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1. Restricted intake of sulfur-containing amino acids reversed the hepatic injury induced by excess Desulfovibrio through gut–liver axis

Author

Lingxi Zhou, Gexue Lu, Yawen Nie, Yilin Ren, Jin-Song Shi, Yuzheng Xue, Zheng-Hong Xu, and Yan Geng

Subjects
Gut microbiota, liver–gut axis, Desulfovibrio, purified diet, bile acid metabolism, sulfur-containing amino acids, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Diet is a key player in gut–liver axis. However, the effect of different dietary patterns on gut microbiota and liver functions remains unclear. Here, we used rodent standard chow and purified diet to mimic two common human dietary patterns: grain and plant-based diet and refined-food-based diet, respectively and explored their impacts on gut microbiota and liver. Gut microbiota experienced a great shift with notable increase in Desulfovibrio, gut bile acid (BA) levels elevated significantly, and liver inflammation was observed in mice fed with the purified diet. Liver inflammation and elevated gut BA levels also occurred in mice fed with the chow diet after receiving Desulfovibrio desulfuricans ATCC 29,577 (DSV). Restriction of sulfur-containing amino acids (SAAs) prevented liver injury mainly through higher hepatic antioxidant and detoxifying ability and reversed the elevated BA levels due to excess Desulfovibrio. Ex vivo fermentation of human fecal microbiota with primary BAs demonstrated that DSV enhanced production of secondary BAs. Higher concentration of both primary and secondary BAs were found in the gut of germ-free mice after receiving DSV. In conclusion, Restriction of SAAs in diet may become an effective dietary intervention to prevent liver injury associated with excess Desulfovibrio in the gut.

Published
2024
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2. Efficient secretory expression of phospholipase D for the high-yield production of phosphatidylserine and phospholipid derivates from soybean lecithin

Author

Peng Zhang, Jin-Song Gong, Zhi-Hao Xie, Chang Su, Xiao-Mei Zhang, Zhi-Ming Rao, Zheng-Hong Xu, and Jin-Song Shi

Subjects
Phospholipase D, Secretion expression, Bacillus subtilis, Biosynthesis, Enzymatic PLs modification, Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5
Abstract

Phospholipase D (PLD) is an essential biocatalyst for the biological production of phosphatidylserine and phospholipid modification. However, the efficient heterologous expression of PLD is limited by its cell toxicity. In this study, a PLD was secretory expressed efficiently in Bacillus subtilis with an activity around 100 U/mL. A secretory expression system containing the signal peptide SPEstA and the dual-promoter PHpaII-SrfA was established, and the extracellular PLD activity further reached 119.22 U/mL through scale-up fermentation, 191.30-fold higher than that of the control. Under optimum reaction conditions, a 61.61% conversion ratio and 21.07 g/L of phosphatidylserine production were achieved. Finally, the synthesis system of PL derivates was established, which could efficiently synthesis novel PL derivates. The results highlight that the secretory expression system constructed in this study provides a promising PLD producing strain in industrial application, and laid the foundation for the biosynthesis of phosphatidylserine and other PL derivates. As far as we know, this work reports the highest level of extracellular PLD expression to date and the enzymatic production of several PL derivates for the first time.

Published
2023
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3. Rapid detection of six Oceanobacillus species in Daqu starter using single‐cell Raman spectroscopy combined with machine learning

Author

Lei Xu, Yuan Liang, Wei E Huang, Lin‐Dong Shang, Li‐Juan Chai, Xiao‐Juan Zhang, Jin‐Song Shi, Bei Li, Yun Wang, Zheng‐Hong Xu, and Zhen‐Ming Lu

Subjects
Biotechnology, TP248.13-248.65
Abstract

Abstract Many traditional fermented foods and beverages industries around the world request the addition of multi‐species starter cultures. However, the microbial community in starter cultures is subject to fluctuations due to their exposure to an open environment during fermentation. A rapid detection approach to identify the microbial composition of starter culture is essential to ensure the quality of the final products. Here, we applied single‐cell Raman spectroscopy (SCRS) combined with machine learning to monitor Oceanobacillus species in Daqu starter, which plays crucial roles in the process of Chinese baijiu. First, a total of six Oceanobacillus species (O. caeni, O. kimchii, O. iheyensis, O. sojae, O. oncorhynchi subsp. Oncorhynchi and O. profundus) were detected in 44 Daqu samples by amplicon sequencing and isolated by pure culture. Then, we created a reference database of these Oceanobacillus strains which correlated their taxonomic data and single‐cell Raman spectra (SCRS). Based on the SCRS dataset, five machine‐learning algorithms were used to classify Oceanobacillus strains, among which support vector machine (SVM) showed the highest rate of accuracy. For validation of SVM‐based model, we employed a synthetic microbial community composed of varying proportions of Oceanobacillus species and demonstrated a remarkable accuracy, with a mean error was less than 1% between the predicted result and the expected value. The relative abundance of six different Oceanobacillus species during Daqu fermentation was predicted within 60 min using this method, and the reliability of the method was proved by correlating the Raman spectrum with the amplicon sequencing profiles by partial least squares regression. Our study provides a rapid, non‐destructive and label‐free approach for rapid identification of Oceanobacillus species in Daqu starter culture, contributing to real‐time monitoring of fermentation process and ensuring high‐quality products.

Published
2024
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4. Microbial biogeography of pit mud from an artificial brewing ecosystem on a large time scale: all roads lead to Rome

Author

Jun-Lan Mei, Li-Juan Chai, Xiao-Zhong Zhong, Zhen-Ming Lu, Xiao-Juan Zhang, Song-Tao Wang, Cai-Hong Shen, Jin-Song Shi, and Zheng-Hong Xu

Subjects
pit mud, bacterial community, spatiotemporal variation, community assembly, co-occurrence network, Microbiology, QR1-502
Abstract

ABSTRACT The fermentation process of strong-flavor Baijiu occurs in an underground cellar surrounded by mud, where grains are decomposed and generate new flavor substances. Pit mud microbiome plays a pivotal role in the formation of Baijiu flavor, which is positively correlated with cellar age. Previous research on the pit mud microbiome was often conducted for a specific distillery, making it hard to draw a general conclusion to decipher the pit mud microecosystem in such a unique brewing environment. Hence, in this study, we attempt to unravel community formation mechanisms through research in pit mud microbial biogeography based on 12 independent bacterial studies comprising qualified data sets of 302 samples clearly marked with cellar age from five major producing provinces. We found cellar age explained more variations in the bacterial community than geographical region. The bacterial community displayed evident dominant species alternations on a large time scale. Lactobacillus was found to be the dominant species in young pit mud (

Published
2023
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5. High-efficiency secretory expression and characterization of the recombinant type III human-like collagen in Pichia pastoris

Author

Zhi-Xiang Xiang, Jin-Song Gong, Jin-Hao Shi, Chun-Fang Liu, Heng Li, Chang Su, Min Jiang, Zheng-Hong Xu, and Jin-Song Shi

Subjects
Human-like collagen, Secretory expression, Fermentation, Protein purification, Characterization, Technology, Chemical technology, TP1-1185, Biotechnology, TP248.13-248.65
Abstract

Abstract Collagen, the highest content protein in the body, has irreplaceable biological functions, and it is widespread concerned in food, beauty, and medicine with great market demand. The gene encoding the recombinant type III human-like collagen α1 chain fragment was integrated into P. pastoris genome after partial amino acids were substituted. Combined with promoter engineering and high-density fermentation technology, soluble secretory expression with the highest yield of 1.05 g L−1 was achieved using two-stage feeding method, and the purity could reach 96% after affinity purification. The determination of N/C-terminal protein sequence were consistent with the theoretical expectation and showed the characteristics of Gly-X-Y repeated short peptide sequence. In amino acid analysis, glycine shared 27.02% and proline 23.92%, which were in accordance with the characteristics of collagen. Ultraviolet spectrum combined with Fourier transform infrared spectroscopy as well as mass spectrometry demonstrated that the target product conformed to the characteristics of collagen spectrums and existed as homologous dimer and trimer in the broth. This work provided a sustainable and economically viable source of the recombinant type III human-like collagen. Graphical Abstract

