Your search keyword '"metagenomic sequencing"' showing total 1,441 results

1. Crosstalk between gut microbiota and tumor: tumors could cause gut dysbiosis and metabolic imbalance.

Author

Zhang, Siyuan, Wen, Haimei, Chen, Ying, Ning, Jingya, Hu, Di, Dong, Yujiao, Yao, Chenyu, Yuan, Bo, and Yang, Shuanying

Abstract

Gut microbiota has a proven link with the development and treatment of cancer. However, the causality between gut microbiota and cancer development is still unknown and deserves exploration. In this study, we aimed to explore the alterations in gut microbiota in murine tumor models and the crosstalk between the tumor and the gut microbiota. The subcutaneous and intravenous murine tumor models using both the colorectal cancer cell line MC38 and lung cancer cell line LLC were constructed. Then fecal samples before and after tumor inoculation were collected for whole metagenomics sequencing. Both subcutaneous and metastatic tumors markedly elevated the α‐diversity of the gut microbiota. Relative abundance of Ligilactobacillus and Lactobacillus was reduced after subcutaneously inoculating tumor cells, whereas Bacteroides and Duncaniella were reduced in metastatic tumors, regardless of tumor type. At the species level, Lachnospiraceae bacterium was enriched after both subcutaneous and intravenous tumors inoculation, whereas levels of Muribaculaceae bacterium Isolate‐110 (HZI), Ligilactobacillus murinus and Bacteroides acidifaciens reduced. Metabolic function analysis showed that the reductive pentose phosphate cycle, urea cycle, ketone body biosynthesis, ectoine biosynthesis, C4‐dicarboxylic acid cycle, isoleucine biosynthesis, inosine 5′‐monophosphate (IMP), and uridine 5′‐monophosphate (UMP) biosynthesis were elevated after tumor inoculation, whereas the cofactor and vitamin biosynthesis were deficient. Principal coordinates analysis (PCoA) showed that subcutaneous and metastatic tumors partially shared the same effect patterns on gut microbiota. Furthermore, fecal microbiota transplantation revealed that this altered microbiota could influence tumor growth. Taken together, this study demonstrated that both colorectal cancer (MC38) and non‐colorectal cancer (LLC) can cause gut dysbiosis and metabolic imbalance, regardless of tumor type and process of tumor inoculation, and this dysbiosis influenced the tumor growth. This research gives novel insights into the crosstalk between tumors and the gut microbiota. [ABSTRACT FROM AUTHOR]

Published

2024

2. Identification and Genetic Analysis of Species D Rotaviruses in Pangolin Samples.

Author

Wang, Kai, Liu, Shasha, Liang, Xiaotong, Hu, Wanke, Wen, Zhenyu, Wang, Jiayi, Wang, Xianghe, An, Fuyu, Chen, Ziqiao, Yan, Haikuo, Yan, Hongmei, Wang, Lei, Zhang, Xiaoai, Yu, Jieshi, Wei, Wen-Kang, Hua, Yan, and Al Salihi, Karima

Abstract

Pangolins have been found to carry severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2)‐related coronaviruses. In light of this discovery, interest has been piqued in viromes of these heavily trafficked wild animals. In this study, we performed viral metagenomic sequencing to explore viromes of both confiscated dead pangolins and captive healthy pangolins. Sequence reads of vertebrate‐associated viruses in Herpesviridae, Retroviridae, Iridoviridae, Reoviridae, Arenaviridae, and Flaviviridae were detected in confiscated dead pangolins. A novel rotavirus (RV) (Reoviridae), showing a high degree of genetic similarity to the RV species D (RVD) that was previously unreported in mammals, was further confirmed by using reverse transcription‐polymerase chain reaction (RT‐PCR) and Sanger sequencing. Three out of 18 samples from the confiscated dead pangolins were positive for genomic sequences of the novel RV. Importantly, sequence alignments and phylogenetic analyses demonstrated that these RV strains genetically belonged to the RVD. Nevertheless, these novel RVD strains were divergent from known RVD strains that have been found only in Avian. They formed a separate genetic cluster. Five serial passages were attempted to isolate the RV, but no live virus was obtained. In addition, fecal samples were collected from healthy pangolins (n = 41) in our institution and screened for RVs by viral metagenomic sequencing and RT‐PCR. In these fecal samples, neither species D nor previously identified species A RVs were detected. This study reported RVDs in pangolin samples for the first time to our knowledge. Identifiability disagreements between wild and captive pangolins highlight the need for further exploration into pangolin viruses to better understand their emergence and transmission potential. [ABSTRACT FROM AUTHOR]

Published

2024

3. Comparison of microbial diversity and carbohydrate-active enzymes in the hindgut of two wood-feeding termites, Globitermes sulphureus (Blattaria: Termitidae) and Coptotermes formosanus (Blattaria: Rhinotermitidae).

Author

Zhang, Zhidong, Wang, Kai, Zou, Chuanshan, Zhao, Ting, Wu, Wenbin, Wang, Cai, and Hua, Yan

Subjects

*PULLULANASE, *GLYCOSIDASES, *COCKROACHES, *GUT microbiome, *MICROBIAL diversity

Abstract

Background: Wood-feeding termites have been employed as sources of novel and highly efficient lignocellulolytic enzymes due to their ability to degrade lignocellulose efficiently. As a higher wood-feeding termite, Globitermes sulphureus (Blattaria: Termitidae) plays a crucial role as a decomposer in regions such as Vietnam, Singapore, Myanmar, and Yunnan, China. However, the diversity of its gut microbiome and carbohydrate-active enzymes (CAZymes) remains unexplored. Here, we analyzed the diversity of hindgut microbial communities and CAZymes in a higher wood-feeding termite, G. sulphureus, and a lower wood-feeding termite, Coptotermes formosanus (Blattaria: Rhinotermitidae). Results: 16S rRNA sequencing revealed that Spirochaetota, Firmicutes, and Fibrobacterota were the dominant microbiota in the hindgut of the two termite species. At the phylum level, the relative abundances of Proteobacteria and Bacteroidota were significantly greater in the hindgut of C. formosanus than in G. sulphureus. At the genus level, the relative abundances of Candidatus_Azobacteroides and Escherichia-Shigella were significantly lower in the hindgut of G. sulphureus than in C. formosanus. Metagenomic analysis revealed that glycoside hydrolases (GHs) with cellulases and hemicellulases functions were not significantly different between G. sulphureus and C. formosanus. Interestingly, the cellulases in G. sulphureus were mainly GH5_2, GH5_4, GH6, GH9, and GH45, while the hemicellulases were mainly GH11, GH8, GH10, GH11, GH26, and GH53. In C. formosanus, the cellulases were mainly GH6 and GH9, and the hemicellulases were mainly GH5_7, GH5_21, GH10, GH12, and GH53. In addition, β-glucosidase, exo-β-1,4-glucanase, and endo-β-1,4-glucanase activities did not differ significantly between the two termite species, while xylanase activity was higher in G. sulphureus than in C. formosanus. The bacteria encoding GHs in G. sulphureus were mainly Firmicutes, Fibrobacterota, and Proteobacteria, whereas Bacteroidota and Spirochaetota were the main bacteria encoding GHs in C. formosanus. Conclusions: Our findings characterized the microbial composition and differences in the hindgut microbiota of G. sulphureus and C. formosanus. Compared to C. formosanus, G. sulphureus is enriched in genes encoding for hemicellulase and debranching enzymes. It also highlights the rich diversity of GHs in the hindgut microbiota of G. sulphureus, including the GH5 subfamily, GH6, and GH48, with the GH6 and GH48 not previously reported in other higher termites. These results strengthen the understanding of the diversity of termite gut microbiota and CAZymes. [ABSTRACT FROM AUTHOR]

Published

2024

4. 器官移植受者诺卡菌病诊疗进展.

Author

巨春蓉, 门同义, 薛武军, and 李时悦

Abstract

Nocardiosis is a collective term for tissue and organ damage caused by Nocardia infection. Solid organ transplant recipients (SOTR) are at an increased risk of various pathogen infections, including Nocardia infection, due to immunosuppressive therapy which weakens their immune function. The diagnosis of nocardiosis has been challenging in the past. With the advent of molecular biology and other diagnostic methods, the diagnostic rate has significantly improved. Nocardia not only prone to cause necrotic pulmonary lesions but also invade other organs and tissues, such as intracranial infections and skin soft tissue infections, and can develop into systemic disseminated infections. For SOTR, nocardiosis is a potentially fatal disease with a fatality as high as 30%. Therefore, this article reviews the clinical characteristics of common nocardiosis in SOTR, new diagnostic technologies, and different anti-infective treatment strategies, aiming to provide a reference for the prevention and treatment of nocardiosis in clinical SOTR. [ABSTRACT FROM AUTHOR]

Published

2024

5. Metagenomic insight into the soil microbial functions across land uses.

Author

Yang, Pu, Yuan, Miaomiao, Qu, Chaofan, Li, Jiayang, Hua, Ruyu, Zhao, Shaojie, Zhang, Ben, and Zhang, Lizhen

Abstract

Purpose: Microbial community composition in soil is shaped by land uses. In this study, we aimed to investigate the influences of land uses on functional gene profiles. Methods: The soil was sampled from three different types of land use. The metagenomic DNA was sequenced by Illumina shotgun sequencing. The functional gene profiles were annotated by NR, KEGG, CAZyme, CARD, VFDB and PHI databases. Results: The results showed that agriculture soil showed significantly higher ACE and Chao1 indexes in terms of taxonomic and functional genes composition than that in forest soil and park soil. PCoA and multivariate analysis indicated the influence of land use on taxonomic composition, KEGG ortholog, carbohydrate-active enzymes, antibiotic resistance genes, virulence factors and pathogen-host interaction genes. Mantel test results demonstrated that organic carbon and phosphorus are critical drivers that shape taxonomic and functional gene compositions across different land uses. Human- and phyto-pathogens were indigenously present in soils and their compositions were influenced by land use. Conclusion: Collectively, our data demonstrate that land use impacts soil microbial taxonomic and functional composition via organic carbon and phosphorus, and imply the importance of land use management in soil function and soil health. [ABSTRACT FROM AUTHOR]

Published

2024

6. Metagenomic insights into plasmid-mediated antimicrobial resistance in poultry slaughterhouse wastewater: antibiotics occurrence and genetic markers.

Author

de Farias, Beatriz Oliveira, Saggioro, Enrico Mendes, Montenegro, Kaylanne S., Magaldi, Mariana, Santos, Hugo Sérgio Oliveira, Gonçalves-Brito, Andressa Silva, Pimenta, Ramon Loureiro, Ferreira, Rosana Gomes, Spisso, Bernardete Ferraz, Pereira, Mararlene Ulberg, Bianco, Kayo, and Clementino, Maysa Mandetta

Subjects

LIQUID chromatography-mass spectrometry, MOBILE genetic elements, SEWAGE disposal plants, HIGH performance liquid chromatography, WATER treatment plants

Abstract

Slaughterhouse wastewater represents important convergence and concentration points for antimicrobial residues, bacteria, and antibiotic resistance genes (ARG), which can promote antimicrobial resistance propagation in different environmental compartments. This study reports the assessment of the metaplasmidome-associated resistome in poultry slaughterhouse wastewater treated by biological processes, employing metagenomic sequencing. Antimicrobial residues from a wastewater treatment plant (WWTP) that treats poultry slaughterhouse influents and effluents were investigated through high-performance liquid chromatography coupled to tandem mass spectrometry (HPLC–MS/MS). Residues from the macrolide, sulfonamide, and fluoroquinolone classes were detected, the latter two persisting after the wastewater treatment. The genetic markers 16S rRNA rrs (bacterial community) and uidA (Escherichia coli) were investigated by RT-qPCR and the sul1 and int1 genes by qPCR. After treatment, the 16S rRNA rrs, uidA, sul1, and int1 markers exhibited reductions of 0.67, 1.07, 1.28, and 0.79 genes copies, respectively, with no statistical significance (p > 0.05). The plasmidome-focused metagenomics sequences (MiSeq platform (Illumina®)) revealed more than 100 ARG in the WWTP influent, which can potentially confer resistance to 14 pharmacological classes relevant in the human and veterinary clinical contexts, in which the qnr gene (resistance to fluoroquinolones) was the most prevalent. Only 7.8% of ARG were reduced after wastewater treatment, and the remaining 92.2% were associated with an increase in the prevalence of ARG linked to multidrug efflux pumps, substrate-specific for certain classes of antibiotics, or broad resistance to multiple medications. These data demonstrate that wastewater from poultry slaughterhouses plays a crucial role as an ARG reservoir and in the spread of AMR into the environment. [ABSTRACT FROM AUTHOR]

