paraburkholderia xenovorans lb400 Search Results


lb400  (ATCC)
90
ATCC lb400
Bioaugmentation with Paraburkholderia xenovorans <t>LB400</t> significantly decreased airborne PCBs from both shaken (AVL_S) and nonshaken (AVL_NS) Altavista sediment microcosms. Panel A: Total airborne PCBs after 35–75 days (AVL_S; blue triangles) and 75 days (AVL_NS; green squares); Panel B: LC-PCBs; Panel C: PCB 4 (2,2’-dichlorobiphenyl); Panel D: PCB 19 (2,2’,6-trichlorobiphenyl). Data points are the average of 3 replicates and the error bars represent the standard deviation. PCB reactive transport model predictions for PCB 4 and PCB 19 concentrations are shown as solid lines (control; green for nonshaken, blue for shaken) or dashed lines (LB400 bioaugmentation; green for nonshaken, blue for shaken).
Lb400, supplied by ATCC, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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alpha-n-acetylgalactosaminide alpha-2,6-sialyltransferase 1  (Gallus BioPharmaceuticals)
90
Gallus BioPharmaceuticals alpha-n-acetylgalactosaminide alpha-2,6-sialyltransferase 1
Bioaugmentation with Paraburkholderia xenovorans <t>LB400</t> significantly decreased airborne PCBs from both shaken (AVL_S) and nonshaken (AVL_NS) Altavista sediment microcosms. Panel A: Total airborne PCBs after 35–75 days (AVL_S; blue triangles) and 75 days (AVL_NS; green squares); Panel B: LC-PCBs; Panel C: PCB 4 (2,2’-dichlorobiphenyl); Panel D: PCB 19 (2,2’,6-trichlorobiphenyl). Data points are the average of 3 replicates and the error bars represent the standard deviation. PCB reactive transport model predictions for PCB 4 and PCB 19 concentrations are shown as solid lines (control; green for nonshaken, blue for shaken) or dashed lines (LB400 bioaugmentation; green for nonshaken, blue for shaken).
Alpha N Acetylgalactosaminide Alpha 2,6 Sialyltransferase 1, supplied by Gallus BioPharmaceuticals, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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reference paraburkholderia  (ATCC)
93
ATCC reference paraburkholderia
Summary table of comparisons for all species, including a subset of carbon usage types. We show the specific strain names for the three Paraburkholderia sp. nov. and the <t> reference Paraburkholderia </t> strains, the number of Paraburkholderia sp. nov. isolates in each group with the type strain in bold, whether or not the isolates are associated with D. discoideum (positive association indicated by a + sign), average bacterial length, optimal growth temperature, and metabolic tests. Next, a subset of about one-fourth of the relevant carbon types follows. P. agricolaris and P. bonniea are able to utilize some carbons that their close Paraburkholderia relatives cannot. A plus (+) symbol indicates all isolates were able to use a specific carbon and a minus (−) symbol indicates that they could not use that carbon. A number value indicates the percentage of strains in a specific group that can utilize that particular carbon. Specifics for each individual strain can be found in the supplemental information (raw data files).
Reference Paraburkholderia, supplied by ATCC, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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adp1 paraburkholderia xenovorans lb400 arsn1a arsn1b pat pat mat pat mat pat mat pat mat mat  (ATCC)
94
ATCC adp1 paraburkholderia xenovorans lb400 arsn1a arsn1b pat pat mat pat mat pat mat pat mat mat
Summary table of comparisons for all species, including a subset of carbon usage types. We show the specific strain names for the three Paraburkholderia sp. nov. and the <t> reference Paraburkholderia </t> strains, the number of Paraburkholderia sp. nov. isolates in each group with the type strain in bold, whether or not the isolates are associated with D. discoideum (positive association indicated by a + sign), average bacterial length, optimal growth temperature, and metabolic tests. Next, a subset of about one-fourth of the relevant carbon types follows. P. agricolaris and P. bonniea are able to utilize some carbons that their close Paraburkholderia relatives cannot. A plus (+) symbol indicates all isolates were able to use a specific carbon and a minus (−) symbol indicates that they could not use that carbon. A number value indicates the percentage of strains in a specific group that can utilize that particular carbon. Specifics for each individual strain can be found in the supplemental information (raw data files).
Adp1 Paraburkholderia Xenovorans Lb400 Arsn1a Arsn1b Pat Pat Mat Pat Mat Pat Mat Pat Mat Mat, supplied by ATCC, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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model pcb degrading strain paraburkholderia xenovorans lb400  (DSMZ)
86
DSMZ model pcb degrading strain paraburkholderia xenovorans lb400
Summary table of comparisons for all species, including a subset of carbon usage types. We show the specific strain names for the three Paraburkholderia sp. nov. and the <t> reference Paraburkholderia </t> strains, the number of Paraburkholderia sp. nov. isolates in each group with the type strain in bold, whether or not the isolates are associated with D. discoideum (positive association indicated by a + sign), average bacterial length, optimal growth temperature, and metabolic tests. Next, a subset of about one-fourth of the relevant carbon types follows. P. agricolaris and P. bonniea are able to utilize some carbons that their close Paraburkholderia relatives cannot. A plus (+) symbol indicates all isolates were able to use a specific carbon and a minus (−) symbol indicates that they could not use that carbon. A number value indicates the percentage of strains in a specific group that can utilize that particular carbon. Specifics for each individual strain can be found in the supplemental information (raw data files).
