Maud Delsaute scite author profile

Maud Delsaute

5Publications

72Citation Statements Received

274Citation Statements Given

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University of Liège

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Insights into bacterial cellulose biosynthesis by functional metagenomics on Antarctic soil samples

Berlemont

Delsaute

Pipers

et al. 2009

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In this study, the mining of an Antarctic soil sample by functional metagenomics allowed the isolation of a cold-adapted protein (RBcel1) that hydrolyzes only carboxymethyl cellulose. The new enzyme is related to family 5 of the glycosyl hydrolase (GH5) protein from Pseudomonas stutzeri (Pst_2494) and does not possess a carbohydrate-binding domain. The protein was produced and purified to homogeneity. RBcel1 displayed an endoglucanase activity, producing cellobiose and cellotriose, using carboxymethyl cellulose as a substrate. Moreover, the study of pH and the thermal dependence of the hydrolytic activity shows that RBcel1 was active from pH 6 to pH 9 and remained significantly active when temperature decreased (18% of activity at 10 1C). It is interesting that RBcel1 was able to synthetize non-reticulated cellulose using cellobiose as a substrate. Moreover, by a combination of bioinformatics and enzyme analysis, the physiological relevance of the RBcel1 protein and its mesophilic homologous Pst_2494 protein from P. stutzeri, A1501, was established as the key enzymes involved in the production of cellulose by bacteria. In addition, RBcel1 and Pst_2494 are the two primary enzymes belonging to the GH5 family involved in this process.

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Three-dimensional structure of RBcel1, a metagenome-derived psychrotolerant family GH5 endoglucanase

et al. 2013

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RBcel1 is an endoglucanase belonging to glycoside hydrolase family 5 subfamily 5 (GH5_5) that was recently identified from a soil metagenome library from the Antarctic. Unlike its closest structural homologue (Cel5A from Thermoascus aurantiacus), this enzyme was reported to be able to catalyze transglycosylation reactions and has putatively been implicated in the bacterial cellulose-synthesis process. Here, the structure of RBcel1 at 1.4 Å resolution, solved by molecular replacement, is reported. The structure and putative substrate-binding site are described and compared with those of other GH5_5 subfamily members.

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Novel Cold-Adapted Esterase MHlip from an Antarctic Soil Metagenome

Berlemont

Jacquin

Delsaute

et al. 2013

Biology

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An Antarctic soil metagenomic library was screened for lipolytic enzymes and allowed for the isolation of a new cytosolic esterase from the α/β hydrolase family 6, named MHlip. This enzyme is related to hypothetical genes coding esterases, aryl-esterases and peroxydases, among others. MHlip was produced, purified and its activity was determined. The substrate profile of MHlip reveals a high specificity for short p-nitrophenyl-esters. The apparent optimal activity of MHlip was measured for p-nitrophenyl-acetate, at 33 °C, in the pH range of 6–9. The MHlip thermal unfolding was investigated by spectrophotometric methods, highlighting a transition (Tm) at 50 °C. The biochemical characterization of this enzyme showed its adaptation to cold temperatures, even when it did not present evident signatures associated with cold-adapted proteins. Thus, MHlip adaptation to cold probably results from many discrete structural modifications, allowing the protein to remain active at low temperatures. Functional metagenomics is a powerful approach to isolate new enzymes with tailored biophysical properties (e.g., cold adaptation). In addition, beside the ever growing amount of sequenced DNA, the functional characterization of new catalysts derived from environment is still required, especially for poorly characterized protein families like α/β hydrolases.

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Crystal structure determination ofPseudomonas stutzeriA1501 endoglucanase Cel5A: the search for a molecular basis for glycosynthesis in GH5_5 enzymes

Dutoit¹,

Delsaute

Collet

et al. 2019

Acta Cryst Sect D Struct Biol

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The discovery of new glycoside hydrolases that can be utilized in the chemoenzymatic synthesis of carbohydrates has emerged as a promising approach for various biotechnological processes. In this study, recombinant Ps_Cel5A from Pseudomonas stutzeri A1501, a novel member of the GH5_5 subfamily, was expressed, purified and crystallized. Preliminary experiments confirmed the ability of Ps_Cel5A to catalyze transglycosylation with cellotriose as a substrate. The crystal structure revealed several structural determinants in and around the positive subsites, providing a molecular basis for a better understanding of the mechanisms that promote and favour synthesis rather than hydrolysis. In the positive subsites, two nonconserved positively charged residues (Arg178 and Lys216) were found to interact with cellobiose. This adaptation has also been reported for transglycosylating -mannanases of the GH5_7 subfamily.

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Crystal Structure of Pseudomonas stutzeri endoglucanase Cel5A in complex with cellobiose

Dutoit¹,

Delsaute²,

Berlemont³

et al. 2020

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Maud Delsaute

Insights into bacterial cellulose biosynthesis by functional metagenomics on Antarctic soil samples

Three-dimensional structure of RBcel1, a metagenome-derived psychrotolerant family GH5 endoglucanase

Novel Cold-Adapted Esterase MHlip from an Antarctic Soil Metagenome

Crystal structure determination ofPseudomonas stutzeriA1501 endoglucanase Cel5A: the search for a molecular basis for glycosynthesis in GH5_5 enzymes

Crystal Structure of Pseudomonas stutzeri endoglucanase Cel5A in complex with cellobiose

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