Published

2024

7. Response of the gut microbiota to changes in the nutritional status of red deer during winter.

Author

Guo, Jinhao, Li, Zheng, Liu, Xinxin, Jin, Yongchao, Sun, Yue, Yuan, Ziao, Zhang, Weiqi, Wang, Jialong, and Zhang, Minghai

Subjects

*NUTRITIONAL assessment, *RED deer, *WILDLIFE conservation, *NUTRITIONAL status, *LIPID metabolism, *METAGENOMICS

Abstract

Unravelling abrupt alterations in the gut microbiota of wild species associated with nutritional stress is imperative but challenging for wildlife conservation. This study assessed the nutritional status of wild red deer during winter on the basis of changes in faecal nitrogen (FN) and urea nitrogen/creatinine (UN: C) levels and identified gut microbes associated with nutritional status via nutritional control experiments and metagenomic sequencing. The FN of wild red deer in winter 2022 was significantly lower than that in winter 2021 (p < 0.05, winter 2021: 1.37 ± 0.16% and winter 2022: 1.26 ± 0.22%), and the UN: C ratio increased (winter 2021: 2.19 ± 1.65 and winter 2022: 3.05 ± 3.50). Similar trends were found in late winter, which indicated greater nutritional pressure in winter (2022) and late winter. Compared with winter 2021, abundances of Ructibacterium and Butyrivibrio significantly increased, and Acetatifactor and Cuneatibacter significantly decreased during winter 2022 (p < 0.05). Compared with early winter, the cell growth and death pathways increased and lipid metabolism and its subpathway of secondary bile acid synthesis (ko00121) significantly decreased during late winter (p < 0.05), which was similar to the changes in malnourished experimental red deer. Abrupt alterations in the gut microbiota should receive increased attention when monitoring the nutritional health of wild ungulates. This study provides new insights and critical implications for the conservation of wild ungulate populations. [ABSTRACT FROM AUTHOR]

Published

2024

8. 城镇复合型污水处理厂水质监测与微生物分析.

Author

王竟全, 王童, 张栋年, 孟先斌, 吴天明, 蔚静雯, 王 张文, 何泽忠, 宋梦婕, 孔春才, 杨志懋, 毛娟, 朱 斐, and 朱 浩

Abstract

Urban complex sewage treatment plants play a vital role in modern society. The biochemical section is the core part of wastewater treatment and relies on a diverse microbial community to efficiently remove contaminants such as organics, nitrogen and phosphorus. Herein, the process water quality and microbial gene data of Urban complex sewage treatment plant L in the Yangtze River basin were systematically analyzed. The water quality at inlet and outlet the wastewater treatment plant, as well as the water quality at each stage of the treatment process, were continuously monitored, with particular focus on the biochemical section. By integrating operational and monitoring data, an assessment of the actual performance of the sewage treatment plant was conducted to identify areas for improvement. The in- let water of industrial wastewater did not have an impact on the Urban complex sewage treatment plant L, the operation of each process section was basically stable, and the effluent water quality was basically up to standard. Furthermore, the metagenomic sequencing technology is used to study the microbial community structure of activated sludge samples from the oxidation ditch of sewage treatment plant L. The results showed that there were microorganisms with different functions in the oxidation ditch. The diversity and relative abundance of microorganisms show differences between regions, and this difference reflects their ability to adapt to different environmental conditions. Through ecometabolomics analysis, the functional characteristics of microbial communities are explored. Different microbial species play their respective roles in key biochemical processes such as organic matter degradation, nitrogen removal, and phosphorus removal. By analyzing the monitoring data and studying the genes of the microbial community, a comprehensive evaluation and diagnosis of the sewage treatment plant's operation can be achieved. [ABSTRACT FROM AUTHOR]

Published

2024

9. Unveiling the Hidden Responses: Metagenomic Insights into Dwarf Bamboo (Fargesia denudata) Rhizosphere under Drought and Nitrogen Challenges.

Author

Xiang, Jun, Zhang, Nannan, Li, Jiangtao, Zhu, Yue, Cao, Tingying, and Wang, Yanjie

Subjects

*PHOSPHATE metabolism, *CLIMATE change, *GIANT panda, *MICROBIAL enzymes, *INOSITOL phosphates, *NITROGEN cycle, *RHIZOSPHERE microbiology

Abstract

Dwarf bamboo (Fargesia denudata) is a crucial food source for the giant pandas. With its shallow root system and rapid growth, dwarf bamboo is highly sensitive to drought stress and nitrogen deposition, both major concerns of global climate change affecting plant growth and rhizosphere environments. However, few reports address the response mechanisms of the dwarf bamboo rhizosphere environment to these two factors. Therefore, this study investigated the effects of drought stress and nitrogen deposition on the physicochemical properties and microbial community composition of the arrow bamboo rhizosphere soil, using metagenomic sequencing to analyze functional genes involved in carbon and nitrogen cycles. Both drought stress and nitrogen deposition significantly altered the soil nutrient content, but their combination had no significant impact on these indicators. Nitrogen deposition increased the relative abundance of the microbial functional gene nrfA, while decreasing the abundances of nirK, nosZ, norB, and nifH. Drought stress inhibited the functional genes of key microbial enzymes involved in starch and sucrose metabolism, but promoted those involved in galactose metabolism, inositol phosphate metabolism, and hemicellulose degradation. NO3−-N showed the highest correlation with N-cycling functional genes (p < 0.01). Total C and total N had the greatest impact on the relative abundance of key enzyme functional genes involved in carbon degradation. This research provides theoretical and technical references for the sustainable management and conservation of dwarf bamboo forests in giant panda habitats under global climate change. [ABSTRACT FROM AUTHOR]

Published

2024

10. Oral Lactobacillus zeae exacerbates the pathological manifestation of periodontitis in a mouse model.

Author

Chen, Yi‐Wen, Hou, Yu‐Wen, Wang, Chuang‐Wei, Cheng, Shih‐Jung, Kuo, Wei‐Ting, Lin, Chun‐Pin, and Hou, Hsin‐Han

Subjects

*BONE resorption, *HEMATOXYLIN & eosin staining, *ACID phosphatase, *PORPHYROMONAS gingivalis, *GINGIVAL fluid, *DENTAL plaque

Abstract

Introduction: The worldwide prevalence of periodontitis is considerably high, and its pathogenic mechanisms must be investigated and understood in order to improve clinical treatment outcomes and reduce the disease prevalence and burden. The exacerbation of the host immune system induced by oral microbial dysbiosis and the subsequent tissue destruction are the hallmarks of the periodontitis. However, the oral bacteria involved in periodontitis are not fully understood. We used the Oxford Nanopore Technologies (ONT) sequencing system to analyze metagenomic information in subgingival dental plaque from periodontitis and non‐periodontitis patients. The number of Lactobacillus zeae (L. zeae) in the periodontitis patients was 17.55‐fold higher than in the non‐periodontitis patients, suggesting that L. zeae is a novel periodontitis‐associated pathogen. Although several Lactobacillus species are used in vivo as probiotics to treat periodontitis and compete with Porphyromonas gingivalis (P. gingivalis), the roles of L. zeae in periodontitis progression, and the relationship between L. zeae and P. gingivalis needs to be investigated. Methods: Both L. zeae and P. gingivalis were inoculated in the ligature‐implant site of periodontitis mice. We collected mouse gingival crevicular fluid to analyze inflammatory cytokine secretion using a multiplex assay. Intact or sliced mouse maxilla tissue was used for micro‐computed tomography analysis or hematoxylin and eosin staining, immunohistochemistry, and tartrate‐resistant acid phosphatase staining to evaluate alveolar bone loss, neutrophil infiltration, and osteoclast activation, respectively. Results: We observed that L. zeae competed with P. gingivalis, and it increased inflammatory cytokine secretion at the ligature‐implant site. Similar to P. gingivalis, L. zeae promoted ligature‐induced neutrophile infiltration, osteoclast activation, and alveolar bone loss. Discussion: We, therefore, concluded that L. zeae accelerated the progression of periodontitis in the ligature‐induced periodontitis mouse model. [ABSTRACT FROM AUTHOR]

Published

2024

11. Trait-based study predicts glycerol/diol dehydratases as a key function of the gut microbiota of hindgut-fermenting carnivores.

Author

Li, Qing, Ruscheweyh, Hans-Joachim, Østergaard, Lærke Hartmann, Libertella, Micael, Simonsen, Kim Skalborg, Sunagawa, Shinichi, Scoma, Alberto, and Schwab, Clarissa

Subjects

CAPTIVE wild animals, GUT microbiome, ANIMAL species, MICROBIAL communities, GENE clusters, GLYCOLS, MICROBIAL metabolites

Abstract

Background: Microbial pdu and cob-cbi-hem gene clusters encode the key enzyme glycerol/diol dehydratase (PduCDE), which mediates the transformation of dietary nutrients glycerol and 1,2-propanediol (1,2-PD) to a variety of metabolites, and enzymes for cobalamin synthesis, a co-factor and shared good of microbial communities. It was the aim of this study to relate pdu as a multipurpose functional trait to environmental conditions and microbial community composition. We collected fecal samples from wild animal species living in captivity with different gut physiology and diet (n = 55, in total 104 samples), determined occurrence and diversity of pdu and cob-cbi-hem using a novel approach combining metagenomics with quantification of metabolic and genetic biomarkers, and conducted in vitro fermentations to test for trait-based activity. Results: Fecal levels of the glycerol transformation product 1,3-propanediol (1,3-PD) were higher in hindgut than foregut fermenters. Gene-based analyses indicated that pduC harboring taxa are common feature of captive wild animal fecal microbiota that occur more frequently and at higher abundance in hindgut fermenters. Phylogenetic analysis of genomes reconstructed from metagenomic sequences identified captive wild animal fecal microbiota as taxonomically rich with a total of 4150 species and > 1800 novel species but pointed at only 56 species that at least partially harbored pdu and cbi-cob-hem. While taxonomic diversity was highest in fecal samples of foregut-fermenting herbivores, higher pduC abundance and higher diversity of pdu/cbi-cob-hem related to higher potential for glycerol and 1,2-PD utilization of the less diverse microbiota of hindgut-fermenting carnivores in vitro. Conclusion: Our approach combining metabolite and gene biomarker analysis with metagenomics and phenotypic characterization identified Pdu as a common function of fecal microbiota of captive wild animals shared by few taxa and stratified the potential of fecal microbiota for glycerol/1,2-PD utilization and cobalamin synthesis depending on diet and physiology of the host. This trait-based study suggests that the ability to utilize glycerol/1,2-PD is a key function of hindgut-fermenting carnivores, which does not relate to overall community diversity but links to the potential for cobalamin formation. 5QUW1NVLR3PN1Ur7W1hKTu Video Abstract [ABSTRACT FROM AUTHOR]

Published

2024

12. Metagenomic profiling of gut microbiota in Fall Armyworm (Spodoptera frugiperda) larvae fed on different host plants.

