Your search keyword '"Genome catalog"' showing total 5 results

1. MBCN: A novel reference database for Effcient Metagenomic analysis of human gut microbiome

Author

Zheng, Bo, Xu, Junming, Zhang, Yijie, Qin, Junjie, Yuan, Decai, Fan, Tingting, Wu, Weibin, Chen, Yan, and Jiang, Yuyang

Published

2024

2. A comprehensive catalog encompassing 1376 species-level genomes reveals the core community and functional diversity of anammox microbiota.

Author

Wang, Depeng, Meng, Yabing, Huang, Li-Nan, Zhang, Xu-Xiang, Luo, Xiaonan, and Meng, Fangang

Subjects

*MICROBIAL communities, *WASTEWATER treatment, *CARBOHYDRATE metabolism, *GENOMES, *CATALOGS

Abstract

• A comprehensive genome catalog of anammox consortia was constructed. • The 1376 species-level genomes represented extensive microbial coverage. • The 64 core genera comprised approximately 64.25 % of the total microorganisms. • Genera UBA12294 and OLB14 of order Anaerolineales were identified as strict core taxa. • Core genera Desulfobacillus and Zeimonas exhibited taxonomic and functional diversity. Research on the microbial community and function of the anammox process for environmentally friendly wastewater treatment has achieved certain success, which may mean more universal insights are needed. However, the comprehensive understanding of the anammox process is constrained by the limited taxonomic assignment and functional characterization of anammox microbiota, primarily due to the scarcity of high-quality genomes for most organisms. This study reported a global genome catalog of anammox microbiotas based on numerous metagenomes obtained from both lab- and full-scale systems. A total of 1376 candidate species from 7474 metagenome-assembled genomes were used to construct the genome catalog, providing extensive microbial coverage (averaged of 92.40 %) of anammox microbiota. Moreover, a total of 64 core genera and 44 core species were identified, accounting for approximately 64.25 % and 43.97 %, respectively, of anammox microbiota. The strict core genera encompassed not only functional bacteria (e.g., Brocadia, Desulfobacillus, Zeimonas , and Nitrosomonas) but also two candidate genera (UBA12294 and OLB14) affiliated with the order Anaerolineales. In particular, core denitrifying bacteria with observably taxonomic diversity exhibited diverse functional profiles; for instance, the potential of carbohydrate metabolism in Desulfobacillus and Zeimonas likely improves the mixotrophic lifestyle of anammox microbiota. Besides, a noteworthy association was detected between anammox microbiota and system type. Microbiota in coupling system exhibited complex diversity and interspecies interactions by limiting numerous core denitrifying bacteria. In summary, the constructed catalog substantially expands our understanding of the core community and their functions of anammox microbiota, providing a valuable resource for future studies on anammox systems. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

3. Over 50,000 Metagenomically Assembled Draft Genomes for the Human Oral Microbiome Reveal New Taxa

Author

Jie Zhu, Liu Tian, Peishan Chen, Mo Han, Liju Song, Xin Tong, Xiaohuan Sun, Fangming Yang, Zhipeng Lin, Xing Liu, Chuan Liu, Xiaohan Wang, Yuxiang Lin, Kaiye Cai, Yong Hou, Xun Xu, Huanming Yang, Jian Wang, Karsten Kristiansen, Liang Xiao, Tao Zhang, Huijue Jia, and Zhuye Jie

Subjects

Metagenomics, Human oral microbiome, Metagenome-assembly genome, Genome catalog, Gender, Biology (General), QH301-705.5, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

The oral cavity of each person is home to hundreds of bacterial species. While taxa for oral diseases have been studied using culture-based characterization as well as amplicon sequencing, metagenomic and genomic information remains scarce compared to the fecal microbiome. Here, using metagenomic shotgun data for 3346 oral metagenomic samples together with 808 published samples, we obtain 56,213 metagenome-assembled genomes (MAGs), and more than 64% of the 3589 species-level genome bins (SGBs) contain no publicly available genomes. The resulting genome collection is representative of samples around the world and contains many genomes from candidate phyla radiation (CPR) that lack monoculture. Also, it enables the discovery of new taxa such as a genus Candidatus Bgiplasma within the family Acholeplasmataceae. Large-scale metagenomic data from massive samples also allow the assembly of strains from important oral taxa such as Porphyromonas and Neisseria. The oral microbes encode genes that could potentially metabolize drugs. Apart from these findings, a strongly male-enriched Campylobacter species was identified. Oral samples would be more user-friendly collected than fecal samples and have the potential for disease diagnosis. Thus, these data lay down a genomic framework for future inquiries of the human oral microbiome.

