Results 101 to 110 of about 5,020 (218)

Novel GH115 xylan α‐1,2‐glucuronidases with distinct preferences for xylan‐derived oligomers and polymers

Protein Science, Volume 35, Issue 5, May 2026.
Abstract Natural polymers are promising sustainable materials for diverse applications. Xylans, major components of hemicellulose, exhibit origin‐dependent substitution patterns that determine their physicochemical properties. Targeted enzymatic modification of these substituents offers a mild and precise approach for tailoring the polymer's ...
Savvina Leontakianakou, Simone Balzer Le, Anders Sundin, Andrius Jasilionis, Giang‐Son Nguyen, Anna Nordborg, Lalitha D. Gottumukkala, Carl Grey, Anna Sofia Lewin, Eva Nordberg Karlsson   +9 more
wiley   +1 more source

High-throughput CAZyme production in Aspergillus oryzae

, 2023
To support the transition to a green economy, novel industrial enzymes are necessary. Enzymes of particular interest in this context are Carbohydrate-Active EnZymes (CAZymes).
Henrissat, Bernard Paul, Gómez, Martí Morera, Mortensen, Uffe Hasbro   +2 more
core  

RNA-Seq data of CAZyme genes and transcription factor genes of L. edodes.

, 2016
RNA-Seq data of CAZyme genes and transcription factor genes of L. edodes.
Yin Liu (50073), Mengpei Guo (2921997), Yuhua Gong (175503), Yingli Cai (2921991), Yang Xiao (146335), Xiaoyu Lei (2921994), Wei Liu (20030), Lianfu Chen (534803), Gangzheng Wang (2921988), Yan Zhou (6523), Yinbing Bian (534805), Zhangyi Xu (2921982), Xiaolong Ma (2921985)   +12 more
core   +1 more source

Taxonomic origins of the 10 CAZyme families showing significant positive correlation with BMI.

, 2015
Distribution of contributing clades at (a) Phylum level and (b) Genus level. Several genera belonging to Firmicutes phylum, like Roseburia, Faecalibacterium, Ruminococcus and Eubacterium, were observed to harbor these CAZyme families, two genera, namely ...
Tanudeep Bhattacharya (555457), Sharmila S. Mande (176619), Tarini Shankar Ghosh (194275)   +2 more
core   +1 more source

Table_1_Oral and Gut Microbial Carbohydrate-Active Enzymes Landscape in Health and Disease.DOCX

, 2021
Inter-individual variability in the microbial gene complement encoding for carbohydrate-active enzymes (CAZymes) can profoundly regulate how the host interacts with diverse carbohydrate sources thereby influencing host health. CAZy-typing, characterizing
John Juma (8950106), Stanley O. Onyango (11822000), Kim De Paepe (9521317), Tom Van de Wiele (71552)   +3 more
core   +1 more source

Predicted carbohydrate-active enzyme (CAZyme) and eukaryotic-like proteins (ELPs) in the genus Pseudovibrio.

, 2018
(A) Heat map representation of CAZYme repertoire. Numbers of each enzyme detected in the genome are shown as overrepresented (red) and underrepresented (blue). (B) The bubble sizes are proportional to the number of each ELPs detected. The absence of ELPs
Anoop Alex (110849), Agostinho Antunes (47525)   +1 more
core   +1 more source

Image_2_Oral and Gut Microbial Carbohydrate-Active Enzymes Landscape in Health and Disease.TIFF

, 2021
Inter-individual variability in the microbial gene complement encoding for carbohydrate-active enzymes (CAZymes) can profoundly regulate how the host interacts with diverse carbohydrate sources thereby influencing host health. CAZy-typing, characterizing
John Juma (8950106), Stanley O. Onyango (11822000), Kim De Paepe (9521317), Tom Van de Wiele (71552)   +3 more
core   +1 more source

SACCHARIS: an automated pipeline to streamline discovery of carbohydrate active enzyme activities within polyspecific families and de novo sequence datasets

Biotechnology for Biofuels, 2018
Background Deposition of new genetic sequences in online databases is expanding at an unprecedented rate. As a result, sequence identification continues to outpace functional characterization of carbohydrate active enzymes (CAZymes).
Darryl R. Jones, Dallas Thomas, Nicholas Alger, Ata Ghavidel, G. Douglas Inglis, D. Wade Abbott   +5 more
doaj   +1 more source

Summary of carbohydrate-active enzyme (CAZyme) family numbers in P. nodorum SN15 before and after manual re-annotation.

, 2016
Summary of carbohydrate-active enzyme (CAZyme) family numbers in P. nodorum SN15 before and after manual re-annotation.
Kar-Chun Tan (259577), Eiko Furuki (2140978), Robert A. Syme (2140987), Simon R. Ellwood (2140984), Kejal Dodhia (2140975), Richard P. Oliver (189403), Yew-Foon Tan (2067727), Alison C. Testa (2140990), Thomas Stoll (2140981), Jeffrey J. Gorman (110213), Marcus Hastie (2140993), James K. Hane (218015), Angela H. Williams (561353)   +12 more
core   +1 more source

Image_5_Oral and Gut Microbial Carbohydrate-Active Enzymes Landscape in Health and Disease.TIFF

, 2021
Inter-individual variability in the microbial gene complement encoding for carbohydrate-active enzymes (CAZymes) can profoundly regulate how the host interacts with diverse carbohydrate sources thereby influencing host health. CAZy-typing, characterizing
John Juma (8950106), Stanley O. Onyango (11822000), Kim De Paepe (9521317), Tom Van de Wiele (71552)   +3 more
core   +1 more source