Author

Wu, Li-hong, Hu, Chao-xing, and Liu, Tong-xian

Subjects

*FALL armyworm, *AMINO acid metabolism, *GUT microbiome, *HOST plants, *STARCH metabolism, *CAPSICUM annuum

Abstract

Background: The fall armyworm (FAW, Spodoptera frugiperda) is a polyphagous pest known for causing significant crop damage. The gut microbiota plays a pivotal role in influencing the biology, physiology and adaptation of the host. However, understanding of the taxonomic composition and functional characteristics of the gut microbiota in FAW larvae fed on different host plants remains limited. Methods: This study utilized metagenomic sequencing to explore the structure, function and antibiotic resistance genes (ARGs) of the gut microbiota in FAW larvae transferred from an artificial diet to four distinct host plants: maize, sorghum, tomato and pepper. Results: The results demonstrated significant variations in gut microbiota structure among FAW larvae fed on different host plants. Firmicutes emerged as the dominant phylum, with Enterococcaceae as the dominant family and Enterococcus as the prominent genus. Notably, Enterococcus casseliflavus was frequently observed in the gut microbiota of FAW larvae across host plants. Metabolism pathways, particularly those related to carbohydrate and amino acid metabolism, played a crucial role in the adaptation of the FAW gut microbiota to different host plants. KEGG orthologs associated with the regulation of the peptide/nickel transport system permease protein in sorghum-fed larvae and the 6-phospho-β-glucosidase gene linked to glycolysis/gluconeogenesis as well as starch and sucrose metabolism in pepper-fed larvae were identified. Moreover, the study identified the top 20 ARGs in the gut microbiota of FAW larvae fed on different host plants, with the maize-fed group exhibiting the highest abundance of vanRC. Conclusions: Our metagenomic sequencing study reveals significant variations in the gut microbiota composition and function of FAW larvae across diverse host plants. These findings underscore the intricate co-evolutionary relationship between hosts and their gut microbiota, suggesting that host transfer profoundly influences the gut microbiota and, consequently, the adaptability and pest management strategies for FAW. [ABSTRACT FROM AUTHOR]

Published

2024

13. Evaluation of Commercial RNA Extraction Protocols for Avian Influenza Virus Using Nanopore Metagenomic Sequencing.

Author

Chaves, Maria, Hashish, Amro, Osemeke, Onyekachukwu, Sato, Yuko, Suarez, David L., and El-Gazzar, Mohamed

Subjects

*AVIAN influenza A virus, *VIRUS identification, *AVIAN influenza, *NUCLEIC acids, *POULTRY industry

Abstract

Avian influenza virus (AIV) is a significant threat to the poultry industry, necessitating rapid and accurate diagnosis. The current AIV diagnostic process relies on virus identification via real-time reverse transcription–polymerase chain reaction (rRT-PCR). Subsequently, the virus is further characterized using genome sequencing. This two-step diagnostic process takes days to weeks, but it can be expedited by using novel sequencing technologies. We aim to optimize and validate nucleic acid extraction as the first step to establishing Oxford Nanopore Technologies (ONT) as a rapid diagnostic tool for identifying and characterizing AIV from clinical samples. This study compared four commercially available RNA extraction protocols using AIV-known-positive clinical samples. The extracted RNA was evaluated using total RNA concentration, viral copies as measured by rRT-PCR, and purity as measured by a 260/280 absorbance ratio. After NGS testing, the number of total and influenza-specific reads and quality scores of the generated sequences were assessed. The results showed that no protocol outperformed the others on all parameters measured; however, the magnetic particle-based method was the most consistent regarding CT value, purity, total yield, and AIV reads, and it was less error-prone. This study highlights how different RNA extraction protocols influence ONT sequencing performance. [ABSTRACT FROM AUTHOR]

Published

2024

14. Does Microbiome Contribute to Longevity? Compositional and Functional Differences in Gut Microbiota in Chinese Long-Living (>90 Years) and Elderly (65–74 Years) Adults.

Author

Liu, Jie, Wang, Wen-Jing, Xu, Ge-Fang, Wang, Yue-Xia, Lin, Ying, Zheng, Xin, Yao, Shui-Hong, and Zheng, Kun-Hua

Subjects

*AMINO acid metabolism, *GUT microbiome, *METHIONINE metabolism, *AGE groups, *DRUG target

Abstract

The study of longevity and its determinants has been revitalized with the rise of microbiome scholarship. The gut microbiota have been established to play essential protective, metabolic, and physiological roles in human health and disease. The gut dysbiosis has been identified as an important factor contributing to the development of multiple diseases. Accordingly, it is reasonable to hypothesize that the gut microbiota of long-living individuals have healthy antiaging-associated gut microbes, which, by extension, might provide specific molecular targets for antiaging treatments and interventions. In the present study, we compared the gut microbiota of Chinese individuals in two different age groups, long-living adults (aged over 90 years) and elderly adults (aged 65–74 years) who were free of major diseases. We found significantly lower relative abundances of bacteria in the genera Sutterella and Megamonas in the long-living individuals. Furthermore, we established that while biological processes such as autophagy (GO:0006914) and telomere maintenance through semiconservative replication (GO:0032201) were enhanced in the long-living group, response to lipopolysaccharide (GO:0032496), nicotinamide adenine dinucleotide oxidation (GO:0006116), and S-adenosyl methionine metabolism (GO:0046500) were weakened. Moreover, the two groups were found to differ with respect to amino acid metabolism. We suggest that these compositional and functional differences in the gut microbiota may potentially be associated with mechanisms that contribute to determining longevity or aging. [ABSTRACT FROM AUTHOR]

Published

2024

15. First report of <italic>Diaporthe humulicola</italic> causing halo blight of hop (<italic>Humulus lupulus</italic> L.) in Prince Edward Island, Canada.

Author

Foster, Adam, Mills, Aaron, and Mccallum, Jason

Subjects

*PHYTOPATHOGENIC microorganisms, *CONES (Botany), *METAGENOMICS, *SYMPTOMS, *SPECIES

Abstract

AbstractThis study documents the first report of halo blight of hop (Humulus lupulus L.), caused by the fungal pathogen Diaporthe humulicola, in Prince Edward Island (PE), Canada. This pathogen has been previously reported in Michigan, New York, Connecticut and Quebec. Disease symptoms were reported in hopyards in Harrington and Mount Albion, PE. Symptoms reported include both foliar lesions and severe necrosis of hop cones. Through a metagenomic approach using Nanopore sequencing of the full Internal Transcribed Spacer (ITS) region products, multiple fungal species were identified in infected hop cones. Many plant pathogens were present in the hop cones including species of Botrytis, Alternaria, Colletotrichum and Fusarium. Additionally, metagenomic sequencing identified reads that most closely matched D. humulicola. Symptomatic leaf tissue sections were cultured on amended PDA to isolate the pathogen, then colony PCR was conducted and ITS regions were sequenced, confirming the identity of D. humulicola. Pathogenicity was validated using Koch’s postulates on hop leaf disks, with lesion development occurring 7 days post-inoculation. Considering the humid conditions characteristic of eastern North American hop-growing zones, halo blight’s emergence in PE emphasizes the need for comprehensive monitoring and improved best management strategies to protect the PE hop industry. [ABSTRACT FROM AUTHOR]

Published

2024

16. Diagnostic limitations and challenges in current clinical guidelines and potential application of metagenomic sequencing to manage pulmonary invasive fungal infections in patients with haematological malignancies.

Author

Park, Sarah Y., Ardura, Monica I., and Zhang, Sean X.

Subjects

*MYCOSES, *CELL-free DNA, *FUNGAL DNA, *GALACTOMANNANS, *METAGENOMICS, *LUNG infections

Abstract

Pulmonary invasive fungal infections (pIFI) disproportionately affect patients with haematological malignancies (HM). Establishing a rapid and accurate diagnosis of pIFI is challenging. Multiple guidelines recommend diagnostic testing of invasive fungal infections but lack consensus and may contribute to inconsistent diagnostic approaches. To identify key diagnostic challenges and review metagenomic sequencing data. PubMed, professional consortium, and scientific society websites search to identify relevant, published, evidence-based clinical guidelines within the past 5 years. PubMed searchs for papers describing clinically relevant novel diagnostic technologies. Current guidelines for patients with HM and suspected pIFI recommend chest computed tomography imaging and specimen testing with microscopic examination (including calcofluor white stain, histopathology, cytopathology, etc.), Aspergillus galactomannan, β-D-glucan, PCR, and culture, each with certain limitations. Emerging real-world data support the adjunctive use of metagenomic sequencing-based tests for the timely diagnosis of pIFI. High-quality evidence from robust clinical trials is needed to determine whether guidelines should be updated to include novel diagnostic technologies. Trials should ask whether the combination of powerful novel diagnostics, such as pathogen-agnostic metagenomic sequencing technologies in conjunction with conventional testing can optimize the diagnostic yield for all potential pIFI pathogens that impact the health of patients with HM. [ABSTRACT FROM AUTHOR]

Published

2024

17. Comparison of microbial diversity and carbohydrate-active enzymes in the hindgut of two wood-feeding termites, Globitermes sulphureus (Blattaria: Termitidae) and Coptotermes formosanus (Blattaria: Rhinotermitidae)

Author

Zhidong Zhang, Kai Wang, Chuanshan Zou, Ting Zhao, Wenbin Wu, Cai Wang, and Yan Hua

Subjects

Lignocellulose, Termite, Hindgut microbiota, Metagenomic sequencing, 16S rRNA sequencing, Carbohydrate-active enzymes (CAZymes), Microbiology, QR1-502

Abstract

Abstract Background Wood-feeding termites have been employed as sources of novel and highly efficient lignocellulolytic enzymes due to their ability to degrade lignocellulose efficiently. As a higher wood-feeding termite, Globitermes sulphureus (Blattaria: Termitidae) plays a crucial role as a decomposer in regions such as Vietnam, Singapore, Myanmar, and Yunnan, China. However, the diversity of its gut microbiome and carbohydrate-active enzymes (CAZymes) remains unexplored. Here, we analyzed the diversity of hindgut microbial communities and CAZymes in a higher wood-feeding termite, G. sulphureus, and a lower wood-feeding termite, Coptotermes formosanus (Blattaria: Rhinotermitidae). Results 16S rRNA sequencing revealed that Spirochaetota, Firmicutes, and Fibrobacterota were the dominant microbiota in the hindgut of the two termite species. At the phylum level, the relative abundances of Proteobacteria and Bacteroidota were significantly greater in the hindgut of C. formosanus than in G. sulphureus. At the genus level, the relative abundances of Candidatus_Azobacteroides and Escherichia-Shigella were significantly lower in the hindgut of G. sulphureus than in C. formosanus. Metagenomic analysis revealed that glycoside hydrolases (GHs) with cellulases and hemicellulases functions were not significantly different between G. sulphureus and C. formosanus. Interestingly, the cellulases in G. sulphureus were mainly GH5_2, GH5_4, GH6, GH9, and GH45, while the hemicellulases were mainly GH11, GH8, GH10, GH11, GH26, and GH53. In C. formosanus, the cellulases were mainly GH6 and GH9, and the hemicellulases were mainly GH5_7, GH5_21, GH10, GH12, and GH53. In addition, β-glucosidase, exo-β-1,4-glucanase, and endo-β-1,4-glucanase activities did not differ significantly between the two termite species, while xylanase activity was higher in G. sulphureus than in C. formosanus. The bacteria encoding GHs in G. sulphureus were mainly Firmicutes, Fibrobacterota, and Proteobacteria, whereas Bacteroidota and Spirochaetota were the main bacteria encoding GHs in C. formosanus. Conclusions Our findings characterized the microbial composition and differences in the hindgut microbiota of G. sulphureus and C. formosanus. Compared to C. formosanus, G. sulphureus is enriched in genes encoding for hemicellulase and debranching enzymes. It also highlights the rich diversity of GHs in the hindgut microbiota of G. sulphureus, including the GH5 subfamily, GH6, and GH48, with the GH6 and GH48 not previously reported in other higher termites. These results strengthen the understanding of the diversity of termite gut microbiota and CAZymes.

Published

2024

18. Metagenomic Nanopore Sequencing of Tickborne Pathogens, Mongolia

Author

Koray Ergunay, Bazartseren Boldbaatar, Brian P. Bourke, Laura Caicedo-Quiroga, Cynthia L. Tucker, Andrew G. Letizia, Nora G. Cleary, Abigail G. Lilak, Guugandaa Nyamdavaa, Sharav Tumenjargal, Michael E. von Fricken, and Yvonne-Marie Linton

Subjects

vector-borne infections, bacteria, parasites, viruses, tickborne illnesses, metagenomic sequencing, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

We performed nanopore-based metagenomic screening on 885 ticks collected from 6 locations in Mongolia and divided the results into 68 samples: 23 individual samples and 45 pools of 2–12 tick samples each. We detected bacterial and parasitic pathogens Anaplasma ovis, Babesia microti, Coxiella burnetii, Borrelia miyamotoi, Francisella tularensis subsp. holarctica and novicida, Spiroplasma ixodetis, Theileria equi, and Rickettsia spp., including R. raoultii, R. slovaca, and R. canadensis. We identified the viral pathogens Crimean-Congo hemorrhagic fever virus (2.9%), recently described Alongshan virus (ALSV) (2.9%), and Beiji nairovirus (5.8%). We assembled ALSV genomes, and maximum-likelihood analyses revealed clustering with viruses reported in humans and ticks from China. For ALSV, we identified surface glycoprotein markers associated with isolates from Asia viruses hosted by Ixodes persulcatus ticks. We also detected 20 virus species of unknown public health impact, including a near-complete Yanggou tick virus genome. Our findings demonstrate that nanopore sequencing can aid in detecting endemic and emerging tickborne pathogens.