Published

2022

4. New Drinking Water Genome Catalog Identifies a Globally Distributed Bacterial Genus Adapted to Disinfected Drinking Water Systems.

Author

Sudarshan AS, Dai Z, Gabrielli M, Oosthuizen-Vosloo S, Konstantinidis KT, and Pinto AJ

Subjects

Disinfection, Bacteria genetics, Microbiota, Genome, Bacterial, Metagenome, Drinking Water microbiology

Abstract

Genome-resolved insights into the structure and function of the drinking water microbiome can advance the effective management of drinking water quality. To enable this, we constructed and curated thousands of metagenome-assembled and isolate genomes from drinking water distribution systems globally to develop a Drinking Water Genome Catalog (DWGC). The current DWGC disproportionately represents disinfected drinking water systems due to a paucity of metagenomes from nondisinfected systems. Using the DWGC, we identify core genera of the drinking water microbiome including a genus (UBA4765) within the order Rhizobiales that is frequently detected and highly abundant in disinfected drinking water systems. We demonstrate that this genus has been widely detected but incorrectly classified in previous amplicon sequencing-based investigations of the drinking water microbiome. Further, we show that a single genome variant (genomovar) within this genus is detected in 75% of drinking water systems included in this study. We propose a name for this uncultured bacterium as " Raskinella chloraquaticus " and describe the genus as " Raskinella " (endorsed by SeqCode). Metabolic annotation and modeling-based predictions indicate that this bacterium is capable of necrotrophic growth, is able to metabolize halogenated compounds, proliferates in a biofilm-based environment, and shows clear indications of disinfection-mediated selection.

Published

2024

5. Over 50,000 Metagenomically Assembled Draft Genomes for the Human Oral Microbiome Reveal New Taxa

Author

Zhu, Jie, Tian, Liu, Chen, Peishan, Han, Mo, Song, Liju, Tong, Xin, Sun, Xiaohuan, Yang, Fangming, Lin, Zhipeng, Liu, Xing, Liu, Chuan, Wang, Xiaohan, Lin, Yuxiang, Cai, Kaiye, Hou, Yong, Xu, Xun, Yang, Huanming, Wang, Jian, Kristiansen, Karsten, Xiao, Liang, Zhang, Tao, Jia, Huijue, Jie, Zhuye, Zhu, Jie, Tian, Liu, Chen, Peishan, Han, Mo, Song, Liju, Tong, Xin, Sun, Xiaohuan, Yang, Fangming, Lin, Zhipeng, Liu, Xing, Liu, Chuan, Wang, Xiaohan, Lin, Yuxiang, Cai, Kaiye, Hou, Yong, Xu, Xun, Yang, Huanming, Wang, Jian, Kristiansen, Karsten, Xiao, Liang, Zhang, Tao, Jia, Huijue, and Jie, Zhuye

Abstract

The oral cavity of each person is home to hundreds of bacterial species. While taxa for oral diseases have been studied using culture-based characterization as well as amplicon sequencing, metagenomic and genomic information remains scarce compared to the fecal microbiome. Here, using metagenomic shotgun data for 3346 oral metagenomic samples together with 808 published samples, we obtain 56,213 metagenome-assembled genomes (MAGs), and more than 64% of the 3589 species-level genome bins (SGBs) contain no publicly available genomes. The resulting genome collection is representative of samples around the world and contains many genomes from candidate phyla radiation (CPR) which lack monoculture. Also, it enables the discovery of new taxa such as a genus Candidatus Bgiplasma within the family Acholeplasmataceae. Large-scale metagenomic data from massive samples also allow the assembly of strains from important oral taxa such as Porphyromonas and Neisseria. The oral microbes encode genes that could potentially metabolize drugs. Apart from these findings, a strongly male-enriched Campylobacter species was identified. Oral samples would be more user-friendly collected than fecal samples and have the potential for disease diagnosis. Thus, these data lay down a genomic framework for future inquiries of the human oral microbiome.

Published

2022