Published
2022
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6. Protein engineering of NADH pyrophosphatase for efficient biocatalytic production of reduced nicotinamide mononucleotide

Author

Ye Liu, Jin-Song Gong, George Marshall, Chang Su, Michael Hall, Heng Li, Guo-Qiang Xu, Jin-Song Shi, and Zheng-Hong Xu

Subjects
reduced nicotinamide mononucleotide, NADH pyrophosphatase, expression, semi-rational engineering, protein engineering, Biotechnology, TP248.13-248.65
Abstract

Introduction: NADH pyrophosphatase, a hydrolase catalyzing the phosphate bond of NADH to reduced nicotinamide mononucleotide, has potential applications in the food, cosmetic and pharmaceutical industry.Methods: Here, we investigated the effects of vector screening, promoter and RBS strategies on NADH pyrophosphatase expression and protein engineering on its enzymatic activity and thermal stability.Results: In this study, we describe a NADH pyrophosphatase derived from Escherichia coli (EcNudc). Strategies focusing on expression regulation including screening vectors, optimizing promoters and ribosome binding sites were utilized to enhance the productivity of EcNudc (1.8 U/mL). Moreover, protein engineering was adopted to further improve the catalytic properties of EcNudc, achieving 3.3-fold higher activity and 3.6-fold greater thermostability at 50°C. Furthermore, fermentation for the combined mutant R148A-H149E (EcNudc-M) production in a 7 L fermenter was implemented and the enzyme activity of EcNudc-M reached 33.0 U/mL. Finally, the EcNudc-M was applied in the catalysis of NADH with the highest NMNH yield of 16.65 g/L.Discussion: In conclusion, we constructed a commercially available genetically engineered strain with high activity and thermal stability of NADH pyrophosphatase, laying a broad foundation for the biocatalytic industrial production of NMNH and expand its application range.

Published
2023
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7. The differences between broad bean koji fermented in laboratory and factory conditions by an efficient Aspergillus oryzae

Author

Heng Li, Zhen-Ming Lu, Wei-Qin Deng, Qi-Sheng Zhang, Gong Chen, Qi Li, Zheng-Hong Xu, and Yan-He Ma

Subjects
Aspergillus oryzae, broad bean paste-meju, fermentation condition, koji, fermentation starter, Microbiology, QR1-502
Abstract

Broad bean paste-meju was fermented by a mixture of broad bean koji and saline; koji fermentation is an essential process for the production of broad bean paste-meju. Aspergillus oryzae was the most widely used in sauce fermentation. The purpose of this study was to research the factory adaptability of the highly efficient A. oryzae PNM003 and further evaluate the effect of fermentation conditions and fermentation strains on koji. A. oryzae PNM003 was compared with the widely used strain HN 3.042 not only in the laboratory but also in factory conditions (large scale). Results showed that the koji made with the same starter in the factory had a greater amount of fungi than that in the laboratory. Bacteria and yeast levels in HN_L koji were higher than in PN_L koji. As for fungi constitution, almost only Aspergillus survived in the end through the microorganism self-purification process during koji fermentation. As for the bacterial constitution, koji was grouped by fermentation conditions instead of fermentation starter. PN koji had higher protease activity and a higher content of total acids, amino acid nitrogen, amino acids, and organic acids in the laboratory conditions. Nevertheless, in factory conditions, PN koji and HN koji had similar indexes. As for volatile flavor compounds, koji made with the two starters in the same condition was grouped together. As for the same starter, there were more flavor compounds metabolized in the factory condition than in the laboratory condition, especially esters and alcohols. The results showed PN was a highly efficient strain to ferment koji, but the advantages were expressed more remarkably in laboratory conditions. In brief, the fermented condition had a greater influence than the fermentation starter for broad bean koji.

Published
2023
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8. Metabolomic analysis of the effects of a mixed culture of Saccharomyces cerevisiae and Lactiplantibacillus plantarum on the physicochemical and quality characteristics of apple cider vinegar

Author

Ya-Nan Li, Yue Luo, Zhen-Ming Lu, Yan-Lin Dong, Li-Juan Chai, Jin-Song Shi, Xiao-Juan Zhang, and Zheng-Hong Xu

Subjects
mixed-culture fermentation, metabolomics, apple cider vinegar, physicochemical characteristics, quality traits, Nutrition. Foods and food supply, TX341-641
Abstract

IntroductionThis study compared differences in physicochemical characteristics of the vinegar made by a mixed culture (MC) of Saccharomyces cerevisiae and Lactiplantibacillus plantarum and a pure culture (PC) of Saccharomyces cerevisiae.MethodsThe fermentation process was monitored, and metabolomics analysis by Liquid Chromagraphy-Mass Spectrometry (LC-MS) was applied to the compositional differences between PC and MC vinegars, combined with quantification of organic acids, amino acids and B vitamins.ResultsA total of 71 differential metabolites including amino acids, organic acids and carbohydrates, and six possible key metabolic pathways were identified. MC enhanced the malic acid utilization and pyruvate acid metabolism during fermentation, increasing substrate-level phosphorylation, and supplying more energy for cellular metabolism. Higher acidity at the beginning of acetic acid fermentation, resulting from lactic acid production by Lactiplantibacillus plantarum in MC, suppressed the cellular metabolism and growth of Acetobacter pasteurianus, but enhanced its alcohol metabolism and acetic acid production in MC. MC vinegar contained more vitamin B, total flavonoids, total organic acids, amino acids and had a higher antioxidant capacity. MC enhanced the volatile substances, particularly ethyl lactate, ethyl caprate and ethyl caproate, which contributed to a stronger fruity aroma.DiscussionThese results indicated the mixed culture in alcoholic fermentation can effectively enhance the flavor and quality of apple cider vinegar.

Published
2023
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9. Directed evolution driving the generation of an efficient keratinase variant to facilitate the feather degradation

Author

Jing Zhang, Chang Su, Xiao-Li Kong, Jin-Song Gong, Yan-Lin Liu, Heng Li, Jiufu Qin, Zheng-Hong Xu, and Jin-Song Shi

Subjects
Keratinase, Error-prone PCR, Feather wastes, Biodegradation, Feed additive, Technology, Chemical technology, TP1-1185, Biotechnology, TP248.13-248.65
Abstract

Abstract Keratinases can specifically degrade keratins, which widely exist in hair, horns, claws and human skin. There is a great interest in developing keratinase to manage keratin waste generated by the poultry industry and reusing keratin products in agriculture, medical treatment and feed industries. Degradation of keratin waste by keratinase is more environmentally friendly and more sustainable compared with chemical and physical methods. However, the wild-type keratinase-producing strains usually cannot meet the requirements of industrial production, and some are pathogenic, limiting their development and utilization. The main purpose of this study is to improve the catalytic performance of keratinase via directed evolution technology for the degradation of feathers. We first constructed a mutant library through error-prone PCR and screened variants with enhanced enzyme activity. The keratinase activity was further improved through fermentation conditions optimization and fed-batch strategies in a 7-L bioreactor. As a result, nine mutants with enhanced activity were identified and the highest enzyme activity was improved from 1150 to 8448 U/mL finally. The mutant achieved efficient biodegradation of feathers, increasing the degradation rate from 49 to 88%. Moreover, a large number of amino acids and soluble peptides were obtained as degradation products, which were excellent protein resources to feed. Therefore, the study provided a keratinase mutant with application potential in the management of feather waste and preparation of protein feed additive. Graphical Abstract

