillone (MPHPV) enhanced the expression of genes in involved in energy metabolism, including aromatic-monomer assimilation, and evoked defense responses typically expressed upon exposure to toxic compounds. The findings from this study provide insight into previously unidentified bacterial enzymatic systems and the physiological acclimation of microbes associated with the biological transformation of lignin-containing materials in marine environments.

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Cloning, expression, and characterization of a glycoside hydrolase family 86 ?-agarase from a deep-sea Microbulbifer-like isolate

Ohta

Hatada

Nogi

et al. 2004

Appl Microbiol Biotechnol

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The gene for a novel beta-agarase from a deep-sea Microbulbifer-like isolate was cloned and sequenced. It encoded a mature protein of 126,921 Da (1146 amino acids), which was a modular protein including two tandem carbohydrate-binding module (CBM)-like sequences and a catalytic module. The catalytic module resembled a glycoside hydrolase family 86 beta-agarase, AgrA, from Pseudoalteromonas atlantica T6c with 31% amino acid identity. Its recombinant agarase was hyper-produced extracellularly using Bacillus subtilis as the host and purified to homogeneity. The activity and stability were strongly enhanced by CaCl2. The maximal enzyme activity was observed at 45 degrees C and pH 7.5 in the presence of 10 mM CaCl2. The enzyme was an endo-type beta-agarase and degraded agarose and agarose oligosaccharides more polymerized than hexamers to yield neoagarohexaose as the main product. This is the first glycoside hydrolase family 86 enzyme to be homogeneously purified and characterized.

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Yuji Hatada

Fungal diversity in deep-sea sediments – the presence of novel fungal groups

Purification and Characterization of a Novel α-Agarase from a Thalassomonas sp.

Alkaline detergent enzymes from alkaliphiles: enzymatic properties, genetics, and structures

Combination of six enzymes of a marine Novosphingobium converts the stereoisomers of β-O-4 lignin model dimers into the respective monomers

Cloning, expression, and characterization of a glycoside hydrolase family 86 ?-agarase from a deep-sea Microbulbifer-like isolate

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