Tammy T. Y. Lau scite author profile

The Comprehensive Antibiotic Resistance Database (CARD; https://card.mcmaster.ca) is a curated resource providing reference DNA and protein sequences, detection models and bioinformatics tools on the molecular basis of bacterial antimicrobial resistance (AMR). CARD focuses on providing high-quality reference data and molecular sequences within a controlled vocabulary, the Antibiotic Resistance Ontology (ARO), designed by the CARD biocuration team to integrate with software development efforts for resistome analysis and prediction, such as CARD’s Resistance Gene Identifier (RGI) software. Since 2017, CARD has expanded through extensive curation of reference sequences, revision of the ontological structure, curation of over 500 new AMR detection models, development of a new classification paradigm and expansion of analytical tools. Most notably, a new Resistomes & Variants module provides analysis and statistical summary of in silico predicted resistance variants from 82 pathogens and over 100 000 genomes. By adding these resistance variants to CARD, we are able to summarize predicted resistance using the information included in CARD, identify trends in AMR mobility and determine previously undescribed and novel resistance variants. Here, we describe updates and recent expansions to CARD and its biocuration process, including new resources for community biocuration of AMR molecular reference data.

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The origins and genomic diversity of American Civil War Era smallpox vaccine strains

Duggan

Klunk

Porter

et al. 2020

Genome Biol

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Vaccination has transformed public health, most notably including the eradication of smallpox. Despite its profound historical importance, little is known of the origins and diversity of the viruses used in smallpox vaccination. Prior to the twentieth century, the method, source and origin of smallpox vaccinations remained unstandardised and opaque. We reconstruct and analyse viral vaccine genomes associated with smallpox vaccination from historical artefacts. Significantly, we recover viral molecules through non-destructive sampling of historical materials lacking signs of biological residues. We use the authenticated ancient genomes to reveal the evolutionary relationships of smallpox vaccination viruses within the poxviruses as a whole.

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Additional file 8 of The origins and genomic diversity of American Civil War Era smallpox vaccine strains

Duggan¹,

Klunk²,

Porter³

et al. 2020

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Additional file 6 of The origins and genomic diversity of American Civil War Era smallpox vaccine strains

Duggan¹,

Klunk²,

Porter³

et al. 2020

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Tammy T. Y. Lau

CARD 2020: antibiotic resistome surveillance with the comprehensive antibiotic resistance database

The origins and genomic diversity of American Civil War Era smallpox vaccine strains

Additional file 8 of The origins and genomic diversity of American Civil War Era smallpox vaccine strains

Additional file 6 of The origins and genomic diversity of American Civil War Era smallpox vaccine strains

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