Pablo Yarza scite author profile

SILVA (from Latin silva, forest, http://www.arb-silva.de) is a comprehensive web resource for up to date, quality-controlled databases of aligned ribosomal RNA (rRNA) gene sequences from the Bacteria, Archaea and Eukaryota domains and supplementary online services. The referred database release 111 (July 2012) contains 3 194 778 small subunit and 288 717 large subunit rRNA gene sequences. Since the initial description of the project, substantial new features have been introduced, including advanced quality control procedures, an improved rRNA gene aligner, online tools for probe and primer evaluation and optimized browsing, searching and downloading on the website. Furthermore, the extensively curated SILVA taxonomy and the new non-redundant SILVA datasets provide an ideal reference for high-throughput classification of data from next-generation sequencing approaches.

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The SILVA and “All-species Living Tree Project (LTP)” taxonomic frameworks

Yilmaz

et al. 2013

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SILVA (from Latin silva, forest, http://www.arb-silva.de) is a comprehensive resource for up-to-date quality-controlled databases of aligned ribosomal RNA (rRNA) gene sequences from the Bacteria, Archaea and Eukaryota domains and supplementary online services. SILVA provides a manually curated taxonomy for all three domains of life, based on representative phylogenetic trees for the small- and large-subunit rRNA genes. This article describes the improvements the SILVA taxonomy has undergone in the last 3 years. Specifically we are focusing on the curation process, the various resources used for curation and the comparison of the SILVA taxonomy with Greengenes and RDP-II taxonomies. Our comparisons not only revealed a reasonable overlap between the taxa names, but also points to significant differences in both names and numbers of taxa between the three resources.

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Uniting the classification of cultured and uncultured bacteria and archaea using 16S rRNA gene sequences

et al. 2014

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Publicly available sequence databases of the small subunit ribosomal RNA gene, also known as 16S rRNA in bacteria and archaea, are growing rapidly, and the number of entries currently exceeds 4 million. However, a unified classification and nomenclature framework for all bacteria and archaea does not yet exist. In this Analysis article, we propose rational taxonomic boundaries for high taxa of bacteria and archaea on the basis of 16S rRNA gene sequence identities and suggest a rationale for the circumscription of uncultured taxa that is compatible with the taxonomy of cultured bacteria and archaea. Our analyses show that only nearly complete 16S rRNA sequences give accurate measures of taxonomic diversity. In addition, our analyses suggest that most of the 16S rRNA sequences of the high taxa will be discovered in environmental surveys by the end of the current decade.

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The All-Species Living Tree project: A 16S rRNA-based phylogenetic tree of all sequenced type strains

Yarza

Richter

Peplies

et al. 2008

Systematic and Applied Microbiology

860

568

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25 years of serving the community with ribosomal RNA gene reference databases and tools

Glöckner

Yilmaz

Quast

et al. 2017

Journal of Biotechnology

638

461

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SILVA (lat. forest) is a comprehensive web resource, providing services around up to date, high-quality datasets of aligned ribosomal RNA gene (rDNA) sequences from the Bacteria, Archaea, and Eukaryota domains. SILVA dates back to the year 1991 when Dr. Wolfgang Ludwig from the Technical University Munich started the integrated software workbench ARB (lat. tree) to support high-quality phylogenetic inference and taxonomy based on the SSU and LSU rDNA marker genes. At that time, the ARB project maintained both, the sequence reference datasets and the software package for data analysis. In 2005, with the massive increase of DNA sequence data, the maintenance of the software system ARB and the corresponding rRNA databases SILVA was split between Munich and the Microbial Genomics and Bioinformatics Research Group in Bremen. ARB has been continuously developed to include new features and improve the usability of the workbench. Thousands of users worldwide appreciate the seamless integration of common analysis tools under a central graphical user interface, in combination with its versatility. The first SILVA release was deployed in February 2007 based on the EMBL-EBI/ENA release 89. Since then, full SILVA releases offering the database content in various flavours are published at least annually, complemented by intermediate web-releases where only the SILVA web dataset is updated. SILVA is the only rDNA database project worldwide where special emphasis is given to the consistent naming of clades of uncultivated (environmental) sequences, where no validly described cultivated representatives are available. Also exclusive for SILVA is the maintenance of both comprehensive aligned 16S/18S rDNA and 23S/28S rDNA sequence datasets. Furthermore, the SILVA alignments and trees were designed to include Eukaryota, another unique feature among rDNA databases. With the termination of the European Ribosomal RNA Database Project in 2007, the SILVA database has become the authoritative rDNA database project for Europe. The application spectrum of ARB and SILVA ranges from biodiversity analysis, medical diagnostics, to biotechnology and quality control for academia and industry.

