Project description:Hydrogen-oxidizing thermophile

Project description:Hydrogen-oxidizing thermophile

Project description:A thermophilic hydrogen-oxidizing microaerophile.

Project description:A thermophilic sulfur-oxidizing bacteria from the Calcite Hot Springs in Yellowstone National Park

Project description:Many sulfur-oxidizing prokaryotes oxidize sulfur compounds through a combination of initial extracytoplasmic and downstream cytoplasmic reactions. Facultative sulfur oxidizers adjust transcription to sulfur availability. While sulfur-oxidizing enzymes and transcriptional repressors have been extensively studied, sulfur import into the cytoplasm and how regulators sense external sulfur are poorly understood. Addressing this gap, we show that SoxT1A and SoxT1B, which resemble YeeE/YedE-family thiosulfate transporters and are encoded alongside sulfur oxidation and transcriptional regulation genes, fulfill these roles in the Alphaproteobacterium Hyphomicrobium denitrificans. RT-qPCR provided initial evidence that SoxT1A and SoxT1B from H. denitrificans may be intricate components of the oxidation pathway and/or involved in its transcriptional regulation. Here, we extend these analyses with genome-wide mRNA-Seq data for the reference strain, comparing transcription in the absence and presence of 2 mM thiosulfate

Project description:Salt-tolerant sulfur-oxidizing bacterium

Project description:Carbon monoxide-oxidizing thermophile

Project description:Thermococcus kodakarensis preferentially utilizes amino acids as carbon and energy sources in the presence of elemental sulfur as a terminal electron acceptor, while it can assimilate and grow on starch or pyruvate using proton as a terminal acceptor, generating hydrogen in the absence of elemental sulfur. SurR is a transcriptional regulator controlling hydrogen and elemental sulfur metabolism. To identify the genes that are under the regulation of Tk-SurR, we investigated the transcriptional profiling of Tk-SurR deletion strain grown in the presence of elemental sulfur at 85˚C by comparing with the host strain, KU216.

Project description:Sulfur-oxidizing bacterium

Project description:Sulfur-oxidizing bacterium