Regis Faure
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Explore the profile of Regis Faure including associated specialties, affiliations and a list of published articles.
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32
Citations
223
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Recent Articles
1.
Anny C, Nouaille S, Faure R, Schulz C, Spriet C, Huvent I, et al.
Curr Protoc
. 2024 Mar;
4(3):e1016.
PMID: 38511507
Investigating the function of target proteins for functional prospection or therapeutic applications typically requires the production and purification of recombinant proteins. The fusion of these proteins with tag peptides and...
2.
Hameleers L, Pijning T, Gray B, Faure R, Jurak E
N Biotechnol
. 2024 Jan;
80:1-11.
PMID: 38163476
Polysaccharide Utilization Loci (PULs) are physically linked gene clusters conserved in the Gram-negative phylum of Bacteroidota and are valuable sources for Carbohydrate Active enZyme (CAZyme) discovery. This study focuses on...
3.
Penttinen L, Kouhi V, Faure R, Skarina T, Stogios P, Master E, et al.
Molecules
. 2022 May;
27(9).
PMID: 35566004
Acetylated glucuronoxylan is one of the most common types of hemicellulose in nature. The structure is formed by a β-(1→4)-linked D-xylopyranosyl (Xyl) backbone that can be substituted with an acetyl...
4.
Pelus A, Bordes G, Barbe S, Bouchiba Y, Burnard C, Cortes J, et al.
Biomater Sci
. 2021 Oct;
9(22):7444-7455.
PMID: 34647546
The development of protein and microorganism engineering have led to rising expectations of biotechnology in the design of emerging biomaterials, putatively of high interest to reduce our dependence on fossil...
5.
Desmons S, Grayson-Steel K, Nunez-Dallos N, Vendier L, Hurtado J, Clapes P, et al.
J Am Chem Soc
. 2021 Sep;
143(39):16274-16283.
PMID: 34546049
A cell-free enantioselective transformation of the carbon atom of CO has never been reported. In the urgent context of transforming CO into products of high value, the enantiocontrolled synthesis of...
6.
Zhao J, Esque J, Andre I, ODonohue M, Faure R
Bioorg Chem
. 2021 Sep;
116:105245.
PMID: 34482168
The GH-51 α-l-arabinofuranosidase from Thermobacillus xylanilyticus (TxAbf) possesses versatile catalytic properties, displaying not only the ability to hydrolyze glycosidic linkages but also to synthesize furanobiosides in α-l-Araf and β-d-Galf series....
7.
Hameleers L, Penttinen L, Ikonen M, Jaillot L, Faure R, Terrapon N, et al.
Biotechnol Biofuels
. 2021 Jun;
14(1):127.
PMID: 34059129
Background: Nowadays there is a strong trend towards a circular economy using lignocellulosic biowaste for the production of biofuels and other bio-based products. The use of enzymes at several stages...
8.
Teze D, Zhao J, Wiemann M, Kazi Z, Lupo R, Zeuner B, et al.
Chemistry
. 2021 Apr;
27(40):10323-10334.
PMID: 33914359
Glycobiology is dogged by the relative scarcity of synthetic, defined oligosaccharides. Enzyme-catalysed glycosylation using glycoside hydrolases is feasible but is hampered by the innate hydrolytic activity of these enzymes. Protein...
9.
Gherbovet O, Ferreira F, Clement A, Ragon M, Durand J, Bozonnet S, et al.
Beilstein J Org Chem
. 2021 Apr;
17:325-333.
PMID: 33828614
Generally, carbohydrate-active enzymes are studied using chromogenic substrates that provide quick and easy color-based detection of enzyme-mediated hydrolysis. For feruloyl esterases, commercially available chromogenic ferulate derivatives are both costly and...
10.
Zhao J, Tandrup T, Bissaro B, Barbe S, Poulsen J, Andre I, et al.
N Biotechnol
. 2021 Feb;
62:68-78.
PMID: 33524585
The use of retaining glycoside hydrolases as synthetic tools for glycochemistry is highly topical and the focus of considerable research. However, due to the incomplete identification of the molecular determinants...