Model Pcb Degrading Strain Paraburkholderia Xenovorans Lb400, supplied by DSMZ, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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chromobacterium violaceum bergonzini  (ATCC)
99
ATCC chromobacterium violaceum bergonzini
Summary table of comparisons for all species, including a subset of carbon usage types. We show the specific strain names for the three Paraburkholderia sp. nov. and the <t> reference Paraburkholderia </t> strains, the number of Paraburkholderia sp. nov. isolates in each group with the type strain in bold, whether or not the isolates are associated with D. discoideum (positive association indicated by a + sign), average bacterial length, optimal growth temperature, and metabolic tests. Next, a subset of about one-fourth of the relevant carbon types follows. P. agricolaris and P. bonniea are able to utilize some carbons that their close Paraburkholderia relatives cannot. A plus (+) symbol indicates all isolates were able to use a specific carbon and a minus (−) symbol indicates that they could not use that carbon. A number value indicates the percentage of strains in a specific group that can utilize that particular carbon. Specifics for each individual strain can be found in the supplemental information (raw data files).
Chromobacterium Violaceum Bergonzini, supplied by ATCC, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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assay kits  (Becton Dickinson)
90
Becton Dickinson assay kits
Summary table of comparisons for all species, including a subset of carbon usage types. We show the specific strain names for the three Paraburkholderia sp. nov. and the <t> reference Paraburkholderia </t> strains, the number of Paraburkholderia sp. nov. isolates in each group with the type strain in bold, whether or not the isolates are associated with D. discoideum (positive association indicated by a + sign), average bacterial length, optimal growth temperature, and metabolic tests. Next, a subset of about one-fourth of the relevant carbon types follows. P. agricolaris and P. bonniea are able to utilize some carbons that their close Paraburkholderia relatives cannot. A plus (+) symbol indicates all isolates were able to use a specific carbon and a minus (−) symbol indicates that they could not use that carbon. A number value indicates the percentage of strains in a specific group that can utilize that particular carbon. Specifics for each individual strain can be found in the supplemental information (raw data files).
Assay Kits, supplied by Becton Dickinson, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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pseudomonas fluorescens ncimb 11764  (NCIMB Ltd)
90
NCIMB Ltd pseudomonas fluorescens ncimb 11764
Summary table of comparisons for all species, including a subset of carbon usage types. We show the specific strain names for the three Paraburkholderia sp. nov. and the <t> reference Paraburkholderia </t> strains, the number of Paraburkholderia sp. nov. isolates in each group with the type strain in bold, whether or not the isolates are associated with D. discoideum (positive association indicated by a + sign), average bacterial length, optimal growth temperature, and metabolic tests. Next, a subset of about one-fourth of the relevant carbon types follows. P. agricolaris and P. bonniea are able to utilize some carbons that their close Paraburkholderia relatives cannot. A plus (+) symbol indicates all isolates were able to use a specific carbon and a minus (−) symbol indicates that they could not use that carbon. A number value indicates the percentage of strains in a specific group that can utilize that particular carbon. Specifics for each individual strain can be found in the supplemental information (raw data files).
Pseudomonas Fluorescens Ncimb 11764, supplied by NCIMB Ltd, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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paraburkholderia xenovorans lb400  (ATCC)
92
ATCC paraburkholderia xenovorans lb400
Summary table of comparisons for all species, including a subset of carbon usage types. We show the specific strain names for the three Paraburkholderia sp. nov. and the <t> reference Paraburkholderia </t> strains, the number of Paraburkholderia sp. nov. isolates in each group with the type strain in bold, whether or not the isolates are associated with D. discoideum (positive association indicated by a + sign), average bacterial length, optimal growth temperature, and metabolic tests. Next, a subset of about one-fourth of the relevant carbon types follows. P. agricolaris and P. bonniea are able to utilize some carbons that their close Paraburkholderia relatives cannot. A plus (+) symbol indicates all isolates were able to use a specific carbon and a minus (−) symbol indicates that they could not use that carbon. A number value indicates the percentage of strains in a specific group that can utilize that particular carbon. Specifics for each individual strain can be found in the supplemental information (raw data files).
Paraburkholderia Xenovorans Lb400, supplied by ATCC, used in various techniques. Bioz Stars score: 92/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Bioaugmentation with Paraburkholderia xenovorans LB400 significantly decreased airborne PCBs from both shaken (AVL_S) and nonshaken (AVL_NS) Altavista sediment microcosms. Panel A: Total airborne PCBs after 35–75 days (AVL_S; blue triangles) and 75 days (AVL_NS; green squares); Panel B: LC-PCBs; Panel C: PCB 4 (2,2’-dichlorobiphenyl); Panel D: PCB 19 (2,2’,6-trichlorobiphenyl). Data points are the average of 3 replicates and the error bars represent the standard deviation. PCB reactive transport model predictions for PCB 4 and PCB 19 concentrations are shown as solid lines (control; green for nonshaken, blue for shaken) or dashed lines (LB400 bioaugmentation; green for nonshaken, blue for shaken).

