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pasteuria spp. sequences  (Pasteuria Bioscience LLC)

 
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    Pasteuria Bioscience LLC pasteuria spp. sequences
    Maximum likelihood phylogeny and pairwise sequence identity heatmap of <t>Pasteuria</t> <t>spp.</t> taxonomic <t>reference</t> <t>sequences</t> used in primer design and Pasteuria spp. ZOTU taxonomic assignment.
    Pasteuria Spp. Sequences, supplied by Pasteuria Bioscience LLC, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/pasteuria spp. sequences/product/Pasteuria Bioscience LLC
    Average 90 stars, based on 1 article reviews
    pasteuria spp. sequences - by Bioz Stars, 2026-06
    90/100 stars

    Images

    1) Product Images from "Parallel Microbial Ecology of Pasteuria and Nematode Species in Scottish Soils"

    Article Title: Parallel Microbial Ecology of Pasteuria and Nematode Species in Scottish Soils

    Journal: Frontiers in Plant Science

    doi: 10.3389/fpls.2019.01763

    Maximum likelihood phylogeny and pairwise sequence identity heatmap of Pasteuria spp. taxonomic reference sequences used in primer design and Pasteuria spp. ZOTU taxonomic assignment.
    Figure Legend Snippet: Maximum likelihood phylogeny and pairwise sequence identity heatmap of Pasteuria spp. taxonomic reference sequences used in primer design and Pasteuria spp. ZOTU taxonomic assignment.

    Techniques Used: Sequencing

    Map of distribution of the most abundant Pasteuria spp. ZOTUs across both NSIS2 (circles) and ESFN (triangles) datasets. Plot points are colored by ZOTU and sized as a function of the total number of merged read pairs recovered for that ZOTU µl −1 of product added to the final pool from the corresponding sample.
    Figure Legend Snippet: Map of distribution of the most abundant Pasteuria spp. ZOTUs across both NSIS2 (circles) and ESFN (triangles) datasets. Plot points are colored by ZOTU and sized as a function of the total number of merged read pairs recovered for that ZOTU µl −1 of product added to the final pool from the corresponding sample.

    Techniques Used:

    NDMS ordination plot of NSIS2 Pasteuria spp. community composition. Points are colored by soil horizon where L = litter; H = humus; O = peaty material formed under wet, anaerobic conditions; and A = mineral horizon formed at or near the surface showing accumulation and incorporation of organic matter. Points are sized by the total number of merged read pairs µl −1 of PCR product added to the final pool from the corresponding sample. Stress = 0.245235.
    Figure Legend Snippet: NDMS ordination plot of NSIS2 Pasteuria spp. community composition. Points are colored by soil horizon where L = litter; H = humus; O = peaty material formed under wet, anaerobic conditions; and A = mineral horizon formed at or near the surface showing accumulation and incorporation of organic matter. Points are sized by the total number of merged read pairs µl −1 of PCR product added to the final pool from the corresponding sample. Stress = 0.245235.

    Techniques Used:

    Environmental variables with a statistically significant relationship to Pasteuria spp. community ordination before or after Benjamini-Hochberg correction.
    Figure Legend Snippet: Environmental variables with a statistically significant relationship to Pasteuria spp. community ordination before or after Benjamini-Hochberg correction.

    Techniques Used:

    Spearman’s rank correlation of soil properties with statistically significant correlation to Pasteuria spp. community composition.
    Figure Legend Snippet: Spearman’s rank correlation of soil properties with statistically significant correlation to Pasteuria spp. community composition.

    Techniques Used:

    The top three most abundant Pasteuria spp. ZOTUs in the ESFN dataset and respective metazoan ZOTU Spearman’s rank correlations which were statistically significant after Benjamini-Hochberg correction.
    Figure Legend Snippet: The top three most abundant Pasteuria spp. ZOTUs in the ESFN dataset and respective metazoan ZOTU Spearman’s rank correlations which were statistically significant after Benjamini-Hochberg correction.

    Techniques Used:

    (A) 400x magnification Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by red arrow). (B) 1000x magnification of Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by red arrow). (C) 1000x magnification of free living non-parasitic nematode recovered from ESFN soil with several Pasteuria spp. endospores attached (positions indicated by red arrows). (D) 1000x magnification of fluorescence image of Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by blue arrow), showing anti- Pasteuria penetrans antibody recognition.
    Figure Legend Snippet: (A) 400x magnification Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by red arrow). (B) 1000x magnification of Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by red arrow). (C) 1000x magnification of free living non-parasitic nematode recovered from ESFN soil with several Pasteuria spp. endospores attached (positions indicated by red arrows). (D) 1000x magnification of fluorescence image of Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by blue arrow), showing anti- Pasteuria penetrans antibody recognition.

