Project description:Shewanella sp. HN-41 genome sequencing

Project description:5' RNASeq of mRNA from Shewanella sp MR-7 grown aerobically in Luria-Bertani broth (LB) and defined lactate minimal medium

Project description:5' RNASeq of mRNA from Shewanella sp MR-4 grown aerobically in Luria-Bertani broth (LB) and defined lactate minimal medium

Project description:5' RNASeq of mRNA from Shewanella sp ANA-3 grown aerobically in Luria-Bertani broth (LB) and defined lactate minimal medium

Project description:5' RNASeq of mRNA from Shewanella sp ANA-3 grown aerobically in Luria-Bertani broth (LB) and defined lactate minimal medium 5'-end mRNA profiles of mid-log phase bacterial cells growing in LB or lactate medium were generated by next-generation sequencing.

Project description:5' RNASeq of mRNA from Shewanella sp MR-7 grown aerobically in Luria-Bertani broth (LB) and defined lactate minimal medium 5'-end mRNA profiles of mid-log phase bacterial cells growing in LB or lactate medium were generated by next-generation sequencing.

Project description:5' RNASeq of mRNA from Shewanella sp MR-4 grown aerobically in Luria-Bertani broth (LB) and defined lactate minimal medium 5'-end mRNA profiles of mid-log phase bacterial cells growing in LB or lactate medium were generated by next-generation sequencing.

Project description:5' RNASeq of mRNA from Shewanella sp W3-18-1 grown aerobically in Luria-Bertani broth (LB) and defined lactate minimal medium

Project description:5' RNASeq of mRNA from Shewanella sp W3-18-1 grown aerobically in Luria-Bertani broth (LB) and defined lactate minimal medium 5'-end mRNA profiles of mid-log phase bacterial cells growing in LB or lactate medium were generated by next-generation sequencing.

Project description:Microorganisms facilitate the formation of a wide range of minerals that have unique physical and chemical properties as well as morphologies that are not produced by abiotic processes. Here, we report the production of an extensive extracellular network of filamentous, arsenic-sulfide (As-S) nanotubes (20-100 nm in diameter by approximately 30 mum in length) by the dissimilatory metal-reducing bacterium Shewanella sp. HN-41. The As-S nanotubes, formed via the reduction of As(V) and S(2)O(3)(2-), were initially amorphous As(2)S(3) but evolved with increasing incubation time toward polycrystalline phases of the chalcogenide minerals realgar (AsS) and duranusite (As(4)S). Upon maturation, the As-S nanotubes behaved as metals and semiconductors in terms of their electrical and photoconductive properties, respectively. The As-S nanotubes produced by Shewanella may provide useful materials for novel nano- and opto-electronic devices.