Journal: ACS Es&t Water

Article Title: Paraburkholderia Xenovorans Strain LB400 Significantly Decreased Volatilization of Polychlorinated Biphenyls (PCBs) from Freshwater and Saline Sediments

doi: 10.1021/acsestwater.5c00423

Figure Lengend Snippet: Bioaugmentation with Paraburkholderia xenovorans LB400 significantly decreased airborne PCBs from both shaken (AVL_S) and nonshaken (AVL_NS) Altavista sediment microcosms. Panel A: Total airborne PCBs after 35–75 days (AVL_S; blue triangles) and 75 days (AVL_NS; green squares); Panel B: LC-PCBs; Panel C: PCB 4 (2,2’-dichlorobiphenyl); Panel D: PCB 19 (2,2’,6-trichlorobiphenyl). Data points are the average of 3 replicates and the error bars represent the standard deviation. PCB reactive transport model predictions for PCB 4 and PCB 19 concentrations are shown as solid lines (control; green for nonshaken, blue for shaken) or dashed lines (LB400 bioaugmentation; green for nonshaken, blue for shaken).

Article Snippet: Paraburkholderia xenovorans LB400 (ATCC #43038) , was grown in liquid K1 medium , (recipe in SI Section S1 ) using biphenyl crystals (0.76–1.5 g/L; TCI America, Portland, Oregon) as the sole carbon and energy source, at 30 °C in a shaking incubator set to 150 rpm.

Techniques: Standard Deviation, Control

Aqueous phase PCBs were higher in nonshaken LB400-bioaugmented Altavista sediment (AVL_NS) compared to shaken Altavista sediment (AVL_S). Panel A: Total PCBs (all 209 congeners) accumulated on SPME after 35 days (AVL_S; blue triangles) and 75 days (AVL_NS; green squares), Panel B: LC-PCBs. Panel C: PCB 4, Panel D: PCB 19. The data points are the average of 3 replicates and the error bars represent the standard deviation. PCB reactive transport model predictions for PCB 4 and PCB 19 concentrations are shown as solid lines (control; green for nonshaken, blue for shaken) or dashed lines (LB400 bioaugmentation; green for nonshaken, blue for shaken).

