TY - JOUR
T1 - Discovery of novel alkaline-tolerant xylanases from fecal microbiota of dairy cows
AU - Zhang, Xiaoling
AU - Miao, Qin
AU - Tang, Bingling
AU - Mijakovic, Ivan
AU - Ji, Xiao Jun
AU - Qu, Lingbo
AU - Wei, Yongjun
N1 - Publisher Copyright:
© 2023, The Author(s).
PY - 2023
Y1 - 2023
N2 - Xylo-oligosaccharides
(XOS) are considered as a promising type of prebiotics that can be used
in foods, feeds, and healthcare products. Xylanases play a key role in
the production of XOS from xylan. In this study, we conducted a
metagenomic analysis of the fecal microbiota from dairy cows fed with
different types of fodders. Despite the diversity in their diets, the
main phyla observed in all fecal microbiota were Firmicutes and
Bacteroidetes. At the genus level, one group of dairy cows that were fed
probiotic fermented herbal mixture-containing fodders displayed
decreased abundance of Methanobrevibacter and increased growth of beneficial Akkermansia
bacteria. Additionally, this group exhibited a high microbial richness
and diversity. Through our analysis, we obtained a comprehensive dataset
comprising over 280,000 carbohydrate-active enzyme genes. Among these,
we identified a total of 163 potential xylanase genes and subsequently
expressed 34 of them in Escherichia coli. Out of the 34 expressed
genes, two alkaline xylanases with excellent temperature stability and
pH tolerance were obtained. Notably, CDW-xyl-8 exhibited xylanase
activity of 96.1 ± 7.5 U/mg protein, with an optimal working temperature
of 55 ℃ and optimal pH of 8.0. CDW-xyl-16 displayed an activity of
427.3 ± 9.1 U/mg protein with an optimal pH of 8.5 and an optimal
temperature at 40 ℃. Bioinformatic analyses and structural modeling
suggest that CDW-xyl-8 belongs to GH10 family xylanase, and CDW-xyl-16
is a GH11 family xylanase. Both enzymes have the ability to hydrolyze
beechwood xylan and produce XOS. In conclusion, this metagenomic study
provides valuable insights into the fecal microbiota composition of
dairy cows fed different fodder types, revealing main microbial groups
and demonstrating the abundance of xylanases. Furthermore, the
characterization of two novel xylanases highlights their potential
application in XOS production.
AB - Xylo-oligosaccharides
(XOS) are considered as a promising type of prebiotics that can be used
in foods, feeds, and healthcare products. Xylanases play a key role in
the production of XOS from xylan. In this study, we conducted a
metagenomic analysis of the fecal microbiota from dairy cows fed with
different types of fodders. Despite the diversity in their diets, the
main phyla observed in all fecal microbiota were Firmicutes and
Bacteroidetes. At the genus level, one group of dairy cows that were fed
probiotic fermented herbal mixture-containing fodders displayed
decreased abundance of Methanobrevibacter and increased growth of beneficial Akkermansia
bacteria. Additionally, this group exhibited a high microbial richness
and diversity. Through our analysis, we obtained a comprehensive dataset
comprising over 280,000 carbohydrate-active enzyme genes. Among these,
we identified a total of 163 potential xylanase genes and subsequently
expressed 34 of them in Escherichia coli. Out of the 34 expressed
genes, two alkaline xylanases with excellent temperature stability and
pH tolerance were obtained. Notably, CDW-xyl-8 exhibited xylanase
activity of 96.1 ± 7.5 U/mg protein, with an optimal working temperature
of 55 ℃ and optimal pH of 8.0. CDW-xyl-16 displayed an activity of
427.3 ± 9.1 U/mg protein with an optimal pH of 8.5 and an optimal
temperature at 40 ℃. Bioinformatic analyses and structural modeling
suggest that CDW-xyl-8 belongs to GH10 family xylanase, and CDW-xyl-16
is a GH11 family xylanase. Both enzymes have the ability to hydrolyze
beechwood xylan and produce XOS. In conclusion, this metagenomic study
provides valuable insights into the fecal microbiota composition of
dairy cows fed different fodder types, revealing main microbial groups
and demonstrating the abundance of xylanases. Furthermore, the
characterization of two novel xylanases highlights their potential
application in XOS production.
KW - Xylo-oligosaccharides
KW - Xylanases
KW - Dairy cow fecal microbiota
KW - Metagenomics
KW - Enzyme characterization
U2 - 10.1186/s13068-023-02435-8
DO - 10.1186/s13068-023-02435-8
M3 - Journal article
C2 - 38012750
AN - SCOPUS:85177780389
VL - 16
JO - Biotechnology for Biofuels and Bioproducts
JF - Biotechnology for Biofuels and Bioproducts
M1 - 182
ER -