Published
2022
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10. Dietary Goji Shapes the Gut Microbiota to Prevent the Liver Injury Induced by Acute Alcohol Intake

Author

Lin Guo, Qijie Guan, Wenhui Duan, Yilin Ren, Xiao-Juan Zhang, Hong-Yu Xu, Jin-Song Shi, Fang-Zhou Wang, Ran Lu, Hui-Ling Zhang, Zheng-Hong Xu, Huazhong Li, and Yan Geng

Subjects
Lycium barbarum L., acute liver injury, metabolomics, gut microbiota, fecal microbiota transplantation (FMT), Nutrition. Foods and food supply, TX341-641
Abstract

Diet is a major driver of the structure and function of the gut microbiota, which influences the host physiology. Alcohol abuse can induce liver disease and gut microbiota dysbiosis. Here, we aim to elucidate whether the well-known traditional health food Goji berry targets gut microbiota to prevent liver injury induced by acute alcohol intake. The results showed that Goji supplementation for 14 days alleviated acute liver injury as indicated by lowering serum aspartate aminotransferase, alanine aminotransferase, pro-inflammatory cytokines, as well as lipopolysaccharide content in the liver tissue. Goji maintained the integrity of the epithelial barrier and increased the levels of butyric acid in cecum contents. Furthermore, we established the causal relationship between gut microbiota and liver protection effects of Goji with the help of antibiotics treatment and fecal microbiota transplantation (FMT) experiments. Both Goji and FMT-Goji increased glutathione (GSH) in the liver and selectively enriched the butyric acid-producing gut bacterium Akkermansia and Ruminococcaceae by using 16S rRNA gene sequencing. Metabolomics analysis of cecum samples revealed that Goji and its trained microbiota could regulate retinoyl β-glucuronide, vanillic acid, and increase the level of glutamate and pyroglutamic acid, which are involved in GSH metabolism. Our study highlights the communication among Goji, gut microbiota, and liver homeostasis.

Published
2022
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11. Comparative Genomics Unveils the Habitat Adaptation and Metabolic Profiles of Clostridium in an Artificial Ecosystem for Liquor Production

Author

Guan-Yu Fang, Li-Juan Chai, Xiao-Zhong Zhong, Zhen-Ming Lu, Xiao-Juan Zhang, Lin-Huan Wu, Song-Tao Wang, Cai-Hong Shen, Jin-Song Shi, and Zheng-Hong Xu

Subjects
Clostridium, pit mud, CAZymes, horizontal gene transfer, short-chain fatty acids, Microbiology, QR1-502
Abstract

ABSTRACT Clostridium inhabiting pit mud (PM) is one of the important bacterial populations for synthesizing flavor compounds of Chinese strong-flavor baijiu. The long-term cereal fermentation with sorghum as the main raw material creates an environment rich in starch, ethanol, and organic acids (mainly lactic acid). However, the genetic factors underpinning Clostridium’s adaptation to PM remain poorly understood. Here, we performed comparative genomic analysis between 30 pit mud-associated (PMA) and 100 non-pit mud-associated (NPMA) Clostridium strains. Comparison analysis of the enrichment of KEGG pathways between PMA and NPMA Clostridium strains showed two-component system, flagellar assembly, and bacterial chemotaxis pathways related to environmental adaptation were enriched in PMA strains. The number of genes encoding alcohol dehydrogenase and l-lactate dehydrogenase in PMA Clostridium strains was significantly higher than that in NPMA, which is helpful for them to adapt to the ethanol- and lactic acid-rich environment. The analysis of carbohydrate-active enzymes demonstrated that glycoside hydrolases (GHs) was the most abundant family in all Clostridium strains, and genes encoding GH4 and GH13, involved in starch and sucrose metabolism, were enriched in PMA Clostridium. Horizontal gene transfer analysis revealed that multiple genes encoding the enzymes involved in carbohydrate and amino acid metabolism were transferred from Bacillus to Clostridium in pit mud. Most of the PMA Clostridium strains had good potential for butyric acid synthesis from ethanol, lactic acid, and starch. Collectively, this study furthers our understanding of the habitat adaptation and metabolic potential of PMA Clostridium strains. IMPORTANCE Pit mud is a typical artificial ecosystem for Chinese liquor production. Clostridium inhabiting pit mud plays essential roles in the flavor formation of strong-flavor baijiu. The relative abundance of Clostridium increased with pit mud quality, further influencing the quality of baijiu. So far, the ecological adaptation of Clostridium to a pit mud-associated lifestyle is largely unknown. Here, comparative genomic analysis of pit mud-associated (PMA) and non-pit mud-associated (NPMA) Clostridium strains was performed. We found genes related to the metabolism of starch, ethanol, and lactic acid were enriched in PMA Clostridium strains, which facilitated their adaptation to the unique brewing environment. In addition, horizontal gene transfer contributed to the adaptation of Clostridium to pit mud. Our findings provide genetic insights on PMA Clostridium strains’ ecological adaptation and metabolic characteristics.

Published
2022
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12. Targeting Follistatin like 1 ameliorates liver fibrosis induced by carbon tetrachloride through TGF-β1-miR29a in mice

Author

Xin-Yi Xu, Yan Du, Xue Liu, Yilin Ren, Yingying Dong, Hong-Yu Xu, Jin-Song Shi, Dianhua Jiang, Xin Xu, Lian Li, Zheng-Hong Xu, and Yan Geng

Subjects
Hepatic fibrosis, Cell differentiation, Transforming growth factor-β (TGF-β) signaling, Follistatin like 1 (Fstl1), microRNA, Medicine, Cytology, QH573-671
Abstract

Abstract Background Hepatic fibrosis is a pathological response of the liver to a variety of chronic stimuli. Hepatic stellate cells (HSCs) are the major source of myofibroblasts in the liver. Follistatin like 1 (Fstl1) is a secreted glycoprotein induced by transforming growth factor-β1 (TGF-β1). However, the precise functions and regulation mechanisms of Fstl1 in liver fibrogenesis remains unclear. Methods Hepatic stellate cell (HSC) line LX-2 stimulated by TGF-β1, primary culture of mouse HSCs and a model of liver fibrosis induced by CCl4 in mice was used to assess the effect of Fstl1 in vitro and in vivo. Results Here, we found that Fstl1 was significantly up regulated in human and mouse fibrotic livers, as well as activated HSCs. Haplodeficiency of Fstl1 or blockage of Fstl1 with a neutralizing antibody 22B6 attenuated CCl4-induced liver fibrosis in vivo. Fstl1 modulates TGF-β1 classic Samd2 and non-classic JNK signaling pathways. Knockdown of Fstl1 in HSCs significantly ameliorated cell activation, cell migration, chemokines C-C Motif Chemokine Ligand 2 (CCL2) and C-X-C Motif Chemokine Ligand 8 (CXCL8) secretion and extracellular matrix (ECM) production, and also modulated microRNA-29a (miR29a) expression. Furthermore, we identified that Fstl1 was a target gene of miR29a. And TGF-β1 induction of Fstl1 expression was partially through down regulation of miR29a in HSCs. Conclusions Our data suggests TGF-β1-miR29a-Fstl1 regulatory circuit plays a key role in regulation the HSC activation and ECM production, and targeting Fstl1 may be a strategy for the treatment of liver fibrosis. Video Abstract Graphical abstract

Published
2020
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13. Diversity and Comparison of Intestinal Desulfovibrio in Patients with Liver Cirrhosis and Healthy People