Published

2024

19. Response of the gut microbiota to changes in the nutritional status of red deer during winter

Author

Jinhao Guo, Zheng Li, Xinxin Liu, Yongchao Jin, Yue Sun, Ziao Yuan, Weiqi Zhang, Jialong Wang, and Minghai Zhang

Subjects

Ungulates, Nutritional status, Population conservation, Gut microbes, Metagenomic sequencing, Medicine, Science

Abstract

Abstract Unravelling abrupt alterations in the gut microbiota of wild species associated with nutritional stress is imperative but challenging for wildlife conservation. This study assessed the nutritional status of wild red deer during winter on the basis of changes in faecal nitrogen (FN) and urea nitrogen/creatinine (UN: C) levels and identified gut microbes associated with nutritional status via nutritional control experiments and metagenomic sequencing. The FN of wild red deer in winter 2022 was significantly lower than that in winter 2021 (p

Published

2024

20. Effects of stachyose on gut microbiota and metabolic pathways in children with diarrhea

Author

Bing WANG, Hui JIN, Xiong'e PI, Yan WU, Weiran WANG, Wei LIU, and Gang ZHAO

Subjects

stachyose, diarrhea, gut microbiota, metabolism, metagenomic sequencing, Public aspects of medicine, RA1-1270

Abstract

ObjectiveTo analyze the effects of stachyose on the structural composition and metabolic pathways of gut microbiota in children with diarrhea using metagenomic sequencing technology. MethodsSix stool samples were collected from children with diarrhea admitted to a tertiary hospital from December 2021 to March 2022 using the direct selection method. The samples were inoculated into stachyose medium (STS group) and control medium (Ctrl group) using in vitro simulated fermentation technology. Fecal genomic DNA was extracted, and the effects of stachyose on the composition and diversity of gut microbiota were analyzed through metagenomic sequencing. At the COG and KEGG metabolic function levels, PCoA analysis was performed to determine the contribution of dominant gut microbiota to KEGG functional pathways, and the correlations between metabolites and gut microbiota and KEGG metabolic pathways were analyzed. ResultsAlpha diversity analysis showed that except for the Simpson index (0.29, 0.24, P < 0.05), the differences in the Ace index (143.17, 127.00), Chao index (143.17, 127.00), and Shannon index (1.69, 1.79) between the STS and Ctrl groups were not statistically significant. The relative abundances of Bifidobacterium longum (0.06%), Ruminococcus (0.05%), and Lactobacillus salivarius (0.04%) were higher in the STS group than in the Ctrl group. PCoA analysis at the COG and KEGG metabolic function levels revealed that the differences between the two groups were statistically significant (P < 0.05). The STS group upregulated characteristic metabolic pathways such as purine metabolism, starch and sucrose metabolism, and galactose metabolism while downregulating the characteristic metabolic pathways of the Ctrl group. Compared with the Ctrl group, the increased abundance of microbiota in the STS group showed high contributions to metabolic functions related to KEGG level 3. Spearman's correlation coefficient analysis found close associations between metabolic products of gut microbiota and related gut microbiota and KEGG metabolic pathways. ConclusionStachyose can regulate the structural composition of gut microbiota in children with diarrhea, increase gut microbiota diversity, promote related metabolic functions, and produce more beneficial substances for the human body.

Published

2024

21. Trait-based study predicts glycerol/diol dehydratases as a key function of the gut microbiota of hindgut-fermenting carnivores

Author

Qing Li, Hans-Joachim Ruscheweyh, Lærke Hartmann Østergaard, Micael Libertella, Kim Skalborg Simonsen, Shinichi Sunagawa, Alberto Scoma, and Clarissa Schwab

Subjects

Diet, Gut physiology, Glycerol diol dehydratase, Metagenomic sequencing, Biomarker, Microbial ecology, QR100-130

Abstract

Abstract Background Microbial pdu and cob-cbi-hem gene clusters encode the key enzyme glycerol/diol dehydratase (PduCDE), which mediates the transformation of dietary nutrients glycerol and 1,2-propanediol (1,2-PD) to a variety of metabolites, and enzymes for cobalamin synthesis, a co-factor and shared good of microbial communities. It was the aim of this study to relate pdu as a multipurpose functional trait to environmental conditions and microbial community composition. We collected fecal samples from wild animal species living in captivity with different gut physiology and diet (n = 55, in total 104 samples), determined occurrence and diversity of pdu and cob-cbi-hem using a novel approach combining metagenomics with quantification of metabolic and genetic biomarkers, and conducted in vitro fermentations to test for trait-based activity. Results Fecal levels of the glycerol transformation product 1,3-propanediol (1,3-PD) were higher in hindgut than foregut fermenters. Gene-based analyses indicated that pduC harboring taxa are common feature of captive wild animal fecal microbiota that occur more frequently and at higher abundance in hindgut fermenters. Phylogenetic analysis of genomes reconstructed from metagenomic sequences identified captive wild animal fecal microbiota as taxonomically rich with a total of 4150 species and > 1800 novel species but pointed at only 56 species that at least partially harbored pdu and cbi-cob-hem. While taxonomic diversity was highest in fecal samples of foregut-fermenting herbivores, higher pduC abundance and higher diversity of pdu/cbi-cob-hem related to higher potential for glycerol and 1,2-PD utilization of the less diverse microbiota of hindgut-fermenting carnivores in vitro. Conclusion Our approach combining metabolite and gene biomarker analysis with metagenomics and phenotypic characterization identified Pdu as a common function of fecal microbiota of captive wild animals shared by few taxa and stratified the potential of fecal microbiota for glycerol/1,2-PD utilization and cobalamin synthesis depending on diet and physiology of the host. This trait-based study suggests that the ability to utilize glycerol/1,2-PD is a key function of hindgut-fermenting carnivores, which does not relate to overall community diversity but links to the potential for cobalamin formation. Video Abstract

Published

2024

22. Metagenomic profiling of gut microbiota in Fall Armyworm (Spodoptera frugiperda) larvae fed on different host plants

Author

Li-hong Wu, Chao-xing Hu, and Tong-xian Liu

Subjects

Antibiotic resistance genes, Co-evolutionary relationship, Gut microbiota, Host plants, Metagenomic sequencing, Microbiology, QR1-502

Abstract

Abstract Background The fall armyworm (FAW, Spodoptera frugiperda) is a polyphagous pest known for causing significant crop damage. The gut microbiota plays a pivotal role in influencing the biology, physiology and adaptation of the host. However, understanding of the taxonomic composition and functional characteristics of the gut microbiota in FAW larvae fed on different host plants remains limited. Methods This study utilized metagenomic sequencing to explore the structure, function and antibiotic resistance genes (ARGs) of the gut microbiota in FAW larvae transferred from an artificial diet to four distinct host plants: maize, sorghum, tomato and pepper. Results The results demonstrated significant variations in gut microbiota structure among FAW larvae fed on different host plants. Firmicutes emerged as the dominant phylum, with Enterococcaceae as the dominant family and Enterococcus as the prominent genus. Notably, Enterococcus casseliflavus was frequently observed in the gut microbiota of FAW larvae across host plants. Metabolism pathways, particularly those related to carbohydrate and amino acid metabolism, played a crucial role in the adaptation of the FAW gut microbiota to different host plants. KEGG orthologs associated with the regulation of the peptide/nickel transport system permease protein in sorghum-fed larvae and the 6-phospho-β-glucosidase gene linked to glycolysis/gluconeogenesis as well as starch and sucrose metabolism in pepper-fed larvae were identified. Moreover, the study identified the top 20 ARGs in the gut microbiota of FAW larvae fed on different host plants, with the maize-fed group exhibiting the highest abundance of vanRC. Conclusions Our metagenomic sequencing study reveals significant variations in the gut microbiota composition and function of FAW larvae across diverse host plants. These findings underscore the intricate co-evolutionary relationship between hosts and their gut microbiota, suggesting that host transfer profoundly influences the gut microbiota and, consequently, the adaptability and pest management strategies for FAW.

Published

2024

23. Metagenomic shotgun sequencing reveals the enrichment of Salmonella and Mycobacterium in larynx due to prolonged ethanol exposure

Author

Hui-ying Huang, Fei-ran Li, Yi-fan Zhang, Hui-Ching Lau, Chi-Yao Hsueh, Liang Zhou, and Ming Zhang

Subjects

Metagenomic sequencing, Ethanol, Alcohol, Microbiota, Function, Gene, Biotechnology, TP248.13-248.65

Abstract

The exposure of ethanol increases the risk of head and neck inflammation and tumor progression. However, limited studies have investigated the composition and functionality of laryngeal microbiota under ethanol exposure. We established an ethanol-exposed mouse model to investigate the changes in composition and function of laryngeal microbiota using Metagenomic shotgun sequencing. In the middle and late stages of the experiment, the laryngeal microbiota of mice exposed to ethanol exhibited obvious distinguished from that of the control group on principal-coordinate analysis (PCoA) plots. Among the highly abundant species, Salmonella enterica and Mycobacterium marinum were likely to be most impacted. Our findings indicated that the exposure to ethanol significantly increased their abundance in larynxes in mice of the same age, which has been confirmed through FISH experiments. Among the species-related functions and genes, metabolism is most severely affected by ethanol. The difference was most obvious in the second month of the experiment, which may be alleviated later because the animal established tolerance. Notable enrichments concerning energy, amino acid, and carbohydrate metabolic pathways occurred during the second month under ethanol exposure. Finally, based on the correlation between species and functional variations, a network was established to investigate relationships among microbiota, functional pathways, and related genes affected by ethanol. Our data first demonstrated the continuous changes of abundance, function and their interrelationship of laryngeal microbiota under ethanol exposure by Metagenomic shotgun sequencing. Importance: Ethanol may participate in the inflammation and tumor progression by affecting the composition of the laryngeal microbiota. Here, we applied the metagenomic shotgun sequencing instead of 16 S rRNA sequencing method to identify the laryngeal microbiota under ethanol exposure. Salmonella enterica and Mycobacterium marinum are two dominant species that may play a role in the reconstruction of the laryngeal microenvironment, as their local abundance increases following exposure to ethanol. The metabolic function is most evidently impacted, and several potential metabolic pathways could be associated with alterations in microbiota composition. These findings could help us better understand the impact of prolonged ethanol exposure on the microbial composition and functionality in the larynx.

Published

2024

24. Gut microbiome structure and function in asymptomatic diverticulosis

Author

Xinwei Hua, Jessica McGoldrick, Nour Nakrour, Kyle Staller, Daniel Chulyong Chung, Ramnik Joseph Xavier, and Hamed Khalili

Subjects

Gut microbiome, Asymptomatic diverticulosis, Metagenomic sequencing, Medicine, Genetics, QH426-470

Abstract

Abstract Background Colonic diverticulosis, the most common lesion found in routine colonoscopy, affects more than 50% of individuals aged ≥ 60 years. Emerging evidence suggest that dysbiosis of gut microbiota may play an important role in the pathophysiology of diverticular disease. However, specific changes in microbial species and metabolic functions in asymptomatic diverticulosis remain unknown. Methods In a cohort of US adults undergoing screening colonoscopy, we analyzed the gut microbiota using shotgun metagenomic sequencing. Demographic factors, lifestyle, and medication use were assessed using a baseline questionnaire administered prior to colonoscopy. Taxonomic structures and metabolic pathway abundances were determined using MetaPhlAn3 and HUMAnN3. We used multivariate association with linear models to identify microbial species and metabolic pathways that were significantly different between asymptomatic diverticulosis and controls, while adjusting for confounders selected a priori including age at colonoscopy, sex, body mass index (BMI), and dietary pattern. Results Among 684 individuals undergoing a screening colonoscopy, 284 (42%) had diverticulosis. Gut microbiome composition explained 1.9% variation in the disease status of asymptomatic diverticulosis. We observed no significant differences in the overall diversity of gut microbiome between asymptomatic diverticulosis and controls. However, microbial species Bifidobacterium pseudocatenulatum and Prevotella copri were significantly enriched in controls (q value = 0.19 and 0.14, respectively), whereas Roseburia intestinalis, Dorea sp. CAG:317, and Clostridium sp. CAG: 299 were more abundant in those with diverticulosis (q values = 0.17, 0.24, and 0.10, respectively). We observed that the relationship between BMI and diverticulosis appeared to be limited to carriers of Bifidobacterium pseudocatenulatum and Roseburia intestinalis (P interaction = 0.09). Conclusions Our study provides the first large-scale evidence supporting taxonomic and functional shifts of the gut microbiome in individuals with asymptomatic diverticulosis. The suggestive interaction between gut microbiota and BMI on prevalent diverticulosis deserves future investigations.