Journal: ACS Es&t Water

Article Title: Paraburkholderia Xenovorans Strain LB400 Significantly Decreased Volatilization of Polychlorinated Biphenyls (PCBs) from Freshwater and Saline Sediments

doi: 10.1021/acsestwater.5c00423

Figure Lengend Snippet: Aqueous phase PCBs were higher in nonshaken LB400-bioaugmented Altavista sediment (AVL_NS) compared to shaken Altavista sediment (AVL_S). Panel A: Total PCBs (all 209 congeners) accumulated on SPME after 35 days (AVL_S; blue triangles) and 75 days (AVL_NS; green squares), Panel B: LC-PCBs. Panel C: PCB 4, Panel D: PCB 19. The data points are the average of 3 replicates and the error bars represent the standard deviation. PCB reactive transport model predictions for PCB 4 and PCB 19 concentrations are shown as solid lines (control; green for nonshaken, blue for shaken) or dashed lines (LB400 bioaugmentation; green for nonshaken, blue for shaken).

Article Snippet: Paraburkholderia xenovorans LB400 (ATCC #43038) , was grown in liquid K1 medium , (recipe in SI Section S1 ) using biphenyl crystals (0.76–1.5 g/L; TCI America, Portland, Oregon) as the sole carbon and energy source, at 30 °C in a shaking incubator set to 150 rpm.

Techniques: Standard Deviation, Control

Bioaugmentation with Paraburkholderia xenovorans LB400 significantly decreased airborne PCBs from nonshaken New Bedford Harbor (NBH_NS) sediment microcosms. Panel A: Total PCBs (all 209 congeners) accumulated on PUF after 75 days; Panel B: Lower-chlorinated (LC)-PCBs (congeners with <4 Cl atoms; ng/g sediment); Panel C: PCB 4, Panel D: PCB 19. Data points are the average of 3 replicates and the error bars represent the standard deviation. PCB reactive transport model predictions for PCB 4 and PCB 19 concentrations are shown as solid lines (control) or dashed lines (LB400 bioaugmentation).

Journal: ACS Es&t Water

Article Title: Paraburkholderia Xenovorans Strain LB400 Significantly Decreased Volatilization of Polychlorinated Biphenyls (PCBs) from Freshwater and Saline Sediments

doi: 10.1021/acsestwater.5c00423

Figure Lengend Snippet: Bioaugmentation with Paraburkholderia xenovorans LB400 significantly decreased airborne PCBs from nonshaken New Bedford Harbor (NBH_NS) sediment microcosms. Panel A: Total PCBs (all 209 congeners) accumulated on PUF after 75 days; Panel B: Lower-chlorinated (LC)-PCBs (congeners with <4 Cl atoms; ng/g sediment); Panel C: PCB 4, Panel D: PCB 19. Data points are the average of 3 replicates and the error bars represent the standard deviation. PCB reactive transport model predictions for PCB 4 and PCB 19 concentrations are shown as solid lines (control) or dashed lines (LB400 bioaugmentation).

Article Snippet: Paraburkholderia xenovorans LB400 (ATCC #43038) , was grown in liquid K1 medium , (recipe in SI Section S1 ) using biphenyl crystals (0.76–1.5 g/L; TCI America, Portland, Oregon) as the sole carbon and energy source, at 30 °C in a shaking incubator set to 150 rpm.

Techniques: Standard Deviation, Control

Summary table of comparisons for all species, including a subset of carbon usage types. We show the specific strain names for the three Paraburkholderia sp. nov. and the reference Paraburkholderia strains, the number of Paraburkholderia sp. nov. isolates in each group with the type strain in bold, whether or not the isolates are associated with D. discoideum (positive association indicated by a + sign), average bacterial length, optimal growth temperature, and metabolic tests. Next, a subset of about one-fourth of the relevant carbon types follows. P. agricolaris and P. bonniea are able to utilize some carbons that their close Paraburkholderia relatives cannot. A plus (+) symbol indicates all isolates were able to use a specific carbon and a minus (−) symbol indicates that they could not use that carbon. A number value indicates the percentage of strains in a specific group that can utilize that particular carbon. Specifics for each individual strain can be found in the supplemental information (raw data files).

