A lysing polysaccharide monooxygenase from  effectively facilitated rumen microbial fermentation of rice straw

Ting Li; Kehui OuYang; Qinghua Qiu; Xianghui Zhao; Chanjuan Liu

doi:10.5713/ab.24.0026

Animal Bioscience (Oct 2024)

A lysing polysaccharide monooxygenase from effectively facilitated rumen microbial fermentation of rice straw

Ting Li,
Kehui OuYang,
Qinghua Qiu,
Xianghui Zhao,
Chanjuan Liu

Affiliations

Ting Li: Jiangxi Province Key Laboratory of Animal Nutrition/Engineering Research Center of Feed Development, Jiangxi Agricultural University, Nanchang Jiangxi 330045, China
Kehui OuYang: Jiangxi Province Key Laboratory of Animal Nutrition/Engineering Research Center of Feed Development, Jiangxi Agricultural University, Nanchang Jiangxi 330045, China
Qinghua Qiu: Jiangxi Province Key Laboratory of Animal Nutrition/Engineering Research Center of Feed Development, Jiangxi Agricultural University, Nanchang Jiangxi 330045, China
Xianghui Zhao: Jiangxi Province Key Laboratory of Animal Nutrition/Engineering Research Center of Feed Development, Jiangxi Agricultural University, Nanchang Jiangxi 330045, China
Chanjuan Liu: Jiangxi Province Key Laboratory of Animal Nutrition/Engineering Research Center of Feed Development, Jiangxi Agricultural University, Nanchang Jiangxi 330045, China

DOI: https://doi.org/10.5713/ab.24.0026
Journal volume & issue: Vol. 37, no. 10
pp. 1738 – 1750

Abstract

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Objective This study investigated the impact of Aspergillus niger lysing polysaccharide monooxygenase (AnLPMO) on in vitro rumen microbial fermentation of rice straw. Methods AnLPMO was heterologously expressed in Escherichia coli. Fourier transform infrared spectrometry and X-ray photoelectron spectroscopy analyzed the surface structure of rice straw after AnLPMO treatment. Two in vitro experiments, coupled with 16S high-throughput sequencing and quantitative real–time polymerase chain reaction techniques, assessed the influence of AnLPMO on rumen microbial fermentation of rice straw. Results AnLPMO exhibited peak activity at 40°C and pH 6.5, with a preference for rice straw xylan hydrolysis, followed by Avicel. AnLPMO application led to the fractional removal of cellulose and hemicelluloses and a notable reduction in the levels of carbon elements and C–C groups present on the surface of rice straw. Compared to the control (no AnLPMO), supplementing AnLPMO at 1.1 to 2.0 U significantly enhanced in vitro digestibility of dry matter (IVDMD, p<0.01), total gas production (p<0.01), and concentrations of total volatile fatty acids (VFA, p<0.01), acetate (p<0.01), and ammonia-N (p<0.01). Particularly, the 1.4 U AnLPMO group showed a 14.8% increase in IVDMD. In the second experiment, compared to deactivated AnLPMO (1.4 U), supplementing bioactive AnLPMO at 1.4 U increased IVDMD (p = 0.01), total gas production (p = 0.04), and concentrations of total VFA (p<0.01), propionate (p<0.01), and ammonia-N (p<0.01), with a limited 9.6% increase in IVDMD. Supplementing AnLPMO stimulated the growth of ruminal bacterial taxa facilitating fiber degradation, including Proteobacteria, Spirochaetes, Succinivibrio, Rikenellaceae_RC9_Gut_Group, Prevotelaceae_UCG-003, Desulfovibrio, Fibrobacter succinogenes, Ruminococcus albus, R. flavefaciens, Prevotella bryantii, P. ruminicola, and Treponema bryantii. Conclusion These findings highlight AnLPMO’s potential as a feed additive for improving rice straw utilization in ruminant production.

Published in Animal Bioscience

ISSN: 2765-0189 (Print); 2765-0235 (Online)
Publisher: Asian-Australasian Association of Animal Production Societies
Country of publisher: Korea, Republic of
LCC subjects: Science: Zoology
Website: https://www.animbiosci.org/index.php

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