Published

2024

25. The plasma viral communities associate with clinical profiles in a large-scale haematological patients cohort

Author

Shuai Ma, Yuyao Yin, Yifan Guo, Chaoqun Yao, Siqi Xu, Qingqing Luo, Guankun Yin, Shuyi Wang, Qi Wang, Hongbin Chen, Ruobing Wang, Longyang Jin, Guanxiang Liang, and Hui Wang

Subjects

Haematologic disorders, Metagenomic sequencing, Plasma Virome, TTV, Microbial ecology, QR100-130

Abstract

Abstract Background Haematological patients exhibit immune system abnormalities that make them susceptible to viral infections. Understanding the relationship between the virome in the blood plasma of haematological patients and their clinical characteristic is crucial for disease management. We aimed to explore the presence of viral pathogens and identify close associations between viral infections and various clinical features. Results A total of 21 DNA viruses and 6 RNA viruses from 12 virus families were identified from 1383 patients. Patients with haematological diseases exhibited significantly higher diversity, prevalence, and co-detection rates of viral pathogens. During fever episodes, pathogen detection was notably higher, with Epstein-Barr virus (EBV) and Mucorales infections being the most probable culprits for fever symptoms in non-haematological patients. The detection rate of torque teno virus (TTV) significantly increases in haematological patients after transplantation and during primary lung infections. Additionally, TTV-positive patients demonstrate significantly higher absolute neutrophil counts, while C-reactive protein and procalcitonin levels are notably lower. Furthermore, TTV, cytomegalovirus, and parvovirus B19 (B19V) were found to be more prevalent in non-neutropenic patients, while non-viral pathogenic infections, such as Gram-negative bacteria and Mucorales, were more common in neutropenic patients. Pegivirus C (HPgV-C) infection often occurred post-transplantation, regardless of neutropenia. Additionally, some viruses such as TTV, B19V, EBV, and HPgV-C showed preferences for age and seasonal infections. Conclusions Analysis of the plasma virome revealed the susceptibility of haematological patients to plasma viral infections at specific disease stages, along with the occurrence of mixed infections with non-viral pathogens. Close associations were observed between the plasma virome and various clinical characteristics, as well as clinical detection parameters. Understanding plasma virome aids in auxiliary clinical diagnosis and treatment, enabling early prevention to reduce infection rates in patients and improve their quality of life. Video Abstract

Published

2024

26. Gut microbiota and metabolic changes in children with idiopathic short stature

Author

Luyan Yan, Bin Ye, Min Yang, Yongsheng Shan, Dan Yan, DanFeng Fang, Kaichuang Zhang, and Yongguo Yu

Subjects

Idiopathic short stature, Gut microbiome, Metabolomics, Metagenomic sequencing, Pediatrics, RJ1-570

Abstract

Abstract Background Idiopathic short stature (ISS) is characterized by short stature with unknown causes. Recent studies showed different gut microbiota flora and reduced fecal short-chain fatty acids in ISS children. However, the roles of the microbiome and metabolites in the pathogenesis of ISS remains largely unknown. Methods We recruited 51 Chinese subjects, comprising 26 ISS children and 25 normal-height control individuals. Untargeted metabolomics was performed to explore the fecal metabolic profiles between groups. A shotgun metagenomic sequencing approach was used to investigate the microbiome at the strains level. Mediation analyses were done to reveal correlations between the height standard deviation (SD) value, the gut microbiome and metabolites. Results We detected marked differences in the composition of fecal metabolites in the ISS group, particularly a significant increase in erucic acid and a decrease in spermidine, adenosine and L-5-Hydroxytryptophan, when compared to those of controls. We further identified specific groups of bacterial strains to be associated with the different metabolic profile. Through mediation analysis, 50 linkages were established. KEGG pathway analysis of microbiota and metabolites indicated nutritional disturbances. 13 selected features were able to accurately distinguish the ISS children from the controls (AUC = 0.933 [95%CI, 79.9–100%]) by receiver operating characteristic (ROC) analysis. Conclusion Our study suggests that the microbiome and the microbial-derived metabolites play certain roles in children’s growth. These findings provide a new research direction for better understanding the mechanism(s) underlying ISS.

Published

2024

27. Gut microbes on the risk of advanced adenomas

Author

Zhuang Jing, Wu Zheng, Song Jianwen, Shen Hong, Yu Xiaojian, Wei Qiang, Yin Yunfeng, Wu Xinyue, Han Shuwen, and Zhao Feimin

Subjects

Advanced adenomas, Gut bacteria, Enteroviruses, Metagenomic sequencing, Prediction model, Microbiology, QR1-502

Abstract

Abstract Background More than 90% of colorectal cancer (CRC) arises from advanced adenomas (AA) and gut microbes are closely associated with the initiation and progression of both AA and CRC. Objective To analyze the characteristic microbes in AA. Methods Fecal samples were collected from 92 AA and 184 negative control (NC). Illumina HiSeq X sequencing platform was used for high-throughput sequencing of microbial populations. The sequencing results were annotated and compared with NCBI RefSeq database to find the microbial characteristics of AA. R-vegan package was used to analyze α diversity and β diversity. α diversity included box diagram, and β diversity included Principal Component Analysis (PCA), principal co-ordinates analysis (PCoA), and non-metric multidimensional scaling (NMDS). The AA risk prediction models were constructed based on six kinds of machine learning algorithms. In addition, unsupervised clustering methods were used to classify bacteria and viruses. Finally, the characteristics of bacteria and viruses in different subtypes were analyzed. Results The abundance of Prevotella sp900557255, Alistipes putredinis, and Megamonas funiformis were higher in AA, while the abundance of Lilyvirus, Felixounavirus, and Drulisvirus were also higher in AA. The Catboost based model for predicting the risk of AA has the highest accuracy (bacteria test set: 87.27%; virus test set: 83.33%). In addition, 4 subtypes (B1V1, B1V2, B2V1, and B2V2) were distinguished based on the abundance of gut bacteria and enteroviruses (EVs). Escherichia coli D, Prevotella sp900557255, CAG-180 sp000432435, Phocaeicola plebeiuA, Teseptimavirus, Svunavirus, Felixounavirus, and Jiaodavirus are the characteristic bacteria and viruses of 4 subtypes. The results of Catboost model indicated that the accuracy of prediction improved after incorporating subtypes. The accuracy of discovery sets was 100%, 96.34%, 100%, and 98.46% in 4 subtypes, respectively. Conclusion Prevotella sp900557255 and Felixounavirus have high value in early warning of AA. As promising non-invasive biomarkers, gut microbes can become potential diagnostic targets for AA, and the accuracy of predicting AA can be improved by typing.

Published

2024

28. Gut microbiome structure and function in asymptomatic diverticulosis.

Author

Hua, Xinwei, McGoldrick, Jessica, Nakrour, Nour, Staller, Kyle, Chung, Daniel Chulyong, Xavier, Ramnik Joseph, and Khalili, Hamed

Subjects

*DIVERTICULOSIS, *DIETARY patterns, *SHOTGUN sequencing, *BODY mass index, *GUT microbiome, *DYSBIOSIS

Abstract

Background: Colonic diverticulosis, the most common lesion found in routine colonoscopy, affects more than 50% of individuals aged ≥ 60 years. Emerging evidence suggest that dysbiosis of gut microbiota may play an important role in the pathophysiology of diverticular disease. However, specific changes in microbial species and metabolic functions in asymptomatic diverticulosis remain unknown. Methods: In a cohort of US adults undergoing screening colonoscopy, we analyzed the gut microbiota using shotgun metagenomic sequencing. Demographic factors, lifestyle, and medication use were assessed using a baseline questionnaire administered prior to colonoscopy. Taxonomic structures and metabolic pathway abundances were determined using MetaPhlAn3 and HUMAnN3. We used multivariate association with linear models to identify microbial species and metabolic pathways that were significantly different between asymptomatic diverticulosis and controls, while adjusting for confounders selected a priori including age at colonoscopy, sex, body mass index (BMI), and dietary pattern. Results: Among 684 individuals undergoing a screening colonoscopy, 284 (42%) had diverticulosis. Gut microbiome composition explained 1.9% variation in the disease status of asymptomatic diverticulosis. We observed no significant differences in the overall diversity of gut microbiome between asymptomatic diverticulosis and controls. However, microbial species Bifidobacterium pseudocatenulatum and Prevotella copri were significantly enriched in controls (q value = 0.19 and 0.14, respectively), whereas Roseburia intestinalis, Dorea sp. CAG:317, and Clostridium sp. CAG: 299 were more abundant in those with diverticulosis (q values = 0.17, 0.24, and 0.10, respectively). We observed that the relationship between BMI and diverticulosis appeared to be limited to carriers of Bifidobacterium pseudocatenulatum and Roseburia intestinalis (Pinteraction = 0.09). Conclusions: Our study provides the first large-scale evidence supporting taxonomic and functional shifts of the gut microbiome in individuals with asymptomatic diverticulosis. The suggestive interaction between gut microbiota and BMI on prevalent diverticulosis deserves future investigations. [ABSTRACT FROM AUTHOR]

Published

2024

29. Chronic and Neurotropic: A Paradigm-Challenging Case of Dengue Virus Encephalitis in a Patient With Advanced HIV Infection.

Author

Marinelli, Tina, Masters, Jeffrey, Buckland, Michael E, Lee, Maggie, Rawlinson, William, Kim, Ki Wook, Urriola, Nicolas, and Hal, Sebastiaan van

Subjects

*HIV infection complications, *CEREBROSPINAL fluid examination, *BIOPSY, *GENOMICS, *ANTIRETROVIRAL agents, *PATIENTS, *VIROLOGY, *AZITHROMYCIN, *CD4 lymphocyte count, *HOSPITAL admission & discharge, *IMMUNOGLOBULINS, *TENOFOVIR, *DENGUE, *HIV infections, *STATUS epilepticus, *MAGNETIC resonance imaging, *TREATMENT effectiveness, *CHRONIC diseases, *EMTRICITABINE, *HEPATITIS B, *INTENSIVE care units, *CO-trimoxazole, *VIRAL encephalitis, *ANTIBIOTIC prophylaxis, *MIXED infections, *LUMBAR puncture, *DISEASE complications, *SYMPTOMS

Abstract

A 32-year-old female with advanced human immunodeficiency virus infection presented to an Australian hospital with subacute, worsening symptoms of encephalitis. Metagenomic sequencing and Dengue NS3 antigen staining of brain tissue confirmed active dengue virus (DENV) encephalitis. The most recent possible DENV exposure was months prior in West Africa, indicating chronicity. [ABSTRACT FROM AUTHOR]

Published

2024

30. The role of selenium intervention in gut microbiota homeostasis and gene function in mice with breast cancer on a high-fat diet.

