Complete genome sequence of Thioclava strain BDS19, isolated from coastal marsh sediment
Biagio DiSalvo, Blair G. Paul, Zoe G. Cardon

TL;DR
This paper presents the complete genome sequence of Thioclava strain BDS19, a sulfur-oxidizing microbe isolated from coastal marsh sediment.
Contribution
The study provides a complete genome sequence of a culturable sulfur-oxidizing Thioclava strain for functional analysis.
Findings
The genome is 3,410,538 bp long with 59.6 mol% G + C content.
Thioclava strain BDS19 was isolated from marsh sediment on Cape Cod, USA.
Abstract
Salt marsh sediments host intensive sulfur cycling. Genome sequences from culturable sulfur-oxidizing microbes are required for targeted engineering to test sox gene function. We report the complete genome sequence (3,410,538 bp, 59.6 mol% G + C content) of putative sulfur oxidizer Thioclava strain BDS19, isolated from marsh sediment on Cape Cod, USA.
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsNitrogen and Sulfur Effects on Brassica · Genomics and Phylogenetic Studies · Metal Extraction and Bioleaching
