Project description:Dichloromethane (DCM, methylene chloride) is a toxic halogenated volatile organic compound massively used for industrial applications, and consequently often detected in the environment as a major pollutant. DCM biotransformation offers a sustainable decontamination strategy of polluted sites. Among methylotrophic bacteria able to use DCM as sole source of carbon and energy for growth, Methylorubrum extorquens DM4 (formerly named Methyobacterium extorquens) is a longstanding reference Alphaproteobacteria strain. Here, its primary transcriptome was obtained using a differential RNA-seq (dRNA-seq) approach to provide the first transcription start site (TSS) genome-wide landscape of a methylotroph using DCM.

Project description:The potency and indiscriminate nature of formaldehyde reactivity upon biological molecules make it a universal stressor. However, some organisms such as Methylorubrum extorquens possess means to rapidly and effectively mitigate formaldehyde-induced damage. EfgA is a recently identified formaldehyde sensor predicted to halt translation in response to elevated formaldehyde as a means to protect cells. Herein, we investigate growth, formaldehyde consumption, and changes in gene expression to better understand how M. extorquens responds to formaldehyde with and without the EfgA-formaldehyde-mediated translational response, and how this mechanism compares to other forms of translation inhibition. These distinct mechanisms of translation inhibition have notable differences: they each involve different specific players and in addition, formaldehyde also acts as a general, multi-target stressor and a potential carbon source. Here, we present findings demonstrating that in addition to its characterized impact on translation, functional EfgA also allows for a rapid and robust transcriptional response to formaldehyde and that removal of efgA leads to heightened proteotoxic and genotoxic stress in the presence of increased formaldehyde levels. As our previous work suggested that formaldehyde is proteotoxic in M. extorquens, we accurately predicted that strains lacking efgA would experience increased protein damage. We also found that many downstream consequences of translation inhibition were shared by EfgA-formaldehyde- and kanamycin-mediated translation inhibition. Our work to modularize the transcriptional response uncovered additional layers of regulatory control enacted by functional EfgA upon experiencing formaldehyde stress, and further demonstrate the importance this protein plays at both transcriptional and translational levels in this model methylotroph.

Project description:Methylorubrum extorquens AM1 is engineered to produce itaconic acid by heterologous expression of cis-aconitic acid decarboxylase. Mutation was also performed on phaR in Methylorubrum extorquens AM1, which regulate poly-beta-hydroxybutyrate accumulation, in attempt to increase carbon flux toward itaconic acid production. However, in our case, itaconic acid production by phaR mutant strain was not higher than that of the wildtype. Transcriptomic analysis was utilized in order to examine the cause for this phenomenon. RNA-seq analysis revealed that phaR mutation in the itaconic acid-producing strain might result in a complex regulatory rewiring at the gene expression level, which could cause a reduced resource flux toward ITA production. Also, RNA profiling gave a hint at the broad regulatory role of PhaR.

Project description:Formaldehyde-responsive proteins, TtmR and EfgA, reveal a tradeoff between formaldehyde resistance and efficient transition to methylotrophy in Methylorubrum extorquens

Project description:The meristem-associated endosymbiont M. extorquens DSM13060 significantly increases needle and root growth of Scots pine (Pinus sylvestris L.) seedlings without producing plant hormones, but by aggregating around host nuclei. Here we studied gene expression of the pine host induced by M. extorquens DSM13060 infection. We selected the time point of 90 days post-inoculation for our analysis based, because at this point, Methylorubrum extorquens DSM13060 has systemically colonized the pine seedlings, being found throughout tissues of roots and shoots.

Project description:Three independent cultures of Methylorubrum extorquens PA1 delta cel were grown on ammonium mineral salts with either methanol or succinate provided as the sole carbon and energy source. The supernatant was subsequently extracted with acidified ethyl acetate and analyzed by LC-MS.

Project description:We report a genetic variant of Methylorubrum extorquens AM1 that hyperaccumulates the heavy lanthanide gadolinium. Using RNA-seq transcriptomics we identified wide-spread metabolic and physiological changes in this strain and experimentally validate several of them, including increased gadolinium transport and storage in an intracellular compartment we name the lanthasome.

Project description:The goal of this study was to use microarrays to identify genes differentially regulated under conditions of formaldehyde stress relative to two other stress conditions (oxidative, osmotic) in an effort to identify genes that might be involved in a formaldehyde-specific stress response, rather than a general stress response, in the model methylotroph Methylobacterium extorquens AM1.

Project description:Methylorubrum extorquens strain:PSBB040 Genome sequencing

Project description:Methylorubrum extorquens AM1 Genome sequencing and assembly