Author

Yinan Li, Min Liu, Bingtan Kong, Ganlin Zhang, and Qing Zhang

Subjects

GUT microbiome, HIGH-fat diet, MEMBRANE transport proteins, CELL communication, BREAST cancer, SELENOPROTEINS

Abstract

Objective: This study aimed to investigate the effect of selenium on gut microbiota in mice with breast cancer under a high-fat diet. Methods: A total of 12 female BALB/c mice were randomly divided into two groups: 4 T1 + selenium+ high-fat diet group and 4 T1 + high-fat diet group. Mice were injected with 4 T1 cells on the right 4th mammary fat pad and kept on a high-fat diet. Fecal samples were collected, and DNA was extracted for metagenomic sequencing and bioinformatics analysis. Relevant target genes and pathways were annotated and metabolically analyzed to explore the intervention effect of selenium on breast cancer in the high-fat diet state. Results: Selenium supplementation in the high-fat diet altered the composition and diversity of gut microbiota in mice with breast cancer. The gut microbial composition was significantly different in the selenium intervention group, with an increased abundance of Proteobacteria, Actinobacteria, and Verrucomicrobia phyla and species such as Helicobacter ganmani, Helicobacter japonicus, and Akkermansia muciniphila, while phyla, such as Bacteroidetes, Firmicutes, Deferribacteres, and Spirochaetes, and species, such as Prevotella sp. MGM2, Muribaculum intestinale, Lactobacillus murinus, and Prevotella sp. MGM1, were decreased. Functional analysis revealed differential expression of genes related to carbohydrate-active enzymes, pathogen-host interactions, cell communication, cell auto-induction, membrane transporters, and virulence factors. Furthermore, 37 COGs and 48 metabolites with rising metabolic potential in the selenium intervention group were predicted. Conclusion: Selenium alters the homeostasis of gut microbiota in mice with breast cancer on a high-fat diet, affecting their composition, abundance, and associated metabolism. These findings suggest that the mechanism involves interfering with gut microbiota homeostasis, leading to altered synthesis of tumor-associated proteins and fatty acids and inducing tumor cell apoptosis and pyroptosis. [ABSTRACT FROM AUTHOR]

Published

2024

31. Genomics for Arbovirus Surveillance: Considerations for Routine Use in Public Health Laboratories.

Author

Patiño, Leandro, Benítez, Andrea Denisse, Carrazco-Montalvo, Andrés, and Regato-Arrata, Mary

Subjects

*PUBLIC health surveillance, *NUCLEOTIDE sequencing, *GOVERNMENT laboratories, *RESEARCH personnel, *VECTOR control, *ARBOVIRUSES

Abstract

The emergence and re-emergence of arthropod-borne viruses is a public health threat. For routine surveillance in public health laboratories, cost-effective and reproducible methods are essential. In this review, we address the technical considerations of high-throughput sequencing methods (HTS) for arbovirus surveillance in national health laboratories, focusing on pre-sequencing, sequencing, and post-sequencing approaches, underlining the importance of robust wet and dry laboratory workflows for reproducible analysis. We aim to provide insights for researchers and clinicians interested in arbovirus, diagnosis, and surveillance by discussing current advances in sequencing methods and bioinformatics pipelines applied to arboviruses. [ABSTRACT FROM AUTHOR]

Published

2024

32. Enrichment of Aquatic Xylan-Degrading Microbial Communities.

Author

Gaenssle, Aline Lucie Odette, Bertran-Llorens, Salvador, Deuss, Peter Joseph, and Jurak, Edita

Subjects

BRACKISH waters, ENVIRONMENTAL sampling, MICROBIAL communities, BACTERIAL growth, ARABINOSE, XYLANS, LIGNOCELLULOSE

Abstract

The transition towards a sustainable society involves the utilization of lignocellulosic biomass as a renewable feedstock for materials, fuel, and base chemicals. Lignocellulose consists of cellulose, hemicellulose, and lignin, forming a complex, recalcitrant matrix where efficient enzymatic saccharification is pivotal for accessing its valuable components. This study investigated microbial communities from brackish Lauwersmeer Lake, in The Netherlands, as a potential source of xylan-degrading enzymes. Environmental sediment samples were enriched with wheat arabinoxylan (WAX) and beechwood glucuronoxylan (BEX), with enrichment on WAX showing higher bacterial growth and complete xylan degradation compared to BEX. Metagenomic sequencing revealed communities consisting almost entirely of bacteria (>99%) and substantial shifts in composition during the enrichment. The first generation of seven-day enrichments on both xylans led to a high accumulation of Gammaproteobacteria (49% WAX, 84% BEX), which were largely replaced by Alphaproteobacteria (42% WAX, 69% BEX) in the fourth generation. Analysis of the protein function within the sequenced genomes showed elevated levels of genes associated with the carbohydrate catabolic process, specifically targeting arabinose, xylose, and xylan, indicating an adaptation to the primary monosaccharides present in the carbon source. The data open up the possibility of discovering novel xylan-degrading proteins from other sources aside from the thoroughly studied Bacteroidota. [ABSTRACT FROM AUTHOR]

Published

2024

33. Soil phosphorus cycling microbial functional genes of monoculture and mixed plantations of native tree species in subtropical China.

Author

Lin Qin, Zhirou Xiao, Angang Ming, Jinqian Teng, Hao Zhu, Jiaqi Qin, and Zeli Liang

Subjects

FOREST soils, GENE conversion, MICROBIAL genes, PHOSPHORUS in soils, DOMINANCE (Genetics)

Abstract

Background: Transforming coniferous plantation into broadleaved or mixed broadleaved-coniferous plantations is the tendency of forest management strategies in subtropical China. However, the effects of this conversion on soil phosphorus (P) cycling microbial functional genes are still unknown. Methods: Soil samples were collected from 0-20, 20-40, and 40-60 cm (topsoil, middle layer, and subsoil, respectively) under coniferous Pinus massoniana (PM), broadleaved Erythrophleum fordii (EF), and their mixed (PM/EF) plantation in subtropical China. Used metagenomic sequencing to examine the alterations of relative abundances and molecular ecological network structure of soil P-cycling functional genes after the conversion of plantations. Results: The composition of P-cycling genes in the topsoil of PM stand was significantly different from that of PM/EF and EF stands (p < 0.05), and total phosphorus (TP) was the main factor causing this difference. After transforming PM plantation into EF plantation, the relative abundances of P solubilization and mineralization genes significantly increased in the topsoil and middle layer with the decrease of soil TP content. The abundances of P-starvation response regulation genes also significantly increased in the subsoil (p < 0.05), which may have been influenced by soil organic carbon (SOC). The dominant genes in all soil layers under three plantations were phoR, glpP, gcd, ppk, and ppx. Transforming PM into EF plantation apparently increased gcd abundance in the topsoil (p < 0.05), with TP and NO3--N being the main influencing factors. After transforming PM into PM/EF plantations, the molecular ecological network structure of P-cycling genes was more complex; moreover, the key genes in the network were modified with the transformation of PM plantation. Conclusion: Transforming PM into EF plantation mainly improved the phosphate solubilizing potential of microorganisms at topsoil, while transforming PM into PM/EF plantation may have enhanced structural stability of microbial P-cycling genes react to environmental changes. [ABSTRACT FROM AUTHOR]

Published

2024

34. Gut microbiota and metabolic changes in children with idiopathic short stature.

Author

Yan, Luyan, Ye, Bin, Yang, Min, Shan, Yongsheng, Yan, Dan, Fang, DanFeng, Zhang, Kaichuang, and Yu, Yongguo

Subjects

SHORT stature, GUT microbiome, IDIOPATHIC diseases, SHORT-chain fatty acids, RECEIVER operating characteristic curves

Abstract

Background: Idiopathic short stature (ISS) is characterized by short stature with unknown causes. Recent studies showed different gut microbiota flora and reduced fecal short-chain fatty acids in ISS children. However, the roles of the microbiome and metabolites in the pathogenesis of ISS remains largely unknown. Methods: We recruited 51 Chinese subjects, comprising 26 ISS children and 25 normal-height control individuals. Untargeted metabolomics was performed to explore the fecal metabolic profiles between groups. A shotgun metagenomic sequencing approach was used to investigate the microbiome at the strains level. Mediation analyses were done to reveal correlations between the height standard deviation (SD) value, the gut microbiome and metabolites. Results: We detected marked differences in the composition of fecal metabolites in the ISS group, particularly a significant increase in erucic acid and a decrease in spermidine, adenosine and L-5-Hydroxytryptophan, when compared to those of controls. We further identified specific groups of bacterial strains to be associated with the different metabolic profile. Through mediation analysis, 50 linkages were established. KEGG pathway analysis of microbiota and metabolites indicated nutritional disturbances. 13 selected features were able to accurately distinguish the ISS children from the controls (AUC = 0.933 [95%CI, 79.9–100%]) by receiver operating characteristic (ROC) analysis. Conclusion: Our study suggests that the microbiome and the microbial-derived metabolites play certain roles in children's growth. These findings provide a new research direction for better understanding the mechanism(s) underlying ISS. [ABSTRACT FROM AUTHOR]

Published

2024

35. The plasma viral communities associate with clinical profiles in a large-scale haematological patients cohort.

Author

Ma, Shuai, Yin, Yuyao, Guo, Yifan, Yao, Chaoqun, Xu, Siqi, Luo, Qingqing, Yin, Guankun, Wang, Shuyi, Wang, Qi, Chen, Hongbin, Wang, Ruobing, Jin, Longyang, Liang, Guanxiang, and Wang, Hui

Subjects

EPSTEIN-Barr virus, TORQUE teno virus, MIXED infections, VIRUS diseases, PARVOVIRUS B19, DNA viruses

Abstract

Background: Haematological patients exhibit immune system abnormalities that make them susceptible to viral infections. Understanding the relationship between the virome in the blood plasma of haematological patients and their clinical characteristic is crucial for disease management. We aimed to explore the presence of viral pathogens and identify close associations between viral infections and various clinical features. Results: A total of 21 DNA viruses and 6 RNA viruses from 12 virus families were identified from 1383 patients. Patients with haematological diseases exhibited significantly higher diversity, prevalence, and co-detection rates of viral pathogens. During fever episodes, pathogen detection was notably higher, with Epstein-Barr virus (EBV) and Mucorales infections being the most probable culprits for fever symptoms in non-haematological patients. The detection rate of torque teno virus (TTV) significantly increases in haematological patients after transplantation and during primary lung infections. Additionally, TTV-positive patients demonstrate significantly higher absolute neutrophil counts, while C-reactive protein and procalcitonin levels are notably lower. Furthermore, TTV, cytomegalovirus, and parvovirus B19 (B19V) were found to be more prevalent in non-neutropenic patients, while non-viral pathogenic infections, such as Gram-negative bacteria and Mucorales, were more common in neutropenic patients. Pegivirus C (HPgV-C) infection often occurred post-transplantation, regardless of neutropenia. Additionally, some viruses such as TTV, B19V, EBV, and HPgV-C showed preferences for age and seasonal infections. Conclusions: Analysis of the plasma virome revealed the susceptibility of haematological patients to plasma viral infections at specific disease stages, along with the occurrence of mixed infections with non-viral pathogens. Close associations were observed between the plasma virome and various clinical characteristics, as well as clinical detection parameters. Understanding plasma virome aids in auxiliary clinical diagnosis and treatment, enabling early prevention to reduce infection rates in patients and improve their quality of life. EnXnzQJ5tBc4iYM41USpCe Video Abstract [ABSTRACT FROM AUTHOR]

Published

2024

36. Gut microbes on the risk of advanced adenomas.

Author

Jing, Zhuang, Zheng, Wu, Jianwen, Song, Hong, Shen, Xiaojian, Yu, Qiang, Wei, Yunfeng, Yin, Xinyue, Wu, Shuwen, Han, and Feimin, Zhao

Subjects

*MACHINE learning, *ADENOMA, *PRINCIPAL components analysis, *MICROORGANISMS, *MULTIDIMENSIONAL scaling

