Your search keyword '"Matteo Soverini"' showing total 3 results

1. Do the human gut metagenomic species possess the minimal set of core functionalities necessary for life?

Author

Matteo Soverini, Simone Rampelli, Silvia Turroni, Patrizia Brigidi, Elena Biagi, and Marco Candela

Subjects

Gut microbiome, Metagenomic assembled genomes, Uncultured metagenomic species, Minimal bacterial genome, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Advances in bioinformatics recently allowed for the recovery of ‘metagenomes assembled genomes’ from human microbiome studies carried on with shotgun sequencing techniques. Such approach is used as a mean to discover new unclassified metagenomic species, putative biological entities having distinct metabolic traits. Results In the present analysis we compare 400 genomes from isolates available on NCBI database and 10,000 human gut metagenomic species, screening all of them for the presence of a minimal set of core functionalities necessary, but not sufficient, for life. As a result, the metagenome-assembled genomes resulted systematically depleted in genes encoding for essential functions apparently needed to support autonomous bacterial life. Conclusions The relevant degree of lacking core functionalities that we observed in metagenome-assembled genomes raises some concerns about the effective completeness of metagenome-assembled genomes, suggesting caution in extrapolating biological information about their metabolic propensity and ecology in a complex environment like the human gastrointestinal tract.

Published

2020

2. HumanMycobiomeScan: a new bioinformatics tool for the characterization of the fungal fraction in metagenomic samples

Author

Matteo Soverini, Silvia Turroni, Elena Biagi, Patrizia Brigidi, Marco Candela, and Simone Rampelli

Subjects

Mycobiome, Microbiome, Metagenomics, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Modern metagenomic analysis of complex microbial communities produces large amounts of sequence data containing information on the microbiome in terms of bacterial, archaeal, viral and eukaryotic composition. The bioinformatics tools available are mainly devoted to profiling the bacterial and viral fractions and only a few software packages consider fungi. As the human fungal microbiome (human mycobiome) can play an important role in the onset and progression of diseases, a comprehensive description of host-microbiota interactions cannot ignore this component. Results HumanMycobiomeScan is a bioinformatics tool for the taxonomic profiling of the mycobiome directly from raw data of next-generation sequencing. The tool uses hierarchical databases of fungi in order to unambiguously assign reads to fungal species more accurately and > 10,000 times faster than other comparable approaches. HumanMycobiomeScan was validated using in silico generated synthetic communities and then applied to metagenomic data, to characterize the intestinal fungal components in subjects adhering to different subsistence strategies. Conclusions Although blind to unknown species, HumanMycobiomeScan allows the characterization of the fungal fraction of complex microbial ecosystems with good performance in terms of sample denoising from reads belonging to other microorganisms. HumanMycobiomeScan is most appropriate for well-studied microbiomes, for which most of the fungal species have been fully sequenced. This released version is functionally implemented to work with human-associated microbiota samples. In combination with other microbial profiling tools, HumanMycobiomeScan is a frugal and efficient tool for comprehensive characterization of microbial ecosystems through shotgun metagenomics sequencing.

Published

2019

3. HumanMycobiomeScan: a new bioinformatics tool for the characterization of the fungal fraction in metagenomic samples

Author

Patrizia Brigidi, Simone Rampelli, Silvia Turroni, Marco Candela, Matteo Soverini, Elena Biagi, Soverini M., Turroni S., Biagi E., Brigidi P., Candela M., and Rampelli S.

Subjects

0106 biological sciences, lcsh:QH426-470, In silico, lcsh:Biotechnology, Microbial profiling, Biology, Proteomics, Bioinformatics, 01 natural sciences, 03 medical and health sciences, Metagenomic, lcsh:TP248.13-248.65, Genetics, Animals, Humans, Microbiome, 030304 developmental biology, 0303 health sciences, Fungi, High-Throughput Nucleotide Sequencing, lcsh:Genetics, Metagenomics, DNA microarray, Shotgun metagenomics, Software, Mycobiome, 010606 plant biology & botany, Biotechnology

Abstract

Background Modern metagenomic analysis of complex microbial communities produces large amounts of sequence data containing information on the microbiome in terms of bacterial, archaeal, viral and eukaryotic composition. The bioinformatics tools available are mainly devoted to profiling the bacterial and viral fractions and only a few software packages consider fungi. As the human fungal microbiome (human mycobiome) can play an important role in the onset and progression of diseases, a comprehensive description of host-microbiota interactions cannot ignore this component. Results HumanMycobiomeScan is a bioinformatics tool for the taxonomic profiling of the mycobiome directly from raw data of next-generation sequencing. The tool uses hierarchical databases of fungi in order to unambiguously assign reads to fungal species more accurately and > 10,000 times faster than other comparable approaches. HumanMycobiomeScan was validated using in silico generated synthetic communities and then applied to metagenomic data, to characterize the intestinal fungal components in subjects adhering to different subsistence strategies. Conclusions Although blind to unknown species, HumanMycobiomeScan allows the characterization of the fungal fraction of complex microbial ecosystems with good performance in terms of sample denoising from reads belonging to other microorganisms. HumanMycobiomeScan is most appropriate for well-studied microbiomes, for which most of the fungal species have been fully sequenced. This released version is functionally implemented to work with human-associated microbiota samples. In combination with other microbial profiling tools, HumanMycobiomeScan is a frugal and efficient tool for comprehensive characterization of microbial ecosystems through shotgun metagenomics sequencing. Electronic supplementary material The online version of this article (10.1186/s12864-019-5883-y) contains supplementary material, which is available to authorized users.

Published

2019