Author

Gexue Lu, Yu Zhang, Yilin Ren, Jin-Song Shi, Zheng-Hong Xu, and Yan Geng

Subjects
Desulfovibrio, gut microbiota, chronic liver disease, hydrogen sulfide, antibiotics, Sulfate-reducing bacteria, Biology (General), QH301-705.5
Abstract

Desulfovibrio belongs to Sulfate-reducing bacteria (SRB), which are widely present in anaerobic environments, including the human gut. Desulfovibrio has been associated with many human diseases, including chronic liver disease. However, the characteristics and difference of Desulfovibrio from fecal samples of healthy volunteers (HV) and patients with liver cirrhosis (LC) have not been fully elucidated. Here, we isolated Desulfovibrio from the feces of 6 HV and 9 LC, and 88 Desulfovibrio strains were obtained. In the feces of HV, 55% of isolated strains were D. desulfuricans, followed by D. intestinalis (15%), D. simplex (11%), D. piger (9%), D. legallii (4%), Cupidesulfovibrio oxamicus (4%) and D. fairfieldensis (2%). However, only D. desulfuricans (60%) and C. oxamicus (40%) were isolated from fecal samples of patients with LC. Our results suggest that there was a significant difference in the desulfurization ability and the H2S production ability of different Desulfovibrio. Desulfovibrio. Furthermore, we found that Desulfovibrio isolated from the patients with LC generally had a higher hydrogen sulfide production capacity, gastrointestinal tolerance, and levels of antibiotic resistance than the same species isolated from HV. Our findings suggested that Desulfovibrio may be associated with the occurrence and development of liver cirrhosis.

Published
2023
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14. Hepatoprotective Effect of Cereal Vinegar Sediment in Acute Liver Injury Mice and Its Influence on Gut Microbiota

Author

Qijie Guan, Tingting Gong, Zhen-Ming Lu, Yan Geng, Wenhui Duan, Yi-Lin Ren, Xiao-Juan Zhang, Li-Juan Chai, Jin-Song Shi, and Zheng-Hong Xu

Subjects
cereal vinegar sediment, composition analysis, liver injury prevention, gut microbiota, CCl4 induced liver injury, Nutrition. Foods and food supply, TX341-641
Abstract

Cereal vinegar sediment (CVS) is a natural precipitate formed during the aging process of traditional grain vinegar. It has been used as Chinese traditional medicine, while its composition and function are reported minimally. In this study, we measured CVS in terms of saccharide, protein, fat and water content, and polyphenol and flavonoid content. Furthermore, we determined the amino acids, organic acids, and other soluble metabolites in CVS using reverse-phase high-performance liquid chromatography (RP-HPLC), HPLC, and liquid chromatography with tandem mass spectrometry (LC-MS/MS) platforms. The hepatoprotective effect of CVS was evaluated in acute CCl4-induced liver injury mice. Administration of CVS for 7 days prior to the CCl4 treatment can significantly decrease liver alanine aminotransferase (ALT) and aspartate aminotransferase (AST) levels and reactive oxygen species (ROS) levels, compared with those in the hepatic injury model group. The gut microbiota was changed by CCl4 administration and was partly shifted by the pretreatment of CVS, particularly the Muribaculaceae family, which was increased in CVS-treated groups compared with that in the CCl4 administration group. Moreover, the abundances of Alistipes genus and Muribaculaceae family were correlated with the liver ALT, AST, and malondialdehyde (MDA) levels. Our results illustrated the composition of CVS and its hepatoprotective effect in mice, suggested that CVS could be developed as functional food to prevent acute liver injury.

Published
2021
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15. Desulfovibrio fairfieldensis-Derived Outer Membrane Vesicles Damage Epithelial Barrier and Induce Inflammation and Pyroptosis in Macrophages

Author

Yawen Nie, Xiao-Qian Xie, Lingxi Zhou, Qijie Guan, Yilin Ren, Yong Mao, Jin-Song Shi, Zheng-Hong Xu, and Yan Geng

Subjects
Desulfovibrio fairfieldensis, outer membrane vesicles, intestinal inflammation, pyroptosis, Cytology, QH573-671
Abstract

Sulfate-reducing bacteria Desulfovibrio fairfieldensis is an opportunistic pathogen that widely exists in the human intestine and can cause severe infectious diseases. However, the mechanisms contributing to its pathogenesis remain of great interest. In this study, we aim to investigate the outer membrane vesicles (OMVs) secreted by D. fairfieldensis and their pathogenic effect. The OMVs separated by ultracentrifugation were spherical and displayed a characteristic bilayer lipid structure observed by transmission electron microscopy, with an average hydrodynamic diameter of 75 nm measurement using the particle size analyzer. We identified 1496 and 916 proteins from D. fairfieldensis and its OMVs using label-free non-target quantitative proteomics, respectively. The 560 co-expressed proteins could participate in bacterial life activities by function prediction. The translocation protein TolB, which participates in OMVs biogenesis and transporting toxins was highly expressed in OMVs. The OMVs inhibited the expression of tight junction proteins OCCLUDIN and ZO-1 in human colonic epithelial cells (Caco-2). The OMVs decreased the cell viability of monocyte macrophages (THP-1-Mφ) and activated various inflammatory factors secretion, including interferon-γ (IFN-γ), tumor necrosis factor (TNF-α), and many interleukins. Further, we found the OMVs induced the expression of cleaved-gasdermin D, caspase-1, and c-IL-1β and caused pyroptosis in THP-1-Mφ cells. Taken together, these data reveal that the D. fairfieldensis OMVs can damage the intestinal epithelial barrier and activate intrinsic inflammation.

Published
2022
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16. Volatile Compound Abundance Correlations Provide a New Insight into Odor Balances in Sauce-Aroma Baijiu

Author

Qijie Guan, Lian-Jun Meng, Zilun Mei, Qingru Liu, Li-Juan Chai, Xiao-Zhong Zhong, Lei Zheng, Guangqian Liu, Songtao Wang, Caihong Shen, Jin-Song Shi, Zheng-Hong Xu, and Xiao-Juan Zhang

Subjects
sauce-aroma Baijiu, odor balance, compound abundance correlations, random forest classifier, Chemical technology, TP1-1185
Abstract

Sauce-aroma Baijiu (SAB) is one of the most famous Baijius in China; SAB has more than 500 aroma compounds in it. However, the key aroma compound in SAB flavor remains unclear. Volatiles play an important role in SAB aroma and are highly correlated to SAB quality. In the present study, 63 volatile compounds were quantified among 66 SAB samples using gas chromatography with flame ionization detector (GC-FID). The authors analyzed odor contributions and volatile compound correlations in two quality groups of SAB samples. Moreover, an odor activity value (OAV) ratio-based random forest classifier was used to explain the volatile compound relationship differentiations between the two quality groups. Our results proved higher quality SABs had richer aromas and indicated a set of fruity-like ethyl valerate, green- and malt-like isobutyraldehyde and malt-like 3-methylbutyraldehyde and sweet-like furfural, had closer co-abundance correlations in higher quality SABs. These results indicated that the aroma and contributions of volatile compounds in SABs should be analyzed not only with compound odor activity values, but also the correlations between different aroma compounds.