Abstract

Background: More than 90% of colorectal cancer (CRC) arises from advanced adenomas (AA) and gut microbes are closely associated with the initiation and progression of both AA and CRC. Objective: To analyze the characteristic microbes in AA. Methods: Fecal samples were collected from 92 AA and 184 negative control (NC). Illumina HiSeq X sequencing platform was used for high-throughput sequencing of microbial populations. The sequencing results were annotated and compared with NCBI RefSeq database to find the microbial characteristics of AA. R-vegan package was used to analyze α diversity and β diversity. α diversity included box diagram, and β diversity included Principal Component Analysis (PCA), principal co-ordinates analysis (PCoA), and non-metric multidimensional scaling (NMDS). The AA risk prediction models were constructed based on six kinds of machine learning algorithms. In addition, unsupervised clustering methods were used to classify bacteria and viruses. Finally, the characteristics of bacteria and viruses in different subtypes were analyzed. Results: The abundance of Prevotella sp900557255, Alistipes putredinis, and Megamonas funiformis were higher in AA, while the abundance of Lilyvirus, Felixounavirus, and Drulisvirus were also higher in AA. The Catboost based model for predicting the risk of AA has the highest accuracy (bacteria test set: 87.27%; virus test set: 83.33%). In addition, 4 subtypes (B1V1, B1V2, B2V1, and B2V2) were distinguished based on the abundance of gut bacteria and enteroviruses (EVs). Escherichia coli D, Prevotella sp900557255, CAG-180 sp000432435, Phocaeicola plebeiuA, Teseptimavirus, Svunavirus, Felixounavirus, and Jiaodavirus are the characteristic bacteria and viruses of 4 subtypes. The results of Catboost model indicated that the accuracy of prediction improved after incorporating subtypes. The accuracy of discovery sets was 100%, 96.34%, 100%, and 98.46% in 4 subtypes, respectively. Conclusion: Prevotella sp900557255 and Felixounavirus have high value in early warning of AA. As promising non-invasive biomarkers, gut microbes can become potential diagnostic targets for AA, and the accuracy of predicting AA can be improved by typing. Highlights: The bacteria (including Prevotella sp900557255, Alistipes putredinis, Megamonas funiformis, etc.) and viruses (including Lilyvirus, Felixounavirus, and Drulisvirus, etc.) existed differences in AA. And there were correlations between AA and basic information, lipid index and serological index. Prediction models based on bacteria and viruses were established to distinguish AA, and the accuracy reached 87.27% and 83.33%. A new typing method was established based on bacteria and viruses to divide gut microbes into 4 subtypes. Prediction models after typing had higher accuracy (100% in B1V1, 96.34% in B1V2, 100% in B2V1, 98.46% in B2V2). [ABSTRACT FROM AUTHOR]

Published

2024

37. Discovery and characterization of BRBV-sheep virus in nasal swabs from domestic sheep in China.

Author

Yufei Zhang, Yang Li, Lemuge Qi, Tianyu Hang, Peng Wang, Yarong Wang, Caili Wu, Yongqin Wang, Xufen Wang, Lin Hou, Yaxing Ban, Zhidan Zhang, and Weiguang Zhou

Subjects

GENETIC epidemiology, SHEEP breeds, AMINO acid sequence, INFECTIOUS disease transmission, VIRUS diseases, DISEASE management, SHEEP

Abstract

Introduction: The escalating occurrence of infectious disease outbreaks in humans and animals necessitates innovative, effective, and integrated research to better comprehend their transmission and dynamics. Viral infection in livestock has led to profound economic losses globally. Pneumonia is the prevalent cause of death in sheep. However, very few studies exist regarding virus-related pathogens in sheep. Metagenomics sequencing technologies in livestock research hold significant potential to elucidate these contingencies and enhance our understanding. Methods: Therefore, this study aims to characterize respiratory viromes in paired nasal swabs from Inner Mongolian feedlot sheep in China using metaviromic sequencing. Through deep sequencing, de novo assembly, and similarity searches using translated protein sequences, several previously uncharacterized and known viruses were identified in this study. Results: Among these discoveries, a novel Bovine Rhinitis B Virus (BRBV) (BRBVsheep) strain was serendipitously detected in the nasal swabs of domestic sheep (Ovis aries). To facilitate further molecular epidemiological studies, the entire genome of BRBV-sheep was also determined. Owing to the unique sequence characteristics and phylogenetic position of BRBV-sheep, genetically distinct lineages of BRBV in sheep may exist. A TaqMan-based qRT-PCR assay targeting the 3D polymerase gene was developed and used to screen 592 clinical sheep specimens. The results showed that 44.59% of the samples (264/592) were positive. These findings suggest that BRBV sheep are widespread among Inner Mongolian herds. Conclusion: This discovery marks the initial identification of BRBV in sheep within Inner Mongolia, China. These findings contribute to our understanding of the epidemiology and genetic evolution of BRBV. Recognizing the presence of BRBV in sheep informs strategies for disease management and surveillance and the potential development of targeted interventions to control its spread. [ABSTRACT FROM AUTHOR]

Published

2024

38. Soil Microbial Community Structure and Carbon Stocks Following Fertilization with Organic Fertilizers and Biological Inputs.

Author

Sivojienė, Diana, Masevičienė, Aistė, Žičkienė, Lina, Ražukas, Almantas, and Kačergius, Audrius

Subjects

*TILLAGE, *SUSTAINABLE agriculture, *ORGANIC fertilizers, *CLIMATE change mitigation, *NATURAL resources, *POULTRY manure, *CATTLE manure

Abstract

Simple Summary: Soil and its quality are becoming more and more important. Healthy and fertile soil allows for the cultivation of high-quality food plants, is resistant to erosion, and contributes to the mitigation of climate change. Researchers are intensively working on research that would allow not only to maintain the quality of the soil, but also to achieve the highest possible yield. Recently, a number of studies have been conducted to determine the benefits of organic fertilizers on soil properties and yield. Our research is about how organic fertilizers and biological inputs affect one of the most important soil components, soil bacteria and fungi, and how other agrochemical parameters change after the application of organic fertilizers. We present a lot of information on how the values of the studied agrochemical and microbiological indicators changed, depending on the use of different organic fertilizers. We also talk about the established effects of the studied biological inputs. Our results contribute to the body of knowledge and can be used to implement sustainable agriculture. The application of organic fertilizers and biological inputs to soil inevitably affects its quality, agrochemical indicators, and microbiota. Sustainable agriculture is based on continuously learning about how to properly manage available soil, water, and biological resources. The aim of the study was to determine changes in microorganism communities and carbon stocks in infertile soils for fertilization using different organic fertilizers and their combinations with bio-inputs. Genetic analysis of microorganism populations was performed using the NGS approach. Our study showed that the application of organic fertilizers affects the soil microbiota and the taxonomic structure of its communities. Specific groups of bacteria, such as Bacillota, were promoted by organic fertilization, meanwhile the abundance of Pseudomonadota and Ascomycota decreased in most treatments after the application of poultry manure. Metagenomic analysis confirmed that the use of bio-inputs increased the relative abundance of Trichoderma spp. fungi; meanwhile, a significant change was not found in the representatives of Azotobacter compared to the treatments where the bio-inputs were not used. The positive influence of fertilization appeared on all the studied agrochemical indicators. Higher concentrations of Corg and Nmin accumulated in the soil when we used granulated poultry manure, and pHKCl when we used cattle manure. [ABSTRACT FROM AUTHOR]

Published

2024

39. Non-invasive early detection on esophageal squamous cell carcinoma and precancerous lesions by microbial biomarkers combining epidemiological factors in China.

Author

Li, Minjuan, Shao, Dantong, Fan, Zhiyuan, Qin, Junjie, Xu, Junming, Huang, Qingru, Li, Xinqing, Hua, Zhaolai, Li, Jun, Hao, Changqing, Wei, Wenqiang, and Abnet, Christian C

Subjects

*PRECANCEROUS conditions, *SQUAMOUS cell carcinoma, *BIOMARKERS, *CERVICAL intraepithelial neoplasia, *TOOTHACHE, *PORPHYROMONAS gingivalis, *POLYMERASE chain reaction

Abstract

Background: Microbiota may be associated with esophageal squamous cell carcinoma (ESCC) development. However, it is not known the predictive value of microbial biomarkers combining epidemiological factors for the early detection of ESCC and precancerous lesions. Methods: A total of 449 specimens (esophageal swabs and saliva) were collected from 349 participants with different esophageal statuses in China to explore and validate ESCC-associated microbial biomarkers from genes level to species level by 16S rRNA sequencing, metagenomic sequencing and real-time quantitative polymerase chain reaction. Results: A bacterial biomarker panel including Actinomyces graevenitzii (A.g_1, A.g_2, A.g_3, A.g_4), Fusobacteria nucleatum (F.n_1, F.n_2, F.n_3), Haemophilus haemolyticus (H.h_1), Porphyromonas gingivalis (P.g_1, P.g_2, P.g_3) and Streptococcus australis (S.a_1) was explored by metagenomic sequencing to early detect the participants in Need group (low-grade intraepithelial neoplasia, high-grade intraepithelial neoplasia and ESCC) vs participants without these lesions as the Noneed group. Significant quantitative differences existed for each microbial target in which the detection efficiency rate was higher in saliva than esophageal swab. In saliva, the area under the curve (AUC) based on the microbial biomarkers (A.g_4 ∩ P.g_3 ∩ H.h_1 ∩ S.a_1 ∩ F.n_2) was 0.722 (95% CI 0.621–0.823) in the exploration cohort. Combining epidemiological factors (age, smoking, drinking, intake of high-temperature food and toothache), the AUC improved to 0.869 (95% CI 0.802–0.937) in the exploration cohort, which was validated with AUC of 0.757 (95% CI 0.663–0.852) in the validation cohort. Conclusions: It is feasible to combine microbial biomarkers in saliva and epidemiological factors to early detect ESCC and precancerous lesions in China. [ABSTRACT FROM AUTHOR]

Published

2024

40. Understanding the influence of the microbiome on childhood infections.

Author

Heston, Sarah M., Hurst, Jillian H., and Kelly, Matthew S.

Abstract

Introduction: The microbiome is known to have a substantial impact on human health and disease. However, the impacts of the microbiome on immune system development, susceptibility to infectious diseases, and vaccine-elicited immune responses are emerging areas of interest. Areas covered: In this review, we provide an overview of development of the microbiome during childhood. We highlight available data suggesting that the microbiome is critical to maturation of the immune system and modifies susceptibility to a variety of infections during childhood and adolescence, including respiratory tract infections, Clostridioides difficile infection, and sexually transmitted infections. We discuss currently available and investigational therapeutics that have the potential to modify the microbiome to prevent or treat infections among children. Finally, we review the accumulating evidence that the gut microbiome influences vaccine-elicited immune responses among children. Expert opinion: Recent advances in sequencing technologies have led to an explosion of studies associating the human microbiome with the risk and severity of infectious diseases. As our knowledge of the extent to which the microbiome influences childhood infections continues to grow, microbiome-based diagnostics and therapeutics will increasingly be incorporated into clinical practice to improve the prevention, diagnosis, and treatment of infectious diseases among children. [ABSTRACT FROM AUTHOR]

Published

2024

41. Comparative Metagenomic Analysis Reveals Rhizosphere Microbiome Assembly and Functional Adaptation Changes Caused by Clubroot Disease in Chinese Cabbage.

Author

Liu, Yong, Lai, Jia, Sun, Xiaofang, Huang, Ling, Sheng, Yuzhen, Zhang, Qianfang, Zeng, Hualan, Zhang, Yinchao, Ye, Pengsheng, and Wei, Shugu

Subjects

CHINESE cabbage, PLANT diseases, ENVIRONMENTAL soil science, MICROBIAL communities, OXIDATIVE phosphorylation, PLASMODIOPHORA brassicae

Abstract

Clubroot is a major disease and severe threat to Chinese cabbage, and it is caused by the pathogen Plasmodiophora brassicae Woron. This pathogen is an obligate biotrophic protist and can persist in soil in the form of resting spores for more than 18 years, which can easily be transmitted through a number of agents, resulting in significant economic losses to global Chinese cabbage production. Rhizosphere microbiomes play fundamental roles in the occurrence and development of plant diseases. The changes in the rhizosphere microorganisms could reveal the severity of plant diseases and provide the basis for their control. Here, we studied the rhizosphere microbiota after clubroot disease infections with different severities by employing metagenomic sequencing, with the aim of exploring the relationships between plant health, rhizosphere microbial communities, and soil environments; then, we identified potential biomarker microbes of clubroot disease. The results showed that clubroot disease severity significantly affected the microbial community composition and structure of the rhizosphere soil, and microbial functions were also dramatically influenced by it. Four different microbes that had great potential in the biocontrol of clubroot disease were identified from the obtained results; they were the genera Pseudomonas, Gemmatimonas, Sphingomonas, and Nocardioides. Soil pH, organic matter contents, total nitrogen, and cation exchange capacity were the major environmental factors modulating plant microbiome assembly. In addition, microbial environmental information processing was extremely strengthened when the plant was subjected to pathogen invasion, but weakened when the disease became serious. In particular, oxidative phosphorylation and glycerol-1-phosphatase might have critical functions in enhancing Chinese cabbage's resistance to clubroot disease. This work revealed the interactions and potential mechanisms among Chinese cabbage, soil environmental factors, clubroot disease, and microbial community structure and functions, which may provide a novel foundation for further studies using microbiological or metabolic methods to develop disease-resistant cultivation technologies. [ABSTRACT FROM AUTHOR]

Published

2024

42. Weathering the storm: diagnosis and treatment of a life-threatening disseminated Nocardia otitidiscaviarum infection.

