Draft Genome Sequence of Microbacterium oleivorans Strain A9, a Bacterium Isolated from Chernobyl Radionuclide-Contaminated Soil

Ortet, Philippe; Gallois, Nicolas; Piette, Laurie; Long, Justine; Berthomieu, Catherine; Armengaud, Jean; Barakat, Mohamed; Chapon, Virginie

doi:10.1128/genomea.00092-17

Cited by 7 publications

(4 citation statements)

References 19 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…(including 15% of membrane proteins) of the predicted protein-coding genes found in the draft genome of Microbacterium oleivorans A9 [38]. The distribution of the peptides detected during our experiment along the chimeric genome of Microbacterium oleivorans A9 is uniform and confirm the validity of this proteogenomics approach, as previously discussed for the proteogenomics mapping of the alphaproteobacterium Tistlia consotensis [22].…”

Section: Shotgun Proteogenomics Of Microbacterium Oleivorans A9supporting

confidence: 84%

Proteogenomic insights into uranium tolerance of a Chernobyl's Microbacterium bacterial isolate

Gallois

Alpha-Bazin

Ortet

et al. 2018

Journal of Proteomics

Self Cite

View full text Add to dashboard Cite

Microbacterium oleivorans A9 is an interesting environmental model to understand biological processes engaged in tolerance to radionuclides. Using an innovative proteogenomics approach, we explored its molecular mechanisms involved in uranium tolerance. We sequenced its genome, interpreted high-throughput proteomic data against a six-reading frame ORF database deduced from the draft genome, annotated the identified proteins and compared protein abundances from cells exposed or not to uranyl stress after a cascade search. These data show that a complex cellular response to uranium occurs in Microbacterium oleivorans A9, where one third of the experimental proteome is modified. In particular, the uranyl stress perturbed the phosphate and iron metabolic pathways. Furthermore, several transporters have been identified to be specifically associated to uranyl stress, paving the way to the development of biotechnological tools for uranium decontamination.

show abstract

Section: Shotgun Proteogenomics Of Microbacterium Oleivorans A9supporting

confidence: 84%

Proteogenomic insights into uranium tolerance of a Chernobyl's Microbacterium bacterial isolate

Gallois

Alpha-Bazin

Ortet

et al. 2018

Journal of Proteomics

Self Cite

View full text Add to dashboard Cite

show abstract

“…The Microbacterium oleivorans strain A9 was isolated from radionuclide-contaminated soil in Chernobyl (8) and exhibits a high uranium tolerance (9). Its draft genome sequence was previously published (10). The strains ViU2A and ViU22 T were isolated from natural uranium-rich soil samples collected in France (the soil composition is described in reference 11; the strain ViU22 T is the type strain of the species Microbacterium lemovicicum [12]).…”

Section: Announcementmentioning

confidence: 99%

Complete Genome Sequences of Four Microbacterium Strains Isolated from Metal- and Radionuclide-Rich Soils

Ortet

Gallois

Long

et al. 2019

Microbiol Resour Announc

Self Cite

View full text Add to dashboard Cite

show abstract

“…Using tightly controlled exposure conditions, a 3-step process involving uranyl sorption, release and biomineralization was evidenced (44). Using proteogenomics, we further showed the high impact of uranyl on the proteome of this strain (45,46). In the present work, we have examined three additional Microbacterium strains for which we obtained the whole-genome (47), and subjected them to comparative analysis (Fig.…”

Section: Introductionmentioning

confidence: 81%

Discovery and characterization of UipA, a uranium- and iron-binding PepSY protein involved in uranium tolerance by soil bacteria

et al. 2021

Self Cite

View full text Add to dashboard Cite

Author Contributions: V.C. designed and supervised the study. V.C. and L.P. performed the uranium exposure experiments and prepared the samples for proteomics. N.T., M.F. and L.F. performed microscopic analysis and ICP-AES measurements. B.A.-B. acquired the proteomics data and N.G., B.A.-B. and J.A. performed the proteomic analyses. P.O. and M.B. performed genomic and phylogenetic analyses and constructed ORF databases for proteomics. A.M.A. established UipA topology in vivo. N.G. purified the recombinant proteins and performed fluorescence titration experiments, assisted by N.B. N.G. and D.L. performed native mass spectrometry experiments. N.G. acquired FTIR data under C.B. supervision. N.G. prepared the samples for synchrotron-based analysis and participated in EXAFS data acquisition. C.D.A. performed EXAFS data acquisition and processing. N.B. and N.G. performed crystallization tests and obtained the protein crystals under supervision of P.A. P.A. and P.L. resolved the

show abstract

Draft Genome Sequence of Microbacterium oleivorans Strain A9, a Bacterium Isolated from Chernobyl Radionuclide-Contaminated Soil

Cited by 7 publications

References 19 publications

Proteogenomic insights into uranium tolerance of a Chernobyl's Microbacterium bacterial isolate

Proteogenomic insights into uranium tolerance of a Chernobyl's Microbacterium bacterial isolate

Complete Genome Sequences of Four Microbacterium Strains Isolated from Metal- and Radionuclide-Rich Soils

Discovery and characterization of UipA, a uranium- and iron-binding PepSY protein involved in uranium tolerance by soil bacteria

Contact Info

Product

Resources

About