Published
2022
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17. Two-Stage Semi-Continuous 2-Keto-Gluconic Acid (2KGA) Production by Pseudomonas plecoglossicida JUIM01 From Rice Starch Hydrolyzate

Author

Lei Sun, Da-Ming Wang, Wen-Jing Sun, Feng-Jie Cui, Jin-Song Gong, Xiao-Mei Zhang, Jin-Song Shi, and Zheng-Hong Xu

Subjects
2-Keto-gluconic acid, Pseudomonas plecoglossicida, two-stage semi-continuous fermentation, rice starch hydrolyzate, fermentation performance, Biotechnology, TP248.13-248.65
Abstract

A two-stage semi-continuous strategy for producing 2-keto-gluconic acid (2KGA) by Pseudomonas plecoglossicida JUIM01 from rice starch hydrolyzate (RSH) has been developed. The initial glucose concentration (140 g/L) was selected for first-stage fermentation due to its highest 2KGA productivity of 7.58 g/(L⋅h), cell weight of 3.91 g/L, and residual glucose concentration of 25.00 g/L. Followed by removing 70.0% (v/v) of the first-stage broth and feeding 400.0 g/L of glucose to the second-stage fermentor, a total of 50680.0 g glucose was consumed, and 50005.20 g 2KGA was obtained with a yield of 0.9867 g/g by P. plecoglossicida JUIM01 after a 3-cycle two-stage semi-continuous fermentation. Our results indicated that the developed two-stage semi-continuous fermentation could be industrially applied due to its high 2KGA concentration, 2KGA yield and operation efficiency.

Published
2020
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18. Vanillin Promotes the Germination of Antrodia camphorata Arthroconidia through PKA and MAPK Signaling Pathways

Author

Zhen-Ming Lu, Qing Zhu, Hua-Xiang Li, Yan Geng, Jin-Song Shi, and Zheng-Hong Xu

Subjects
Antrodia camphorata, arthroconidia, germination, proteomics, vanillin, Microbiology, QR1-502
Abstract

Wild fruiting bodies of medicinal mushroom Antrodia camphorata are only found on the endemic species bull camphor tree, Cinnamomum kanehirae, in Taiwan. Despite the evident importance of the host components in promoting the growth of A. camphorata, insights into the underlying mechanisms are still lacking. Here, we first evaluated effects of the compounds from C. kanehirai, C. camphora, and A. camphorata, and their structural analogs on the germination rate of A. camphorata arthroconidia. Among the 54 tested compounds, vanillin (4-hydroxy-3-methoxybenzaldehyde) was determined as the optimum germination promoter, while o-vanillin and 1-octen-3-ol as major negative regulators of arthroconidia germination. Second, the protein patterns of arthroconidia after 24 h of incubation in the presence or absence of vanillin were compared via isobaric tags for relative and absolute quantitation (iTRAQ)-based proteomics. Via bioinformatic analysis, it was found that 61 proteins might relate to the germination of arthroconidia, in which 16 proteins might involve in two potential protein kinase A (PKA) and mitogen-activated protein kinase (MAPK) signaling pathways in the vanillin-promoted germination of A. camphorata arthroconidia. Last, the mRNA expression levels of the 16 germination-related genes in the potential PKA and MAPK signaling pathways were analyzed by quantitative real time PCR. Together, our results are beneficial for the elucidation of molecular mechanisms underlying the germination of A. camphorata arthroconidia.

Published
2017
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19. Bioassay-Guided Isolation of DPP-4 Inhibitory Fractions from Extracts of Submerged Cultured of Inonotus obliquus

Author

Jin-Song Shi, Zheng-Hong Xu, Hong-Yu Xu, Wei Huang, Yan Geng, and Zhen-Ming Lu

Subjects
Inonotus obliquus, DPP-4 inhibitor, bioassay-guided isolation, UPLC-Q-TOF-MS, molecular docking, Organic chemistry, QD241-441
Abstract

Inonotus obliquus is a medicinal mushroom used in Russian and Eastern European folk medicine for the treatment of gastrointestinal cancer, cardiovascular disease and diabetes. Previous studies in our laboratory have demonstrated that the mycelium powders of I. obliquus possess significant antihyperglycemic effects in a mouse model of diabetic disease induced by alloxan. However, the active ingredients of mycelium powders responsible for the diabetes activity have not been identified. This study aims to identify the active ingredients of I. obliquus mycelium powders by a bioassay-guided fractionation approach and explore the mechanism of action of these active ingredients by using a well-established DPP-4 (an important enzyme as a new therapeutic target for diabetes) inhibitory assay model. The results showed the chloroform extract of mycelium was potential inhibitory against DPP-4. Bioactivity guided fractionation led to the identification of 19 compounds using UPLC-Q-TOF-MS. Molecular docking between the compounds and DPP-4 revealed that compounds 5, 8, 9, 14, 15 may be the active components responsible for the DPP-4 inhibitory activity.

Published
2013
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20. Fungal His-tagged nitrilase from Gibberella intermedia: gene cloning, heterologous expression and biochemical properties.

Author

Jin-Song Gong, Heng Li, Xiao-Yan Zhu, Zhen-Ming Lu, Yan Wu, Jing-Song Shi, and Zheng-Hong Xu

Subjects
Medicine, Science
Abstract

BackgroundNitrilase is an important member of the nitrilase superfamiliy. It has attracted substantial interest from academia and industry for its function of converting nitriles directly into the corresponding carboxylic acids in recent years. Thus nitrilase has played a crucial role in production of commercial carboxylic acids in chemical industry and detoxification of nitrile-contaminated wastes. However, conventional studies mainly focused on the bacterial nitrilase and the potential of fungal nitrilase has been far from being fully explored. Research on fungal nitrilase gene expression will advance our understanding for its biological function of fungal nitrilase in nitrile hydrolysis.Methodology/principal findingsA fungal nitrilase gene from Gibberella intermedia was cloned through reverse transcription-PCR. The open reading frame consisted of 963 bp and potentially encoded a protein of 320 amino acid residues with a theoretical molecular mass of 35.94 kDa. Furthermore, the catalytic triad (Glu-45, Lys-127, and Cys-162) was proposed and confirmed by site-directed mutagenesis. The encoding gene was expressed in Escherichia coli Rosetta-gami (DE3) and the recombinant protein with His(6)-tag was purified to electrophoretic homogeneity. The purified enzyme exhibited optimal activity at 45°C and pH 7.8. This nitrilase was specific towards aliphatic and aromatic nitriles. The kinetic parameters V(max) and K(m) for 3-cyanopyridine were determined to be 0.81 µmol/min·mg and 12.11 mM through Hanes-Woolf plot, respectively. 3-Cyanopyridine (100 mM) could be thoroughly hydrolyzed into nicotinic acid within 10 min using the recombinant strain with the release of about 3% nicotinamide and no substrate was detected.Conclusions/significanceIn the present study, a fungal nitrilase was cloned from the cDNA sequence of G. intermedia and successfully expressed in E. coli Rosetta-gami (DE3). The recombinant strain displayed good 3-cyanopyridine degradation efficiency and wide substrate spectrum. This fungal nitrilase might be a potential candidate for industrial applications in carboxylic acids production.

Published
2012
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22. Pathway engineering facilitates efficient protein expression in Pichia pastoris

Author

Chao Liu, Jin-Song Gong, Chang Su, Hui Li, Heng Li, Zhi-Ming Rao, Zheng-Hong Xu, and Jin-Song Shi

Subjects
Proteomics, Saccharomycetales, General Medicine, Protein Engineering, Applied Microbiology and Biotechnology, Pichia, Recombinant Proteins, Molecular Chaperones, Biotechnology
Abstract

Pichia pastoris has been recognized as an important platform for the production of various heterologous proteins in recent years. The strong promoter AOX1, induced by methanol, with the help of the α-pre-pro signal sequence, can lead to a high expression level of extracellular protein. However, this combination was not always efficient, as protein secretion in P. pastoris involves numerous procedures mediated by several cellular proteins, including folding assisted by endoplasmic reticulum (ER) molecular chaperones, degradation through ubiquitination, and an efficient vesicular transport system. Efficient protein expression requires the cooperation of various intracellular pathways. This article summarizes the process of protein secretion, modification, and transportation in P. pastoris. In addition, the roles played by the key proteins in these processes and the corresponding co-expression effects are also listed. It is expected to lay the foundation for the industrial protein production of P. pastoris. KEY POINTS: • Mechanisms of chaperones in protein folding and their co-expression effects are summarized. • Protein glycosylation modifications are comprehensively reviewed. • Current dilemmas in the overall protein secretion pathway of Pichia pastoris and corresponding solutions are demonstrated.