    Techniques Used: Fluorescence



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    Image Search Results


    Maximum likelihood phylogeny and pairwise sequence identity heatmap of Pasteuria spp. taxonomic reference sequences used in primer design and Pasteuria spp. ZOTU taxonomic assignment.

    Journal: Frontiers in Plant Science

    Article Title: Parallel Microbial Ecology of Pasteuria and Nematode Species in Scottish Soils

    doi: 10.3389/fpls.2019.01763

    Figure Lengend Snippet: Maximum likelihood phylogeny and pairwise sequence identity heatmap of Pasteuria spp. taxonomic reference sequences used in primer design and Pasteuria spp. ZOTU taxonomic assignment.

    Article Snippet: The pairwise percentage identity of reference Pasteuria spp. sequences in the aligned region of the 16S rRNA gene ranged from a low of 84.7% ( P. ramosa vs P. usgae ) to a high of 99.3% ( P. penetrans to Pasteuria HcP) with an average of 95% identity between all reference sequences.

    Techniques: Sequencing

    Map of distribution of the most abundant Pasteuria spp. ZOTUs across both NSIS2 (circles) and ESFN (triangles) datasets. Plot points are colored by ZOTU and sized as a function of the total number of merged read pairs recovered for that ZOTU µl −1 of product added to the final pool from the corresponding sample.

    Journal: Frontiers in Plant Science

    Article Title: Parallel Microbial Ecology of Pasteuria and Nematode Species in Scottish Soils

    doi: 10.3389/fpls.2019.01763

    Figure Lengend Snippet: Map of distribution of the most abundant Pasteuria spp. ZOTUs across both NSIS2 (circles) and ESFN (triangles) datasets. Plot points are colored by ZOTU and sized as a function of the total number of merged read pairs recovered for that ZOTU µl −1 of product added to the final pool from the corresponding sample.

    Article Snippet: The pairwise percentage identity of reference Pasteuria spp. sequences in the aligned region of the 16S rRNA gene ranged from a low of 84.7% ( P. ramosa vs P. usgae ) to a high of 99.3% ( P. penetrans to Pasteuria HcP) with an average of 95% identity between all reference sequences.

    Techniques:

    NDMS ordination plot of NSIS2 Pasteuria spp. community composition. Points are colored by soil horizon where L = litter; H = humus; O = peaty material formed under wet, anaerobic conditions; and A = mineral horizon formed at or near the surface showing accumulation and incorporation of organic matter. Points are sized by the total number of merged read pairs µl −1 of PCR product added to the final pool from the corresponding sample. Stress = 0.245235.

    Journal: Frontiers in Plant Science

    Article Title: Parallel Microbial Ecology of Pasteuria and Nematode Species in Scottish Soils

    doi: 10.3389/fpls.2019.01763

    Figure Lengend Snippet: NDMS ordination plot of NSIS2 Pasteuria spp. community composition. Points are colored by soil horizon where L = litter; H = humus; O = peaty material formed under wet, anaerobic conditions; and A = mineral horizon formed at or near the surface showing accumulation and incorporation of organic matter. Points are sized by the total number of merged read pairs µl −1 of PCR product added to the final pool from the corresponding sample. Stress = 0.245235.

    Article Snippet: The pairwise percentage identity of reference Pasteuria spp. sequences in the aligned region of the 16S rRNA gene ranged from a low of 84.7% ( P. ramosa vs P. usgae ) to a high of 99.3% ( P. penetrans to Pasteuria HcP) with an average of 95% identity between all reference sequences.

    Techniques:

    Environmental variables with a statistically significant relationship to Pasteuria spp. community ordination before or after Benjamini-Hochberg correction.

    Journal: Frontiers in Plant Science

    Article Title: Parallel Microbial Ecology of Pasteuria and Nematode Species in Scottish Soils

    doi: 10.3389/fpls.2019.01763

    Figure Lengend Snippet: Environmental variables with a statistically significant relationship to Pasteuria spp. community ordination before or after Benjamini-Hochberg correction.

    Article Snippet: The pairwise percentage identity of reference Pasteuria spp. sequences in the aligned region of the 16S rRNA gene ranged from a low of 84.7% ( P. ramosa vs P. usgae ) to a high of 99.3% ( P. penetrans to Pasteuria HcP) with an average of 95% identity between all reference sequences.

    Techniques:

    Spearman’s rank correlation of soil properties with statistically significant correlation to Pasteuria spp. community composition.