Journal: PeerJ

Article Title: Endosymbiotic adaptations in three new bacterial species associated with Dictyostelium discoideum : Paraburkholderia agricolaris sp. nov., Paraburkholderia hayleyella sp. nov., and Paraburkholderia bonniea sp. nov

doi: 10.7717/peerj.9151

Figure Lengend Snippet: Summary table of comparisons for all species, including a subset of carbon usage types. We show the specific strain names for the three Paraburkholderia sp. nov. and the reference Paraburkholderia strains, the number of Paraburkholderia sp. nov. isolates in each group with the type strain in bold, whether or not the isolates are associated with D. discoideum (positive association indicated by a + sign), average bacterial length, optimal growth temperature, and metabolic tests. Next, a subset of about one-fourth of the relevant carbon types follows. P. agricolaris and P. bonniea are able to utilize some carbons that their close Paraburkholderia relatives cannot. A plus (+) symbol indicates all isolates were able to use a specific carbon and a minus (−) symbol indicates that they could not use that carbon. A number value indicates the percentage of strains in a specific group that can utilize that particular carbon. Specifics for each individual strain can be found in the supplemental information (raw data files).

Article Snippet: We used all strains of P. agricolaris , P. hayleyella , P. bonniea , and three reference Paraburkholderia ( P. fungorum ATCC BAA-463, P. xenovorans LB400, and P. phymatum STM-815 ) to determine optimal growth temperature and growth range.

Techniques: Activity Assay

Average nucleotide identity (ANI) between pairs of the proposed type strains of Paraburkholderia sp. nov. isolates associated with D. discoideum and closely related Paraburkholderia . These ANI scores (and percent aligned nucleotide) indicate that (a) P. agricolaris is a separate species from P. fungorum and P. insulsa , and that (b) P. hayleyella and P. bonniea are separate from each other and from P. megapolitana and P. phenoliruptrix . The conventional ANI threshold for prokaryotic species delineation is 95%.

Journal: PeerJ

Article Title: Endosymbiotic adaptations in three new bacterial species associated with Dictyostelium discoideum : Paraburkholderia agricolaris sp. nov., Paraburkholderia hayleyella sp. nov., and Paraburkholderia bonniea sp. nov

doi: 10.7717/peerj.9151

Figure Lengend Snippet: Average nucleotide identity (ANI) between pairs of the proposed type strains of Paraburkholderia sp. nov. isolates associated with D. discoideum and closely related Paraburkholderia . These ANI scores (and percent aligned nucleotide) indicate that (a) P. agricolaris is a separate species from P. fungorum and P. insulsa , and that (b) P. hayleyella and P. bonniea are separate from each other and from P. megapolitana and P. phenoliruptrix . The conventional ANI threshold for prokaryotic species delineation is 95%.

Article Snippet: We used all strains of P. agricolaris , P. hayleyella , P. bonniea , and three reference Paraburkholderia ( P. fungorum ATCC BAA-463, P. xenovorans LB400, and P. phymatum STM-815 ) to determine optimal growth temperature and growth range.

Techniques:

Predicted DNA-DNA hybridization (DDH) values based on Genome-to-Genome Distance (GGD) between proposed type strains of Paraburkholderia sp. nov. isolates associated with D. discoideum and closely related Paraburkholderia . These scores (and confidence intervals in brackets) indicate that (a) P. agricolaris is a separate species from P. fungorum and P. insulsa , and that (b) P. hayleyella and P. bonniea are separate from each other and from P. megapolitana and P. phenoliruptrix . The conventional DDH threshold for prokaryotic species delineation is 70%.

Journal: PeerJ

Article Title: Endosymbiotic adaptations in three new bacterial species associated with Dictyostelium discoideum : Paraburkholderia agricolaris sp. nov., Paraburkholderia hayleyella sp. nov., and Paraburkholderia bonniea sp. nov

doi: 10.7717/peerj.9151

Figure Lengend Snippet: Predicted DNA-DNA hybridization (DDH) values based on Genome-to-Genome Distance (GGD) between proposed type strains of Paraburkholderia sp. nov. isolates associated with D. discoideum and closely related Paraburkholderia . These scores (and confidence intervals in brackets) indicate that (a) P. agricolaris is a separate species from P. fungorum and P. insulsa , and that (b) P. hayleyella and P. bonniea are separate from each other and from P. megapolitana and P. phenoliruptrix . The conventional DDH threshold for prokaryotic species delineation is 70%.

Article Snippet: We used all strains of P. agricolaris , P. hayleyella , P. bonniea , and three reference Paraburkholderia ( P. fungorum ATCC BAA-463, P. xenovorans LB400, and P. phymatum STM-815 ) to determine optimal growth temperature and growth range.