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Update of the All-Species Living Tree Project based on 16S and 23S rRNA sequence analyses

Yarza

Ludwig

Euzéby

et al. 2010

Systematic and Applied Microbiology

416

198

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Adaptive Road Crack Detection System by Pavement Classification

Gavilán

Balcones

Marcos

et al. 2011

Sensors

287

147

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This paper presents a road distress detection system involving the phases needed to properly deal with fully automatic road distress assessment. A vehicle equipped with line scan cameras, laser illumination and acquisition HW-SW is used to storage the digital images that will be further processed to identify road cracks. Pre-processing is firstly carried out to both smooth the texture and enhance the linear features. Non-crack features detection is then applied to mask areas of the images with joints, sealed cracks and white painting, that usually generate false positive cracking. A seed-based approach is proposed to deal with road crack detection, combining Multiple Directional Non-Minimum Suppression (MDNMS) with a symmetry check. Seeds are linked by computing the paths with the lowest cost that meet the symmetry restrictions. The whole detection process involves the use of several parameters. A correct setting becomes essential to get optimal results without manual intervention. A fully automatic approach by means of a linear SVM-based classifier ensemble able to distinguish between up to 10 different types of pavement that appear in the Spanish roads is proposed. The optimal feature vector includes different texture-based features. The parameters are then tuned depending on the output provided by the classifier. Regarding non-crack features detection, results show that the introduction of such module reduces the impact of false positives due to non-crack features up to a factor of 2. In addition, the observed performance of the crack detection system is significantly boosted by adapting the parameters to the type of pavement.

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The metavirome of a hypersaline environment

Santos

Yarza

Parro

et al. 2010

Environmental Microbiology

113

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Hypersaline environments harbour the highest number of virus-like particles reported for planktonic systems. However, very little is known about the genomic diversity of these virus assemblages since most of the knowledge on halophages is based on the analysis of a few isolates infecting strains of hyperhalophilic Archaea that may not be representatives of the natural microbiota. Here, we report the characterization, through a metagenomic approach, of the viral assemblage inhabiting a crystallizer pond (CR30) from a multi-pond solar saltern in Santa Pola (SE Spain). A total of 1.35 Mbp were cloned that yielded a total of 620 kb sequenced viral DNA. The metavirome was highly diverse and different from virus communities of marine and other aquatic environments although it showed some similarities with metaviromes from high-salt ponds in solar salterns in San Diego (SW USA), indicating some common traits between high-salt viromes. A high degree of diversity was found in the halophages as revealed by the presence of 2479 polymorphic nucleotides. Dinucleotide frequency analysis of the CR30 metavirome showed a good correlation with GC content and enabled the establishment of different groups, and even the assignment of their putative hosts: the archaeon Haloquadratum walsbyi and the bacterium Salinibacter ruber.

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Pablo Yarza

The SILVA ribosomal RNA gene database project: improved data processing and web-based tools

The SILVA and “All-species Living Tree Project (LTP)” taxonomic frameworks

Uniting the classification of cultured and uncultured bacteria and archaea using 16S rRNA gene sequences

The All-Species Living Tree project: A 16S rRNA-based phylogenetic tree of all sequenced type strains

25 years of serving the community with ribosomal RNA gene reference databases and tools

Update of the All-Species Living Tree Project based on 16S and 23S rRNA sequence analyses

Adaptive Road Crack Detection System by Pavement Classification

The metavirome of a hypersaline environment

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