Published
2022

23. Geometric Remodeling of Nitrilase Active Pocket Based on ALF-Scanning Strategy To Enhance Aromatic Nitrile Substrate Preference and Catalytic Efficiency

Author

Zi-Kai Wang, Jin-Song Gong, Dan-Ting Feng, Chang Su, Hui Li, Zhi-Ming Rao, Zhen-Ming Lu, Jin-Song Shi, and Zheng-Hong Xu

Subjects
Ecology, Applied Microbiology and Biotechnology, Food Science, Biotechnology
Abstract

In this study, the active pocket was largely remodeled based on the ALF-scanning strategy we developed. It is believed that ALF-scanning not only could be employed for substrate preference modification but might also play a role in protein engineering of other enzymatic properties, such as substrate region selectivity and substrate spectrum.

Published
2023

28. Spore Powder of

Author

Tianyue, Guan, Shuoshuo, Li, Qijie, Guan, Jin-Song, Shi, Zhen-Ming, Lu, Zheng-Hong, Xu, and Yan, Geng

Subjects
Spores, Mice, RNA, Ribosomal, 16S, Animals, Powders, Paecilomyces, Gastrointestinal Microbiome
Published
2022

31. Improving flavor, bioactivity, and changing metabolic profiles of goji juice by selected lactic acid bacteria fermentation

Author

Wenhui, Duan, Qijie, Guan, Hui-Ling, Zhang, Fang-Zhou, Wang, Ran, Lu, De-Mao, Li, Yan, Geng, and Zheng-Hong, Xu

Subjects
General Medicine, Food Science, Analytical Chemistry
Abstract

Lactic acid bacteria (LAB) have exhibited strain/species specificity for different food matrices. We investigated the impact of LAB fermentation on the flavor, chemical profile, and bioactivity of goji juice. The colony counts of five selected strains reached above 8.5 log CFU/mL. The fermentation increased the organic acids, decreased the sugars, and improved the sensory quality of goji juice. The majority of the strains had increased acetic acid, heptanoic acid, ethyl phenylacetate, and linalool levels. Specific strains suppressed α-glucosidase and pancreatic lipase activities and increased the antioxidant activities of fermented goji juice. Based on non-targeted metabolomics and activities, 23 important differential metabolites were screened among 453 metabolites. The quantification results showed that isoquercitrin and m-coumaric content varied among strains, reflecting the strain specificity in flavone and flavonol biosynthesis and phenylalanine, tyrosine, and tryptophan biosynthesis. These findings will provide useful information for fermented goji juice biochemistry research.

Published
2023

33. A keratin/chitosan sponge with excellent hemostatic performance for uncontrolled bleeding

Author

Rong-Rong Yan, Dai Xue, Chang Su, Yan Xu, Jin-Song Gong, Yan-Ling Liu, Min Jiang, Yan Geng, Guo-Zhong Lv, Zheng-Hong Xu, and Jin-Song Shi

Subjects
Chitosan, Hemostasis, Biocompatible Materials, Hemorrhage, Surfaces and Interfaces, General Medicine, Bandages, Hemostatics, Rats, Colloid and Surface Chemistry, Animals, Gelatin, Keratins, Physical and Theoretical Chemistry, Biotechnology
Abstract

Uncontrolled bleeding leads to a higher fatality rate in the situation of surgery, traffic accidents and warfare. Traditional hemostatic materials such as bandages are not ideal for uncontrolled or incompressible bleeding. Therefore, it is of great significance to develop a new medical biomaterial with excellent rapid hemostatic effect. Keratin is a natural, biocompatible and biodegradable protein which contains amino acid sequences that induce cell adhesion. As a potential biomedical material, keratin has been developed and paid attention in tissue engineering fields such as promoting wound healing and nerve repair. Herein, a keratin/chitosan (K/C) sponge was prepared to achieve rapid hemostasis. The characterizations of K/C sponge were investigated, including SEM, TGA, liquid absorption and porosity, showing that the high porosity up to 90.12 ± 2.17 % resulted in an excellent blood absorption. The cytotoxicity test and implantation experiment proved that the K/C sponge was biocompatible and biodegradable. Moreover, the prepared K/C sponge showed better hemostatic performance than chitosan sponge (CS) and the commercially available gelatin sponge in both rat tail amputation and liver trauma bleeding models. Further experiments showed that K/C sponge plays a hemostatic role through the endogenous coagulation pathway, thus shortening the activated partial thromboplastin time (APTT) effectively. Therefore, this study provided a K/C sponge which can be served as a promising biomedical hemostatic material.

Published
2022

35. Heterologous expression, fermentation strategies and molecular modification of collagen for versatile applications

Author

Zhi-Xiang Xiang, Jin-Song Gong, Heng Li, Wei-Ting Shi, Min Jiang, Zheng-Hong Xu, and Jin-Song Shi

Subjects
General Medicine, Industrial and Manufacturing Engineering, Food Science
Abstract

Collagen is a kind of high macromolecular protein with unique tissue distribution and distinctive functions in the body. At present, most collagen products are extracted from the tissues and organs of mammals or marine fish. However, this method exhibits several disadvantages, including low efficiency and serious waste generation, which makes it difficult to meet the current market demand. With the rapid development of synthetic biology and the deepening of high-density fermentation technology, the collagen preparation by biosynthesis strategy emerges as the times require. Co-expression with the proline hydroxylase gene can solve the problem of non-hydroxylated collagen, but the yield may be affected. Therefore, improving the expression through molecular modification and dynamic regulation of synthesis is an entry point for future research. Due to the defects in certain properties of the natural collagen, modification of properties would be benefit for meeting the requirements of practical application. In this paper, in-depth investigations on recombinant expression, fermentation, and modification studies of collagen are conducted. Also, it summarizes the research progress of collagen in food, medicine, and beauty industry in recent years. Furthermore, the future development trend and application prospect of collagen are discussed, which would provide guidance for its preparation and application.

Published
2021

37. Corrigendum

Author

Li-Juan, Chai, Guan-Yu, Fang, Peng-Xiang, Xu, Xiao-Juan, Zhang, Zhen-Ming, Lu, Su-Yi, Zhang, Song-Tao, Wang, Cai-Hong, Shen, Jin-Song, Shi, and Zheng-Hong, Xu

Published
2021

38. Preparation and applications of keratin biomaterials from natural keratin wastes

Author

Rong-Rong Yan, Jin-Song Gong, Chang Su, Yan-Ling Liu, Jian-Ying Qian, Zheng-Hong Xu, and Jin-Song Shi

Subjects
Wound Healing, Tissue Engineering, Wool, Animals, Humans, Keratins, Biocompatible Materials, General Medicine, Applied Microbiology and Biotechnology, Biotechnology
Abstract

Keratin is a kind of natural polymer that is abundant in feathers, wool, and hair. Being one of the natural biomolecules, keratin has excellent biological activity, biocompatibility, biodegradability, favorable material mechanical properties, and natural abundance, which exhibit significant biological and biomedical application potentials. At present, the strategies commonly used for preparing keratin from hair, feathers, wool, etc. include physical, chemical, and enzymatic methods. The present article mainly reviews the structure, classification, preparation methods, and the main biological applications of keratin, and these applications cover wound healing, hemostasis, targeted release of tissue engineering drugs, and so on. It is expected to lay the foundations for its future in-depth investigations and wide applications of keratin biomaterials. KEY POINTS: • There are several pathways to prepare biologically active keratin from wool, feathers, and human hair, etc • Promoting blood coagulation by keratin is related to the adhesion and activation of platelets and the aggregation of fibrin • The biological applications of keratin, including wound healing and tissue engineering, are summarized.

