Project description:Diarsia brunnea (purple clay)

Project description:Diarsia brunnea (purple clay) genome assembly, ilDiaBrun1, alternate haplotype

Project description:Diarsia brunnea (purple clay), genomic and transcriptomic data

Project description:Diarsia brunnea overview

Project description:Diarsia mendica (ingrailed clay) genome assembly, ilDiaMeni1

Project description:Diarsia mendica (ingrailed clay)

Project description:Diarsia mendica (ingrailed clay) genome assembly, ilDiaMeni1, alternate haplotype

Project description:Diarsia mendica (ingrailed clay), genomic and transcriptomic data

Project description:Diarsia dahlii genome assembly, ilDiaDahl1

Project description:Sphingomonas wittichii strain RW1 (RW1) is one of few strains that can grow on dibenzo-p-dioxin (DD). We conducted a transcriptomic study of RW1 using RNA-Seq to outline transcriptional responses to DD, dibenzofuran (DF), and the smectite clay mineral saponite (SAP), an important geosorbent of toxicants in soil, with succinate as carbon source. The ability to grow on DD is rare compared to growth on the chemically similar DF even though the same initial dioxygenase may be involved in oxidation of both substrates. Therefore we hypothesized the reason for this lies beyond catabolic pathways and may concern genes involved in processes for cell-substrate interactions such as substrate recognition and transport, and detoxification. Compared to succinate (SUC) as control carbon source, DF caused over 240 protein-coding genes to be differentially expressed, whereas more than 300 were differentially expressed with DD. Stress response genes were up-regulated by both DD and DF. This effect was stronger with DD than DF, suggesting a higher toxicity of DD compared to DF. Both DD and DF caused changes in expression of genes involved in active cross-membrane transport such as TonB dependent receptor proteins, but the patterns of changes differed between the two substrates. Multiple transcription factor genes also displayed expression patterns distinct to DD and DF growth. DD and DF induced the catechol ortho- and the salicylate/gentisate pathways, respectively. Both DD and DF induced the shared down-stream aliphatic intermediate compound pathway. Clay (SAP) caused category-wide down-regulation of genes for cell motility and chemotaxis, particularly those involved in the synthesis, assembly and functioning of flagella. This is environmentally important finding because clay is a major component of soil microbes’ microenvironment influencing local chemistry and may serve as geosorbent for toxic pollutants. Similar to clay, DD and DF also affect motility and chemotaxis.