DemoLabBook

2020 Spring - UH - Brian - Stenotrophomonas maltophilia CBF10-1

Description

Stenotrophomonas maltophilia CBF10-1 was isolated from a ranch in Fairchilds, Texas, USA. Its genome reveals a highly adaptable microorganism with a large complement of antibiotic and heavy metal resistance genes, efflux pumps, multidrug transporters, and xenobiotic degradation pathways.

Data for Soil Sample and Researcher
Location of Soil Sample
Farm to Market Rd 361, Fairchilds, Texas, United States, 29.419139, -95.765111
Colonies of Paraoxon
1,011
Colonies of Methyl Parathion
458
Researcher
Brian
Organization
University of Houston
Lab Day
Unspecified
Time of Lab
Unspecified
Course Term
Spring
Year of Course
2020
Images for Soil Sample
Image Descriptions in General

Inferred pattern of acquisition or loss of five pathogenesis-associated gene clusters in Xanthomonas.

Based on comparison of genome sequences and other data among Xanthomonas strains and the close relatives Xylella fastidiosa and Stenotrophomonas maltophilia (see text), an inferred pattern of acquisition or loss of five pathogenesis associated gene clusters during the evolution of different Xanthomonas lineages is shown, superimposed on a phylogenetic tree drawn from an alignment of 16s rRNA gene sequences. Potential horizontal exchange of hrp and rpf sequences affecting the X. axonopodis clade, discussed in the text, is not depicted. Strain abbreviations are as in the text. For X. fastidiosa, the strain 9a–5c sequence was used. For S. maltophilia, the strain K279a sequence was used.

File from PLOS ONE PHYLOGENY publication at https://www.flickr.com/photos/123621741@N08/13930813277

License of CC by 2.0 Deed

Note that this is another independent publication and this sample was not used in relation to that publication

 

Extended Analysis Results
Cataloged
No
Research ID
CBF10-1
Genomic Biomarkers Titles
Draft Genome Sequence of Stenotrophomonas maltophilia CBF10-1, an Organophosphate-Degrading Bacterium Isolated from Ranch Soil in Fairchilds, Texas
Most Likely Isolate
Stenotrophomonas maltophilia