Published
2021

39. Insights into the source, mechanism and biotechnological applications of hyaluronidases

Author

Yue-Sheng, Zhang, Jin-Song, Gong, Zhi-Yuan, Yao, Jia-Yu, Jiang, Chang, Su, Heng, Li, Chuan-Li, Kang, Lei, Liu, Zheng-Hong, Xu, and Jin-Song, Shi

Subjects
Mammals, Animals, Humans, Hyaluronoglucosaminidase, Bioengineering, Hyaluronic Acid, Applied Microbiology and Biotechnology, Biotechnology
Abstract

It has long been found that hyaluronidases exist in a variety of organisms, playing their roles in various biological processes including infection, envenomation and metabolic regulation through degrading hyaluronan. However, exploiting them as a bioresource for specific applications had not been extensively studied until the latest decades. In recent years, new application scenarios have been developed, which extended the field of application, and emphasized the research value of hyaluronidase. This critical review comprehensively summarizes existing studies on hyaluronidase from different source, particularly in their structures, action patterns, and biological functions in human and mammals. Furthermore, we give in-depth insight into the resource mining and protein engineering process of hyaluronidase, as well as strategies for their high-level production, indicating that mixed strategies should be adopted to obtain well-performing hyaluronidase with efficiency. In addition, advances in application of hyaluronidase were summarized and discussed. Finally, prospects for future researches are proposed, highlighting the importance of further investigation into the characteristics of hyaluronidases, and the necessity of investigating their products for the development of their application value.

Published
2022

40. Spore Powder of Paecilomyces hepiali Shapes Gut Microbiota to Relieve Exercise-Induced Fatigue in Mice

Author

Tianyue Guan, Shuoshuo Li, Qijie Guan, Jin-Song Shi, Zhen-Ming Lu, Zheng-Hong Xu, and Yan Geng

Subjects
gut microbiota, Paecilomyces hepiali, anti-fatigue, spore, functional food, Nutrition and Dietetics, Food Science
Abstract

Paecilomyces hepiali, a fungal strain isolated from natural Ophiocordyceps sinensis, contains similar pharmacologically active components, has been used widely as a substitute of O. sinensis in functional food and medicine. However, the components and anti-fatigue effects of P.hepiali spores and their mechanisms of action are largely unknown. Here, we compared the chemical composition in P.hepiali spore (HPS) and mycelium (HPM) by liquid chromatography with tandem mass spectrometry analysis. We found 85 metabolites with significant differences, and HPS contains more L-Malic acid, Oxalacetic acid, Fructose-1,6-bisphosphate, and L-Arginine than HPM. Then we evaluated their anti-fatigue effects and regulatory effects on the gut microbiota in mice. The forced swimming time (SW) was only significantly increased in HPS groups: the high and low dose of the HPS group was 101% and 72% longer than the control group, respectively. Both HPS and HPM treatment decreased lactic acid, blood urea nitrogen, creatine kinase while increased lactate dehydrogenase (LDH) levels in the blood. Moreover, mice treated with HPS and HPM showed less skeletal muscle fiber spacing and breakage. The relative abundance of Alistips, Eubacterium, Bacterium, Parasutterella, and Olsenella in the gut microbiota of the HPS group was higher than that in the HPM group through 16S rRNA gene sequencing analysis. These changes may be related to the regulation of nucleotide, amino acid, and carbohydrate metabolism. Correlation analysis between the gut microbiota and fatigue-related indicators suggested that Alistips, Clostridium, Akkermansia, Olsenella, and Lactobacillus were positively correlated with the SW and LDH content. Our findings demonstrated that HPS has beneficial anti-fatigue effects by regulating gut microbiota.

Published
2022

41. Spatial heterogeneity of the microbiome and metabolome profiles of high-temperature Daqu in the same workshop

Author

Wei, Shi, Li-Juan, Chai, Guan-Yu, Fang, Jun-Lan, Mei, Zhen-Ming, Lu, Xiao-Juan, Zhang, Chen, Xiao, Song-Tao, Wang, Cai-Hong, Shen, Jin-Song, Shi, and Zheng-Hong, Xu

Subjects
Bacteria, Microbiota, Fermentation, Metabolome, Temperature, Humans, Food Science
Abstract

High-temperature Daqu, usually used as a fermentation starter for sauce-flavor Baijiu production, plays an essential role in the yield and flavor quality of Baijiu. The environmental heterogeneity of different locations in the workshop during fermentation led to the final production of Daqu with three different types (i.e., white, yellow, and black Daqu). How to use these three types of Daqu in Baijiu production mainly depends on the workers' experience so far. Here, we aimed to reveal the potential functions of different types of Daqu by comparing enzyme activity, volatile metabolites, and microbiota characteristics. White_Qu exhibited the highest liquefaction and saccharification enzyme activities, while the highest neutral proteinase and cellulase enzyme activities were detected in black_Qu. The total volatile content of yellow_Qu and black_Qu was roughly double that of white_Qu, and multivariate analysis revealed distinct volatile dissimilarities across different types of Daqu. Significant differences in bacterial and fungal community structures, assembly patterns, and potential functional profiles were discovered among different types of Daqu. At the genus level, Oceanobacillus and Thermomyces dominated the white_Qu microbiota, and the abundant microbes in yellow_Qu and black_Qu were scattered in Kroppenstedtia and Thermoascus. Bacterial and fungal communities were dominated by deterministic and stochastic assembly processes, respectively, suggesting that bacteria may be more affected by abiotic environmental factors and species interaction than fungi. Co-occurrence network analysis showed positive correlations characterized Daqu microbial networks, and network topological features indicated stronger interactions between bacterial taxa compared with fungal community. The Spearman correlation analysis revealed that four bacterial genera (Kroppenstedtia, Virgibacillus, Scopulibacillus, and Staphylococcus) and two fungal genera (Thermoascus and Aspergillus) exhibited positive correlations with almost all of the abundant volatiles. This work reveals that spatially varying environments lead to the microbiome and metabolome heterogeneity of high-temperature Daqu in the same workshop.

Published
2022

42. Influence of Short-Term Consumption of

Author

Xiao-Qian, Xie, Yan, Geng, Qijie, Guan, Yilin, Ren, Lin, Guo, Qiqi, Lv, Zhen-Ming, Lu, Jin-Song, Shi, and Zheng-Hong, Xu

Subjects
Adult, Male, Hericium, Gout, kidney stones, Pilot Projects, digestive system, Kineothrix alysoides, Article, Feces, Kidney Calculi, RNA, Ribosomal, 16S, Humans, Hericium erinaceus, Bacteria, gut microbiota, Faecalibacterium prausnitzii, Alkaline Phosphatase, Fatty Acids, Volatile, Inflammatory Bowel Diseases, Gastrointestinal Microbiome, Uric Acid, medicinal mushroom, Lipoproteins, LDL, Creatinine, dietary regulation, Food, Fortified, Female, Biomarkers
Abstract

Hericium erinaceus (H. erinaceus) is widely studied as a medicinal and edible fungus. Recent studies have shown that H. erinaceus has protective effects for diseases, such as inflammatory bowel disease and cancer, which are related to gut microbiota. To investigate the benefits of H. erinaceus intake on gut microbiota and blood indices in adulthood, we recruited 13 healthy adults to consume H. erinaceus powder as a dietary supplement. Blood changes due to H. erinaceus consumption were determined by routine hematological examination and characterized by serum biochemical markers. Microbiota composition was profiled by 16S ribosomal RNA gene sequencing. Results showed that daily H. erinaceus supplementation increased the alpha diversity within the gut microbiota community, upregulated the relative abundance of some short-chain fatty acid (SCFA) producing bacteria (Kineothrix alysoides, Gemmiger formicilis, Fusicatenibacter saccharivorans, Eubacterium rectale, Faecalibacterium prausnitzii), and downregulated some pathobionts (Streptococcus thermophilus, Bacteroides caccae, Romboutsia timonensis). Changes within the gut microbiota were correlated with blood chemical indices including alkaline phosphatase (ALP), low-density lipoprotein (LDL), uric acid (UA), and creatinine (CREA). Thus, we found that the gut microbiota alterations may be part of physiological adaptations to a seven-day H. erinaceus supplementation, potentially influencing beneficial health effects.

