Literature DB >> 30376034

VarSome: the human genomic variant search engine.

Christos Kopanos¹, Vasilis Tsiolkas¹, Alexandros Kouris¹, Charles E Chapple¹, Monica Albarca Aguilera¹, Richard Meyer¹, Andreas Massouras¹.

Abstract

SUMMARY: VarSome.com is a search engine, aggregator and impact analysis tool for human genetic variation and a community-driven project aiming at sharing global expertise on human variants.
AVAILABILITY AND IMPLEMENTATION: VarSome is freely available at http://varsome.com. SUPPLEMENTARY INFORMATION: Supplementary data are available at Bioinformatics online.

Entities: Disease Species

Mesh：

Year: 2019 PMID： 30376034 PMCID： PMC6546127 DOI： 10.1093/bioinformatics/bty897

Source DB: PubMed Journal: Bioinformatics ISSN： 1367-4803 Impact factor: 6.937

1 Introduction

When researchers or clinicians are investigating a specific variant, they may need to check the variant’s coding effect for different transcripts, its genomic location and neighboring variants, the genes it may affect, its population frequency, the function of the associated protein, relevant phenotypes, related literature, clinical studies and pathogenicity, or any of a wide range of data, all of which are spread out across multiple resources, making them difficult to access. Also, most resources holding variant details will typically only accept queries in a particular format, and only handle known variants, making it difficult to retrieve information on the effect of a novel, unknown variant. Additionally, experts working in their field in hospitals, clinics and laboratories all over the world have each built up their own knowledge over the years but have no easy way of sharing this expertise. There is no simple, user-editable yet centralized way of marking novel variants encountered during a study as pathogenic or benign. The global community’s knowledge, therefore, remains fragmented. Here, we present VarSome, a search engine for human genomic variation which enables users to look up variants in their genomic context, collects data from multiple databases in a central location and most importantly, aims to enable the community to freely and easily share knowledge on human variation.

2 Materials and methods

VarSome includes information from 30 external databases (Supplementary Table S1). VarSome’s database consists of more than 33 billion data points describing in excess of 500 million variants. To deal with this scale of data, we have developed MolecularDB, an extremely efficient data warehouse particularly adapted to genomics and variant data. Its speed is harnessed by our tool, thalia, also written in C++, which maps a variant to a specific genomic location, identifies equivalent variants, the variant type (frameshift, insertion, deletion, etc.) and its coding effect (if any). The front end is written in HTML5 and JavaScript (React), with the back end implemented in Python 3 (Django) and C++.

3 Results and discussion

VarSome is a search engine for human genomic variation. Users can search by gene name, transcript symbol, genomic location, variant ID or HGVS nomenclature (Dunnen ). VarSome can also parse single lines from VCF files to look up the variant they describe. The results are not limited to known variants, any variant of any length may be entered. The Examples page at https://varsome.com/examples gives a full list of the ways VarSome can be queried. Finally, VarSome can easily be embedded into other web-sites, and has already been integrated into Variant Validator (Freeman ). If the query is a gene or transcript, the results will show the gene’s official name, links to external databases, a short description of the gene product’s function, as well as any medical conditions associated with it. For variants, VarSome displays a summary at the top of the results page with the rsID (if any), type, location, HGVS notation and, for indels, a list of all equivalent variants (variants that produce the same genotype). The variant’s genomic context is displayed in a custom-built genome browser. If the variant falls within a gene, the browser will display its exonic structure, multiple transcripts and regions of interest (such as protein functional domains, binding sites, etc.) retrieved from UniProt (Uniprot Consortium, 2017) and nearby structural variants from ClinVar (Landrum ). Additionally, the browser displays any other known variants in the same genomic region (Fig. 1).

Fig. 1.

VarSome genome browser. (A) Sequence (zooming in shows individual base pairs) and position. (B) Transcripts’ exonic structure and orientation. (C) Regions of interest in the protein (binding sites, functional domains, etc.) taken from UniProt. (D) Lollipop graphs indicating the pathogenicity of known variants in the region. (E) Known variants in the region Variant pathogenicity is reported using an automatic variant classifier that evaluates the submitted variant according to the ACMG guidelines (Richards ), classifying it as one of ‘pathogenic’, ‘likely pathogenic’, ‘likely benign’, ‘benign’ or ‘uncertain significance’. Population frequency data are taken from gnomAD (Lek ), Kaviar3 (Glusman ) and ICGC Somatic (Hudson ); pathogenicity predictions from dbNSFP (Liu ), which compiles prediction scores from 20 different algorithms, and DANN (Quang ). Clinically relevant information (associated conditions, inheritance mode, publications, etc.) are retrieved from the CGD (Solomon ), and variants are also linked to any associated phenotypes in the Human Phenotype Ontology (Köhler ). Finally, users can submit their own contributions, linking variants to phenotypes, diseases or articles, and can make their own pathogenicity assessments. These community annotations are linked to the submitting user’s profile and shown to any future users who visit the variant. VarSome also provides short permanent web links to each individual variant, allowing users to easily share their findings or refer to the variant in publications.