    Journal: Frontiers in Plant Science

    Article Title: Parallel Microbial Ecology of Pasteuria and Nematode Species in Scottish Soils

    doi: 10.3389/fpls.2019.01763

    Figure Lengend Snippet: Spearman’s rank correlation of soil properties with statistically significant correlation to Pasteuria spp. community composition.

    Article Snippet: The pairwise percentage identity of reference Pasteuria spp. sequences in the aligned region of the 16S rRNA gene ranged from a low of 84.7% ( P. ramosa vs P. usgae ) to a high of 99.3% ( P. penetrans to Pasteuria HcP) with an average of 95% identity between all reference sequences.

    Techniques:

    The top three most abundant Pasteuria spp. ZOTUs in the ESFN dataset and respective metazoan ZOTU Spearman’s rank correlations which were statistically significant after Benjamini-Hochberg correction.

    Journal: Frontiers in Plant Science

    Article Title: Parallel Microbial Ecology of Pasteuria and Nematode Species in Scottish Soils

    doi: 10.3389/fpls.2019.01763

    Figure Lengend Snippet: The top three most abundant Pasteuria spp. ZOTUs in the ESFN dataset and respective metazoan ZOTU Spearman’s rank correlations which were statistically significant after Benjamini-Hochberg correction.

    Article Snippet: The pairwise percentage identity of reference Pasteuria spp. sequences in the aligned region of the 16S rRNA gene ranged from a low of 84.7% ( P. ramosa vs P. usgae ) to a high of 99.3% ( P. penetrans to Pasteuria HcP) with an average of 95% identity between all reference sequences.

    Techniques:

    (A) 400x magnification Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by red arrow). (B) 1000x magnification of Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by red arrow). (C) 1000x magnification of free living non-parasitic nematode recovered from ESFN soil with several Pasteuria spp. endospores attached (positions indicated by red arrows). (D) 1000x magnification of fluorescence image of Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by blue arrow), showing anti- Pasteuria penetrans antibody recognition.

    Journal: Frontiers in Plant Science

    Article Title: Parallel Microbial Ecology of Pasteuria and Nematode Species in Scottish Soils

    doi: 10.3389/fpls.2019.01763

    Figure Lengend Snippet: (A) 400x magnification Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by red arrow). (B) 1000x magnification of Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by red arrow). (C) 1000x magnification of free living non-parasitic nematode recovered from ESFN soil with several Pasteuria spp. endospores attached (positions indicated by red arrows). (D) 1000x magnification of fluorescence image of Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by blue arrow), showing anti- Pasteuria penetrans antibody recognition.

    Article Snippet: The pairwise percentage identity of reference Pasteuria spp. sequences in the aligned region of the 16S rRNA gene ranged from a low of 84.7% ( P. ramosa vs P. usgae ) to a high of 99.3% ( P. penetrans to Pasteuria HcP) with an average of 95% identity between all reference sequences.

    Techniques: Fluorescence

    Maximum likelihood phylogeny and pairwise sequence identity heatmap of Pasteuria spp. taxonomic reference sequences used in primer design and Pasteuria spp. ZOTU taxonomic assignment.

    Journal: Frontiers in Plant Science

    Article Title: Parallel Microbial Ecology of Pasteuria and Nematode Species in Scottish Soils

    doi: 10.3389/fpls.2019.01763

    Figure Lengend Snippet: Maximum likelihood phylogeny and pairwise sequence identity heatmap of Pasteuria spp. taxonomic reference sequences used in primer design and Pasteuria spp. ZOTU taxonomic assignment.

    Article Snippet: Of these ZOTUs 75 (50.7%) were at least 90% similar to curated Pasteuria spp. reference sequences and only one sequence returned a best hit as low as 92% similarity.

    Techniques: Sequencing

    Map of distribution of the most abundant Pasteuria spp. ZOTUs across both NSIS2 (circles) and ESFN (triangles) datasets. Plot points are colored by ZOTU and sized as a function of the total number of merged read pairs recovered for that ZOTU µl −1 of product added to the final pool from the corresponding sample.

    Journal: Frontiers in Plant Science

    Article Title: Parallel Microbial Ecology of Pasteuria and Nematode Species in Scottish Soils

    doi: 10.3389/fpls.2019.01763

    Figure Lengend Snippet: Map of distribution of the most abundant Pasteuria spp. ZOTUs across both NSIS2 (circles) and ESFN (triangles) datasets. Plot points are colored by ZOTU and sized as a function of the total number of merged read pairs recovered for that ZOTU µl −1 of product added to the final pool from the corresponding sample.

    Article Snippet: Of these ZOTUs 75 (50.7%) were at least 90% similar to curated Pasteuria spp. reference sequences and only one sequence returned a best hit as low as 92% similarity.