Author

Li-Yan Zhang, Liang Wang, Umar, Zeeshan, Yuan-Hong Huang, and Bing Gu

Subjects

NOCARDIOSIS, NOCARDIA, COMMUNICABLE diseases, DIAGNOSIS, THERAPEUTICS

Abstract

Nocardiosis demonstrates a temporal categorization that includes acute, subacute, and chronic stages alongside distinct typical localizations such as pulmonary, cutaneous, and disseminated forms. Disseminated nocardiosis, commonly caused by Nocardia asteroides, N. brasiliensis, and N. farcinica, continues to result in substantial morbidity and mortality. Herein, we report a life-threatening disseminated nocardiosis caused by Nocardia otitidiscaviarum in a patient with minimal change disease. This study emphasizes the difficulty in the diagnosis and treatment of unknown infections in clinical settings and highlights the important role played by laboratories in solving infectious diseases caused by rare pathogens. [ABSTRACT FROM AUTHOR]

Published

2024

43. Comprehensive analysis of phenotypes and transcriptome characteristics reveal the best atopic dermatitis mouse model induced by MC903.

Author

Zhang, Shan, Fang, Xiaokai, Xu, Beilei, Zhou, Yuan, Li, Fang, Gao, Yuwen, Luo, Yang, Yao, Xu, and Liu, Xiaochun

Subjects

*ATOPIC dermatitis, *LABORATORY mice, *ANIMAL disease models, *PHENOTYPES, *IMMUNOGLOBULIN E

Abstract

Although several mouse models of exogenous-agent – induced atopic dermatitis (AD) are currently available, the lack of certainty regarding their similarity with human AD has limited their scientific value. Thus, comprehensive evaluation of the characteristics of mouse models and their similarity with human AD is essential. To compare six different exogenous-agent – induced AD mouse models and find out the optimum models for study. Female BALB/c mice underwent induction of AD-like dermatitis by MC903 alone or in combination with ovalbumin (OVA), dinitrofluorobenzene (DNFB) alone or in combination with OVA, OVA alone, or Staphylococcus aureus. Gross phenotype, total immunoglobulin E (IgE) level, histopathological manifestations, and skin lesion transcriptome were analyzed, and metagenomic sequencing of the gut microbiome was performed. The DNFB plus OVA model showed the highest disease severity, while the OVA model showed the lowest severity. The MC903 and MC903 plus OVA models showed high expression of T-helper (Th)2- and Th17-related genes; the DNFB and DNFB plus OVA models showed upregulation of Th1-, Th2-, and Th17-related genes; while the S. aureus inoculation model showed more enhanced Th1 and Th17 immune responses. In contrast to the other models, the OVA-induced model showed the lowest expression levels of inflammation-related genes, while the MC903 model shared the largest overlap with human AD profiles. The intestinal microbiota of all groups showed significant differences after modeling. Each AD mouse model exhibited different characteristics. The MC903 model was the best to recapitulate most features of human AD among these exogenous-agent – induced AD models. • Each exogenous-agent–induced AD model exhibited different characteristics. • The MC903 model was the best to recapitulate most features of human AD among these exogenous-agent–induced AD models. • The intestinal microbiota of all models showed significant differences after modeling. [ABSTRACT FROM AUTHOR]

Published

2024

44. 基于培养和宏基因组评价西瓜的保存方式.

Author

武雅文, 王焕英, 洪文杰, 杨 斌, 方 穹, 王玉霞, 张 力, 高雯雯, 戴乐薇, and 车 阳

Abstract

Copyright of Journal of Food Safety & Quality is the property of Journal of Food Safety & Quality Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

45. Detection of Leptospirosis Genome from the Aqueous Humor of a Patient with Bilateral Uveitis.

Author

Gonzales, John, Sundararajan, Miel, Qian, Ying, Hwang, Thomas, and Doan, Thuy

Subjects

Anterior chamber paracentesis, RNA sequencing, leptospirosis, leptospirosis uveitis, metagenomic sequencing, Humans, Retrospective Studies, Aqueous Humor, Leptospirosis, Leptospira, Uveitis

Abstract

BACKGROUND: Leptospira species are difficult to culture. Thus, when there is suspicion for an infectious etiology to uveitis, bacterial cultures may fail to identify Leptospira. We describe a case of leptospirosis-associated uveitis that evaded culture and molecular assays. DNA sequencing of the aqueous fluid showed the presence of Leptospira spp. METHODS: Retrospective case review of clinical and laboratory features of a patient with ocular leptospirosis is presented. RESULTS: DNA sequencing identified the genome of Leptospirosis spp. in the aqueous humor. CONCLUSION: Metagenomic sequencing, by virtue of its unbiased nature, can be a helpful adjunctive test when a strong clinical suspicion for intraocular infection persists despite negative routine culture and molecular assays.

Published

2023

46. Dietary amino acids, macronutrients, vaginal birth, and breastfeeding are associated with the vaginal microbiome in early pregnancy

Author

Gillian A. Corbett, Rebecca Moore, Conor Feehily, Sarah Louise Killeen, Eileen O'Brien, Douwe Van Sinderen, Elizabeth Matthews, Roisin O'Flaherty, Pauline M. Rudd, Radka Saldova, Calum J. Walsh, Elaine M. Lawton, David A. MacIntyre, Siobhan Corcoran, Paul D. Cotter, and Fionnuala M. McAuliffe

Subjects

vagina, microbiota, pregnancy, metagenomic sequencing, beta diversity, alpha diversity, Microbiology, QR1-502

Abstract

ABSTRACT The vaginal microbiome is a key player in the etiology of spontaneous preterm birth. This study aimed to illustrate maternal environmental factors associated with vaginal microbiota composition and function in pregnancy. Women in healthy pregnancy had vaginal microbial sampling from the posterior vaginal fornix performed at 16 weeks gestation. After shotgun metagenomic sequencing, heatmaps of relative abundance data were generated. Community state type (CST) was assigned, and alpha diversity was calculated. Demography, obstetric history, well-being, exercise, and diet using food frequency questionnaires were collected and compared against microbial parameters. A total of 119 pregnant participants had vaginal metagenomic sequencing performed. Factors with strongest association with beta diversity were dietary lysine (adj-R2 0.113, P = 0.002), valine (adj-R2 0.096, P = 0.004), leucine (adj-R2 0.086, P = 0.003), and phenylalanine (adj-R2 0.085, P = 0.005, Fig. 2D). Previous vaginal delivery and breastfeeding were associated with vaginal beta diversity (adj-R2 0.048, P = 0.003; adj-R2 0.045, P = 0.004), accounting for 8.5% of taxonomy variation on redundancy analysis. Dietary fat, starch, and maltose were positively correlated with alpha diversity (fat +0.002 SD/g, P = 0.025; starch +0.002 SD/g, P = 0.043; maltose +0.440 SD/g, P = 0.013), particularly in secretor-positive women. Functional signature was associated with CST, maternal smoking, and dietary phenylalanine, accounting for 8.9%–11% of the variation in vaginal microbiome functional signature. Dietary amino acids, previous vaginal delivery, and breastfeeding history were associated with vaginal beta diversity. Functional signature of the vaginal microbiome differed with community state type, smoking, dietary phenylalanine, and vitamin K. Increased alpha diversity correlated with dietary fat and starch. These data provide a novel snapshot into the associations between maternal environment, nutrition, and the vaginal microbiome.IMPORTANCEThis secondary analysis of the MicrobeMom randomized controlled trial reveals that dietary amino acids, macronutrients, previous vaginal birth, and breastfeeding have the strongest associations with vaginal taxonomy in early pregnancy. Function of the vaginal niche is associated mainly by species composition, but smoking, vitamin K, and phenylalanine also play a role. These associations provide an intriguing and novel insight into the association between host factors and diet on the vaginal microbiome in pregnancy and highlight the need for further investigation into the complex interactions between the diet, human gut, and vaginal microbiome.

Published

2024

47. The environmental microbial retrieving assessment of cell-processing facilities for cell therapy in a hospital laboratory

Author

Jiabian Lian, Xiaobo Ma, Xun Li, and Lu Xia

Subjects

cell therapy clean room, environmental microbiology, metagenomic sequencing, preventive medicine, environmental monitoring, Microbiology, QR1-502

Abstract

ABSTRACT Cell therapy represents a promising treatment modality. A critical component in the production of cell therapy products is maintaining the sterility of cell therapy clean rooms (CTCRs). This study aimed to evaluate the environmental microbial load within CTCRs. We systematically monitored microbial load in CTCRs, following established guidelines. Cultured microbial samples underwent metagenomic sequencing, and alpha and beta diversity analyses, functional annotation, and resistance gene profiling were performed using various bioinformatics tools to assess microbial diversity and function. From November 2023 to January 2024, we collected 42 environmental microbial colony samples from various sources within the CTCR and performed metagenomic sequencing on 39 samples. Alpha diversity analysis revealed no significant differences among surface, settle_plate, and airborne categories, but significant disparities within surface subgroups were revealed. Beta diversity analysis showed notable differences between surface and airborne categories and among surface subgroups. Species distribution analysis identified Bacillus as the predominant genus on surfaces. Functional annotation and resistance gene analysis indicated distinct resistance patterns, with significant variations between subgroups, such as microscopes and transfer windows, and hands and other Grade_B environments. Resistance to hydrogen peroxide was notably higher in the transfer window group. These findings highlight the importance of stringent disinfection protocols and enhanced hand hygiene to maintain sterility in CTCRs. These findings provide valuable insights for implementing effective measures to maintain cleanliness throughout CTCRs. The annotation and study of resistance genes can help rapidly identify methods to control cellular contamination under circumstances of environmental microbial pollution.IMPORTANCEMaintaining the sterility of cell therapy clean rooms (CTCRs) is crucial for the production of safe and effective cell therapy products. Our study systematically evaluated the environmental microbial load within CTCRs, revealing significant microbial diversity and distinct resistance patterns to disinfection methods. These findings underscore the need for stringent disinfection protocols and enhanced hand hygiene practices to ensure CTCR sterility. By identifying key microbial species and their resistance genes, our research provides essential insights into controlling contamination and safeguarding the production environment, ultimately contributing to the reliability and success of cell therapy treatments.

Published

2024

48. Profiling of Microbial Community and Their Role in Solid Waste Treatment

Author

Singh, Shubhra, Shyu, Douglas J. H., Kumar, Vineet, editor, Bhat, Sartaj Ahmad, editor, Kumar, Sunil, editor, and Verma, Pradeep, editor

Published

2024

49. Next-Generation Sequence Analysis of Postbiotics in Fermented Dairy Food

Author

Radhamanalan, Guhanraj, Dharumadurai, Dhanasekaran, Sant'Ana, Anderson S., Series Editor, and Dharumadurai, Dhanasekaran, editor

Published

2024

50. Machine Learning Approaches for Microorganism Identification, Virulence Assessment, and Antimicrobial Susceptibility Evaluation Using DNA Sequencing Methods: A Systematic Review

Author

Abhadionmhen, Abel Onolunosen, Asogwa, Caroline Ngozi, Ezema, Modesta Ero, Nzeh, Royransom Chiemela, Ezeora, Nnamdi Johnson, Abhadiomhen, Stanley Ebhohimhen, Echezona, Stephenson Chukwukanedu, and Udanor, Collins Nnalue

Published

2024