4 Conclusion

VarSome is both a powerful annotation tool and search engine for human genomic variants, and a platform enabling the sharing of knowledge on specific variants. Since its initial release in May 2016, VarSome has grown to 56 000 users from more than 120 different countries. It has already been integrated into other websites, including the Variant Validator (Freeman ), and has been used as an educational resource in university lectures. As the community continues to grow, VarSome is becoming an increasingly important knowledge base for human variation. Most importantly, the ability of users to mark variants as pathogenic or benign allows the combined expertise of the community to be organized and shared to the benefit of everyone in the field. Conflict of Interest: none declared. Click here for additional data file.

12 in total

1. Kaviar: an accessible system for testing SNV novelty.

Authors: Gustavo Glusman; Juan Caballero; Denise E Mauldin; Leroy Hood; Jared C Roach
Journal: Bioinformatics Date: 2011-09-28 Impact factor: 6.937

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Authors: Benjamin D Solomon; Anh-Dao Nguyen; Kelly A Bear; Tyra G Wolfsberg
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3. DANN: a deep learning approach for annotating the pathogenicity of genetic variants.

Authors: Daniel Quang; Yifei Chen; Xiaohui Xie
Journal: Bioinformatics Date: 2014-10-22 Impact factor: 6.937

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Authors: Johan T den Dunnen; Raymond Dalgleish; Donna R Maglott; Reece K Hart; Marc S Greenblatt; Jean McGowan-Jordan; Anne-Francoise Roux; Timothy Smith; Stylianos E Antonarakis; Peter E M Taschner
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6. dbNSFP v3.0: A One-Stop Database of Functional Predictions and Annotations for Human Nonsynonymous and Splice-Site SNVs.

Authors: Xiaoming Liu; Chunlei Wu; Chang Li; Eric Boerwinkle
Journal: Hum Mutat Date: 2016-01-05 Impact factor: 4.878

7. Standards and guidelines for the interpretation of sequence variants: a joint consensus recommendation of the American College of Medical Genetics and Genomics and the Association for Molecular Pathology.

Authors: Sue Richards; Nazneen Aziz; Sherri Bale; David Bick; Soma Das; Julie Gastier-Foster; Wayne W Grody; Madhuri Hegde; Elaine Lyon; Elaine Spector; Karl Voelkerding; Heidi L Rehm
Journal: Genet Med Date: 2015-03-05 Impact factor: 8.822

8. Analysis of protein-coding genetic variation in 60,706 humans.

Authors: Monkol Lek; Konrad J Karczewski; Eric V Minikel; Kaitlin E Samocha; Eric Banks; Timothy Fennell; Anne H O'Donnell-Luria; James S Ware; Andrew J Hill; Beryl B Cummings; Taru Tukiainen; Daniel P Birnbaum; Jack A Kosmicki; Laramie E Duncan; Karol Estrada; Fengmei Zhao; James Zou; Emma Pierce-Hoffman; Joanne Berghout; David N Cooper; Nicole Deflaux; Mark DePristo; Ron Do; Jason Flannick; Menachem Fromer; Laura Gauthier; Jackie Goldstein; Namrata Gupta; Daniel Howrigan; Adam Kiezun; Mitja I Kurki; Ami Levy Moonshine; Pradeep Natarajan; Lorena Orozco; Gina M Peloso; Ryan Poplin; Manuel A Rivas; Valentin Ruano-Rubio; Samuel A Rose; Douglas M Ruderfer; Khalid Shakir; Peter D Stenson; Christine Stevens; Brett P Thomas; Grace Tiao; Maria T Tusie-Luna; Ben Weisburd; Hong-Hee Won; Dongmei Yu; David M Altshuler; Diego Ardissino; Michael Boehnke; John Danesh; Stacey Donnelly; Roberto Elosua; Jose C Florez; Stacey B Gabriel; Gad Getz; Stephen J Glatt; Christina M Hultman; Sekar Kathiresan; Markku Laakso; Steven McCarroll; Mark I McCarthy; Dermot McGovern; Ruth McPherson; Benjamin M Neale; Aarno Palotie; Shaun M Purcell; Danish Saleheen; Jeremiah M Scharf; Pamela Sklar; Patrick F Sullivan; Jaakko Tuomilehto; Ming T Tsuang; Hugh C Watkins; James G Wilson; Mark J Daly; Daniel G MacArthur
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Review 9. The Human Phenotype Ontology in 2017.