Published
2021

43. Protective Effect of Spore Powder of

Author

Yilin, Ren, Hua-Xiang, Li, Lingxi, Zhou, Zhen-Ming, Lu, Jinsong, Shi, Yan, Geng, and Zheng-Hong, Xu

Subjects
Liver Cirrhosis, Male, Spores, Mice, Inbred BALB C, immunity, Antioxidants, Article, Disease Models, Animal, Mice, Liver, liver damage, Animals, hepatic stellate cells, Polyporales, Antrodia camphorata spore, Carbon Tetrachloride
Abstract

Liver fibrosis is a pathological process with intrahepatic diffused deposition of the excess extracellular matrix, which leads to various chronic liver diseases. Drugs with high efficacy and low toxicity for liver fibrosis are still unavailable. Antrodia camphorata has antioxidant, antivirus, antitumor and anti-inflammation roles, and has been used to treat liver diseases in the population. However, the hepatoprotective effects of A. camphorata spores and the mechanisms behind it have not been investigated. In this study, we evaluate the hepatoprotective effect of spore powder of A. camphorata (SP, 100 mg/kg/day or 200 mg/kg/day) on carbon tetrachloride (CCl4)-induced liver fibrosis in mice. SP groups reduced serum aspartate aminotransferase (AST) and alanine aminotransferase (ALT) activities compared with the CCl4 group. SP also showed a decrease in hydroxyproline (Hyp) content in liver tissues. SP improved cell damage and reduced collagen deposition by H&E, Sirius red and Masson staining. Furthermore, SP down-regulated the mRNA levels of α-SMA and Col 1, and the protein expression of α-smooth muscle actin (α-SMA), collagen I (Col 1), tumor necrosis factor alpha (TNF-α), toll like receptor 4 (TLR4) and nuclear factor-Κb (NF-κB) p65. In summary, SP has an ameliorative effect on hepatic fibrosis, probably by inhibiting the activation of hepatic stellate cells, reducing the synthesis of extracellular matrix.

Published
2020

44. Combined effects of fermentation starters and environmental factors on the microbial community assembly and flavor formation of Zhenjiang aromatic vinegar

Author

Ting, Huang, Zhen-Ming, Lu, Ming-Ye, Peng, Zhuo-Fei, Liu, Li-Juan, Chai, Xiao-Juan, Zhang, Jin-Song, Shi, Qi, Li, and Zheng-Hong, Xu

Subjects
Bacteria, Microbiota, Fermentation, Acetobacter, Humans, Acetic Acid, Food Science
Abstract

Microbial ecosystems of fermented foods are largely interfered by human activities in myriad ways. The aim of this study was to illuminate the impacts of various starters and environmental variables on the fermentation process of Zhenjiang aromatic vinegar (ZAV), one of the four representative cereal vinegars in China. The effects of environmental variables (e.g., ethanol, total acidity, temperature) and starters (e.g., jiuqu, maiqu, seed pei) on the profiles of microbiome and metabolome (e.g., organic acids, amino acids and volatiles) during fermentation process of ZAV were analyzed. Amongst the four fermentation stages, acetic acid fermentation was the main stage for the accumulation of flavor substances, and subsequently, the contents of acids (mainly acetic, lactic and citric acids) and volatile metabolites (e.g., 2,3-butanedione, acetoin, etc.) continued to enrich in sealed fermentation stage. Principal coordinate analysis (PCoA) and analysis of similarities (ANOSIM) showed that the fungal and bacterial community structures of four fermentation stages were significantly different. As for bacterial community, the dominant OTUs with average relative abundance over 10% in at least one fermentation stage were assigned to the genera Acetilactobacillus, Acetobacter, Acinetobacter, Aeromonas, Lactobacillus, and Pseudomonas. The dominant fungal populations in each fermentation stage were obviously divergent, including Wickerhamomyces, Saccharomyces, Alternaria, Fusarium, etc. SourceTracker analysis demonstrated that jiuqu and seed pei provided microorganisms to initiate starch saccharification and acetic acid fermentation stages, respectively, and maiqu was mainly the donor of enzymes in alcohol fermentation. Spearman correlation coefficients revealed positive relationships between fungal community and various flavor metabolites, indicating the essential role of fungi in the flavor formation of ZAV. This study systematically reveals the effects of fermentation starters and environmental variables on vinegar production and deepens the understanding of the traditional production craft.

Published
2022

46. Two-Stage Semi-Continuous 2-Keto-Gluconic Acid (2KGA) Production by

Author

Lei, Sun, Da-Ming, Wang, Wen-Jing, Sun, Feng-Jie, Cui, Jin-Song, Gong, Xiao-Mei, Zhang, Jin-Song, Shi, and Zheng-Hong, Xu

Subjects
fermentation performance, two-stage semi-continuous fermentation, Bioengineering and Biotechnology, rice starch hydrolyzate, 2-Keto-gluconic acid, Pseudomonas plecoglossicida, Original Research
Abstract

A two-stage semi-continuous strategy for producing 2-keto-gluconic acid (2KGA) by Pseudomonas plecoglossicida JUIM01 from rice starch hydrolyzate (RSH) has been developed. The initial glucose concentration (140 g/L) was selected for first-stage fermentation due to its highest 2KGA productivity of 7.58 g/(L⋅h), cell weight of 3.91 g/L, and residual glucose concentration of 25.00 g/L. Followed by removing 70.0% (v/v) of the first-stage broth and feeding 400.0 g/L of glucose to the second-stage fermentor, a total of 50680.0 g glucose was consumed, and 50005.20 g 2KGA was obtained with a yield of 0.9867 g/g by P. plecoglossicida JUIM01 after a 3-cycle two-stage semi-continuous fermentation. Our results indicated that the developed two-stage semi-continuous fermentation could be industrially applied due to its high 2KGA concentration, 2KGA yield and operation efficiency.

Published
2019

47. Promotion of Metabolite Synthesis in

Author

Yan-Jie, Chunyu, Zhen-Ming, Lu, Zhi-Shan, Luo, Shuo-Shuo, Li, Hui, Li, Yan, Geng, Hong-Yu, Xu, Zheng-Hong, Xu, and Jin-Song, Shi

Subjects
Hemiptera, Adenosine, Mycelium, Microbiota, Cordyceps, Host-Pathogen Interactions, Pupa, Animals, Fruiting Bodies, Fungal, Amino Acids
Abstract

Cicada flowers, which are edible and medicinal mushrooms, are the fruiting bodies of

Published
2019

50. Biocatalysis

Author

Jin-Song Shi, Jin-Song Gong, and Zheng-Hong Xu

Subjects
chemistry.chemical_compound, chemistry, Biocatalysis, Organic chemistry, Organic synthesis
Published
2016

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