    Techniques:

    NDMS ordination plot of NSIS2 Pasteuria spp. community composition. Points are colored by soil horizon where L = litter; H = humus; O = peaty material formed under wet, anaerobic conditions; and A = mineral horizon formed at or near the surface showing accumulation and incorporation of organic matter. Points are sized by the total number of merged read pairs µl −1 of PCR product added to the final pool from the corresponding sample. Stress = 0.245235.

    Journal: Frontiers in Plant Science

    Article Title: Parallel Microbial Ecology of Pasteuria and Nematode Species in Scottish Soils

    doi: 10.3389/fpls.2019.01763

    Figure Lengend Snippet: NDMS ordination plot of NSIS2 Pasteuria spp. community composition. Points are colored by soil horizon where L = litter; H = humus; O = peaty material formed under wet, anaerobic conditions; and A = mineral horizon formed at or near the surface showing accumulation and incorporation of organic matter. Points are sized by the total number of merged read pairs µl −1 of PCR product added to the final pool from the corresponding sample. Stress = 0.245235.

    Article Snippet: Of these ZOTUs 75 (50.7%) were at least 90% similar to curated Pasteuria spp. reference sequences and only one sequence returned a best hit as low as 92% similarity.

    Techniques:

    Environmental variables with a statistically significant relationship to Pasteuria spp. community ordination before or after Benjamini-Hochberg correction.

    Journal: Frontiers in Plant Science

    Article Title: Parallel Microbial Ecology of Pasteuria and Nematode Species in Scottish Soils

    doi: 10.3389/fpls.2019.01763

    Figure Lengend Snippet: Environmental variables with a statistically significant relationship to Pasteuria spp. community ordination before or after Benjamini-Hochberg correction.

    Article Snippet: Of these ZOTUs 75 (50.7%) were at least 90% similar to curated Pasteuria spp. reference sequences and only one sequence returned a best hit as low as 92% similarity.

    Techniques:

    Spearman’s rank correlation of soil properties with statistically significant correlation to Pasteuria spp. community composition.

    Journal: Frontiers in Plant Science

    Article Title: Parallel Microbial Ecology of Pasteuria and Nematode Species in Scottish Soils

    doi: 10.3389/fpls.2019.01763

    Figure Lengend Snippet: Spearman’s rank correlation of soil properties with statistically significant correlation to Pasteuria spp. community composition.

    Article Snippet: Of these ZOTUs 75 (50.7%) were at least 90% similar to curated Pasteuria spp. reference sequences and only one sequence returned a best hit as low as 92% similarity.

    Techniques:

    The top three most abundant Pasteuria spp. ZOTUs in the ESFN dataset and respective metazoan ZOTU Spearman’s rank correlations which were statistically significant after Benjamini-Hochberg correction.

    Journal: Frontiers in Plant Science

    Article Title: Parallel Microbial Ecology of Pasteuria and Nematode Species in Scottish Soils

    doi: 10.3389/fpls.2019.01763

    Figure Lengend Snippet: The top three most abundant Pasteuria spp. ZOTUs in the ESFN dataset and respective metazoan ZOTU Spearman’s rank correlations which were statistically significant after Benjamini-Hochberg correction.

    Article Snippet: Of these ZOTUs 75 (50.7%) were at least 90% similar to curated Pasteuria spp. reference sequences and only one sequence returned a best hit as low as 92% similarity.

    Techniques:

    (A) 400x magnification Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by red arrow). (B) 1000x magnification of Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by red arrow). (C) 1000x magnification of free living non-parasitic nematode recovered from ESFN soil with several Pasteuria spp. endospores attached (positions indicated by red arrows). (D) 1000x magnification of fluorescence image of Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by blue arrow), showing anti- Pasteuria penetrans antibody recognition.

    Journal: Frontiers in Plant Science

    Article Title: Parallel Microbial Ecology of Pasteuria and Nematode Species in Scottish Soils

    doi: 10.3389/fpls.2019.01763

    Figure Lengend Snippet: (A) 400x magnification Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by red arrow). (B) 1000x magnification of Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by red arrow). (C) 1000x magnification of free living non-parasitic nematode recovered from ESFN soil with several Pasteuria spp. endospores attached (positions indicated by red arrows). (D) 1000x magnification of fluorescence image of Pratylenchus spp. recovered from ESFN soil with Pasteuria spp. endospore attached (position indicated by blue arrow), showing anti- Pasteuria penetrans antibody recognition.

    Article Snippet: Of these ZOTUs 75 (50.7%) were at least 90% similar to curated Pasteuria spp. reference sequences and only one sequence returned a best hit as low as 92% similarity.

    Techniques: Fluorescence