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10. ClinVar: public archive of interpretations of clinically relevant variants.

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Journal: Nucleic Acids Res Date: 2015-11-17 Impact factor: 16.971

371 in total

Review 1. Lacrimo-auriculo-dento-digital syndrome: A novel mutation in a Korean family and review of literature.

Authors: Young Hye Ryu; Jong Kyun Chae; Jung-Wook Kim; Soyoung Lee
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2. Germline Mutations in DNA Repair Genes in Patients With Metastatic Castration-resistant Prostate Cancer.

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3. Machine learning-based reclassification of germline variants of unknown significance: The RENOVO algorithm.

Authors: Valentina Favalli; Giulia Tini; Emanuele Bonetti; Gianluca Vozza; Alessandro Guida; Sara Gandini; Pier Giuseppe Pelicci; Luca Mazzarella
Journal: Am J Hum Genet Date: 2021-03-23 Impact factor: 11.025

Review 4. Detecting Causal Variants in Mendelian Disorders Using Whole-Genome Sequencing.

Authors: Abdul Rezzak Hamzeh; T Daniel Andrews; Matt A Field
Journal: Methods Mol Biol Date: 2021

5. The Clinical Genome and Ancestry Report: An interactive web application for prioritizing clinically implicated variants from genome sequencing data with ancestry composition.

Authors: In-Hee Lee; Jose A Negron; Carles Hernandez-Ferrer; William Jefferson Alvarez; Kenneth D Mandl; Sek Won Kong
Journal: Hum Mutat Date: 2019-11-15 Impact factor: 4.878

6. Whole exome sequencing in familial isolated primary hyperparathyroidism.

Authors: F Cetani; E Pardi; P Aretini; F Saponaro; S Borsari; L Mazoni; M Apicella; P Civita; M La Ferla; M A Caligo; F Lessi; C M Mazzanti; L Torregossa; A Oppo; C Marcocci
Journal: J Endocrinol Invest Date: 2019-09-05 Impact factor: 4.256

7. Clinical and Molecular Characterization of Fanconi Anemia Patients in Turkey.

Authors: Güven Toksoy; Dilek Uludağ Alkaya; Gülendam Bagirova; Şahin Avcı; Agharza Aghayev; Nilay Günes; Umut Altunoğlu; Yasemin Alanay; Seher Başaran; Ezgi G Berkay; Birsen Karaman; Tiraje T Celkan; Hilmi Apak; Hülya Kayserili; Beyhan Tüysüz; Zehra O Uyguner
Journal: Mol Syndromol Date: 2020-09-23

8. Spectrum of Disease Severity and Phenotype in Choroideremia Carriers.

Authors: Ruben Jauregui; Karen Sophia Park; Akemi J Tanaka; Ahra Cho; Maarjaliis Paavo; Jana Zernant; Jasmine H Francis; Rando Allikmets; Janet R Sparrow; Stephen H Tsang
Journal: Am J Ophthalmol Date: 2019-06-08 Impact factor: 5.258

9. De Novo KAT5 Variants Cause a Syndrome with Recognizable Facial Dysmorphisms, Cerebellar Atrophy, Sleep Disturbance, and Epilepsy.

Authors: Jonathan Humbert; Smrithi Salian; Periklis Makrythanasis; Gabrielle Lemire; Justine Rousseau; Sophie Ehresmann; Thomas Garcia; Rami Alasiri; Armand Bottani; Sylviane Hanquinet; Erin Beaver; Jennifer Heeley; Ann C M Smith; Seth I Berger; Stylianos E Antonarakis; Xiang-Jiao Yang; Jacques Côté; Philippe M Campeau
Journal: Am J Hum Genet Date: 2020-08-20 Impact factor: 11.025

Review 10. Radiotherapy-induced malignancies in breast cancer patients with TP53 pathogenic germline variants (Li-Fraumeni syndrome).

Authors: Vanessa Petry; Renata Colombo Bonadio; Allyne Queiroz Carneiro Cagnacci; Luiz Antonio Leite Senna; Roberta do Nascimento Galvão Campos; Guilherme Cutait Cotti; Paulo M Hoff; Maria Candida Barisson Villares Fragoso; Maria Del Pilar Estevez-Diz
Journal: Fam Cancer Date: 2020-01 Impact factor: 2.375