Techniques: DNA-DNA Hybridization

Fatty acid composition of three Paraburkholderia sp. nov. The Paraburkholderia sp. nov. type strains contain large proportions of cyclopropane fatty acids (CPA) compared to non-symbiont control Paraburkholderia. The three symbiont Paraburkholderia type strains show similar fatty acid profiles. Minor fatty acids (abundances < 0.2%) are not reported.

Journal: PeerJ

Article Title: Endosymbiotic adaptations in three new bacterial species associated with Dictyostelium discoideum : Paraburkholderia agricolaris sp. nov., Paraburkholderia hayleyella sp. nov., and Paraburkholderia bonniea sp. nov

doi: 10.7717/peerj.9151

Figure Lengend Snippet: Fatty acid composition of three Paraburkholderia sp. nov. The Paraburkholderia sp. nov. type strains contain large proportions of cyclopropane fatty acids (CPA) compared to non-symbiont control Paraburkholderia. The three symbiont Paraburkholderia type strains show similar fatty acid profiles. Minor fatty acids (abundances < 0.2%) are not reported.

Article Snippet: We used all strains of P. agricolaris , P. hayleyella , P. bonniea , and three reference Paraburkholderia ( P. fungorum ATCC BAA-463, P. xenovorans LB400, and P. phymatum STM-815 ) to determine optimal growth temperature and growth range.

Techniques: Control

We measured the length of about one hundred bacteria for each Paraburkholderia sp. nov. and for the nonsymbionts (see ). We used seven strains for P. agricolaris , seven strains for P. hayleyella , two strains for P. bonniea , and three strains for non-symbionts. On average, we found all three symbiont bacteria species are significantly shorter than non-symbiont bacteria species. Significant differences in length found between bacteria are indicated by different letters which reflect results of a Benjamini-Hochberg correction for multiple comparisons.

Journal: PeerJ

Article Title: Endosymbiotic adaptations in three new bacterial species associated with Dictyostelium discoideum : Paraburkholderia agricolaris sp. nov., Paraburkholderia hayleyella sp. nov., and Paraburkholderia bonniea sp. nov

doi: 10.7717/peerj.9151

Figure Lengend Snippet: We measured the length of about one hundred bacteria for each Paraburkholderia sp. nov. and for the nonsymbionts (see ). We used seven strains for P. agricolaris , seven strains for P. hayleyella , two strains for P. bonniea , and three strains for non-symbionts. On average, we found all three symbiont bacteria species are significantly shorter than non-symbiont bacteria species. Significant differences in length found between bacteria are indicated by different letters which reflect results of a Benjamini-Hochberg correction for multiple comparisons.

Article Snippet: We used all strains of P. agricolaris , P. hayleyella , P. bonniea , and three reference Paraburkholderia ( P. fungorum ATCC BAA-463, P. xenovorans LB400, and P. phymatum STM-815 ) to determine optimal growth temperature and growth range.

Techniques: Bacteria

We tested a range of temperatures to determine growth range and optimal temperature. P. hayleyella and P. bonniea have reduced range of growth and grow less densely compared to P. agricolaris and the non-symbionts. P. agricolaris has the same range as the three nonsymbiont Paraburkholderia but grows less densely at 37 °C and best at 30 °C compared to the non-symbionts.

Journal: PeerJ

Article Title: Endosymbiotic adaptations in three new bacterial species associated with Dictyostelium discoideum : Paraburkholderia agricolaris sp. nov., Paraburkholderia hayleyella sp. nov., and Paraburkholderia bonniea sp. nov

doi: 10.7717/peerj.9151

Figure Lengend Snippet: We tested a range of temperatures to determine growth range and optimal temperature. P. hayleyella and P. bonniea have reduced range of growth and grow less densely compared to P. agricolaris and the non-symbionts. P. agricolaris has the same range as the three nonsymbiont Paraburkholderia but grows less densely at 37 °C and best at 30 °C compared to the non-symbionts.

Article Snippet: We used all strains of P. agricolaris , P. hayleyella , P. bonniea , and three reference Paraburkholderia ( P. fungorum ATCC BAA-463, P. xenovorans LB400, and P. phymatum STM-815 ) to determine optimal growth temperature and growth range.

Techniques: