raincloud plots Search Results


raincloud plots  (RStudio)
90
RStudio raincloud plots
<t>Raincloud</t> plots show higher levels, and wider variance, in each RQA metric in Coordinated compared to Uncoordinated Categories. Boxplots show sample median and interquartile range. Note: 9 s of audience applause during the Introduction Performance Event were not analyzed, and are subsequently excluded from all data visualizations.
Raincloud Plots, supplied by RStudio, 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/raincloud plots/product/RStudio
Average 90 stars, based on 1 article reviews
raincloud plots - by Bioz Stars, 2026-03
90/100 stars
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raincloud plots  (Allen Press Inc)
90
Allen Press Inc raincloud plots
<t>Raincloud</t> plots show higher levels, and wider variance, in each RQA metric in Coordinated compared to Uncoordinated Categories. Boxplots show sample median and interquartile range. Note: 9 s of audience applause during the Introduction Performance Event were not analyzed, and are subsequently excluded from all data visualizations.
Raincloud Plots, supplied by Allen Press Inc, 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/raincloud plots/product/Allen Press Inc
Average 90 stars, based on 1 article reviews
raincloud plots - by Bioz Stars, 2026-03
90/100 stars
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raincloud and bee-swarm plots  (Plotly Technologies Inc)
90
Plotly Technologies Inc raincloud and bee-swarm plots
Distribution of immune systems in different phyla and in correlation to genome size. ( A ) Percentage of SR-GTDB genomes that encodes a specific immune system family, subdivided for the prokaryotic phyla. Only immune system families identified in ≥ 150 genomes are shown; genomes from phyla with < 30 accessions in the SR-GTDB are grouped as ‘other bacteria’ or ‘other archaea’. ( B ) Distribution of the total number of immune systems encoded in prokaryotes in the SR-GTDB for different phyla, represented by <t>raincloud</t> plots (visualizing individual data points as well as the probability density of the data) and a boxplot. The median is indicated in the boxplot, while the average (Av) is shown on the right. ( C ) Distribution of genome sizes for prokaryotes in the SR-GTDB for different phyla, represented by a raincloud plot and a boxplot, with averages indicated. ( D ) Correlation between (i) number of immune systems encoded and (ii) genome size for both bacteria (blue) and archaea (orange) represented in the SR-GTDB. Pearson correlation coefficients ( r ) and P -values are indicated. ( E ) Percentage of genomes encoding specific immune system families for different genome size categories. Only immune system families identified in ≥ 150 genomes are shown.
Raincloud And Bee Swarm Plots, supplied by Plotly Technologies Inc, 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/raincloud and bee-swarm plots/product/Plotly Technologies Inc
Average 90 stars, based on 1 article reviews
raincloud and bee-swarm plots - by Bioz Stars, 2026-03
90/100 stars
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raincloud plots  (PeerJ Inc)
90
PeerJ Inc raincloud plots
Distribution of immune systems in different phyla and in correlation to genome size. ( A ) Percentage of SR-GTDB genomes that encodes a specific immune system family, subdivided for the prokaryotic phyla. Only immune system families identified in ≥ 150 genomes are shown; genomes from phyla with < 30 accessions in the SR-GTDB are grouped as ‘other bacteria’ or ‘other archaea’. ( B ) Distribution of the total number of immune systems encoded in prokaryotes in the SR-GTDB for different phyla, represented by <t>raincloud</t> plots (visualizing individual data points as well as the probability density of the data) and a boxplot. The median is indicated in the boxplot, while the average (Av) is shown on the right. ( C ) Distribution of genome sizes for prokaryotes in the SR-GTDB for different phyla, represented by a raincloud plot and a boxplot, with averages indicated. ( D ) Correlation between (i) number of immune systems encoded and (ii) genome size for both bacteria (blue) and archaea (orange) represented in the SR-GTDB. Pearson correlation coefficients ( r ) and P -values are indicated. ( E ) Percentage of genomes encoding specific immune system families for different genome size categories. Only immune system families identified in ≥ 150 genomes are shown.
Raincloud Plots, supplied by PeerJ Inc, 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/raincloud plots/product/PeerJ Inc
Average 90 stars, based on 1 article reviews
raincloud plots - by Bioz Stars, 2026-03
90/100 stars
  Buy from Supplier

Image Search Results


Raincloud plots show higher levels, and wider variance, in each RQA metric in Coordinated compared to Uncoordinated Categories. Boxplots show sample median and interquartile range. Note: 9 s of audience applause during the Introduction Performance Event were not analyzed, and are subsequently excluded from all data visualizations.

Journal: Scientific Reports

Article Title: Coordination dynamics of multi-agent interaction in a musical ensemble

doi: 10.1038/s41598-021-04463-6

Figure Lengend Snippet: Raincloud plots show higher levels, and wider variance, in each RQA metric in Coordinated compared to Uncoordinated Categories. Boxplots show sample median and interquartile range. Note: 9 s of audience applause during the Introduction Performance Event were not analyzed, and are subsequently excluded from all data visualizations.

Article Snippet: Raincloud plots and serial time series plots to visualize distributions and trajectories of the RQA measures were created in RStudio 1.1.463 using ggplot2 .

Techniques:

Distribution of immune systems in different phyla and in correlation to genome size. ( A ) Percentage of SR-GTDB genomes that encodes a specific immune system family, subdivided for the prokaryotic phyla. Only immune system families identified in ≥ 150 genomes are shown; genomes from phyla with < 30 accessions in the SR-GTDB are grouped as ‘other bacteria’ or ‘other archaea’. ( B ) Distribution of the total number of immune systems encoded in prokaryotes in the SR-GTDB for different phyla, represented by raincloud plots (visualizing individual data points as well as the probability density of the data) and a boxplot. The median is indicated in the boxplot, while the average (Av) is shown on the right. ( C ) Distribution of genome sizes for prokaryotes in the SR-GTDB for different phyla, represented by a raincloud plot and a boxplot, with averages indicated. ( D ) Correlation between (i) number of immune systems encoded and (ii) genome size for both bacteria (blue) and archaea (orange) represented in the SR-GTDB. Pearson correlation coefficients ( r ) and P -values are indicated. ( E ) Percentage of genomes encoding specific immune system families for different genome size categories. Only immune system families identified in ≥ 150 genomes are shown.

Journal: NAR Genomics and Bioinformatics

Article Title: Distribution of specific prokaryotic immune systems correlates with host optimal growth temperature

doi: 10.1093/nargab/lqae105

Figure Lengend Snippet: Distribution of immune systems in different phyla and in correlation to genome size. ( A ) Percentage of SR-GTDB genomes that encodes a specific immune system family, subdivided for the prokaryotic phyla. Only immune system families identified in ≥ 150 genomes are shown; genomes from phyla with < 30 accessions in the SR-GTDB are grouped as ‘other bacteria’ or ‘other archaea’. ( B ) Distribution of the total number of immune systems encoded in prokaryotes in the SR-GTDB for different phyla, represented by raincloud plots (visualizing individual data points as well as the probability density of the data) and a boxplot. The median is indicated in the boxplot, while the average (Av) is shown on the right. ( C ) Distribution of genome sizes for prokaryotes in the SR-GTDB for different phyla, represented by a raincloud plot and a boxplot, with averages indicated. ( D ) Correlation between (i) number of immune systems encoded and (ii) genome size for both bacteria (blue) and archaea (orange) represented in the SR-GTDB. Pearson correlation coefficients ( r ) and P -values are indicated. ( E ) Percentage of genomes encoding specific immune system families for different genome size categories. Only immune system families identified in ≥ 150 genomes are shown.

Article Snippet: Bar graphs, scatter plots, pie charts and heat maps were made using Microsoft Excel and Adobe Illustrator, with the exception of the Sankey diagram [made using SankeyMATIC ( https://sankeymatic.com/ )], raincloud and bee-swarm plots (made using python package Plotly version 5.14.0) and the Venn diagram (made using the function venn2 of the python package matplotlib-venn version 0.11.7).

Techniques: Bacteria

Distribution of immune systems in different T opt categories. ( A ) Definition of T opt categories and their bacterial and archaeal coverage in the SR-GTDB. ( B ) Distribution of genomes in the SR-GTDB for different T opt categories and phyla, with averages indicated. Genomes from phyla with < 30 accessions are grouped as ‘other bacteria’ and ‘other archaea’. ( C ) Distribution of the total number of immune systems in bacteria in the SR-GTDB per T opt category, represented by a raincloud plot (visualizing both individual data points and the probability density of the data) and a boxplot. The median is indicated in the boxplot, while the average (Av) is shown on the right. ( D ) Distribution of bacterial genome sizes for different T opt categories, represented by raincloud plots (visualizing both individual data points and the probability density of the data) and a boxplot. The median is indicated in the boxplot, while the average (Av) is shown on the right. ( E ) Percentage of bacterial genomes encoding specific immune system families (when found in ≥ 150 genomes) for different T opt categories. *, ** and *** indicate P -values < 1.43 × 10 −3 , 1.43 × 10 −4 and 1.43 × 10 −5 . P -values are determined by a χ 2 test of independence; cut-off values are determined by a Bonferroni test of α = 0.05 / number of comparisons. ( F ) Proportional distribution of different immune system categories for different T opt categories in bacteria. ( G ) Percentage of bacterial genomes with specific RM, CRISPR-Cas and pAgo subtypes identified (when found in ≥ 150 genomes) for different T opt categories. For RM, *, ** and *** indicate P -values 1.43 × 10 −3 , 1.43 × 10 −4 and 1.43 × 10 −5 . For CRISPR-Cas, *, ** and *** indicate P -values < 3.85 × 10 −3 , 3.85 × 10 −4 and 3.85 ×10 −5 . For pAgos, *, ** and *** indicate P -values < 1 × 10 −2 , 1 × 10 −3 and 1 × 10 −4 . P -values are determined by a χ 2 test of independence; cut-off values are determined by a Bonferroni test of α = 0.05 / number of comparisons.

Journal: NAR Genomics and Bioinformatics

Article Title: Distribution of specific prokaryotic immune systems correlates with host optimal growth temperature

doi: 10.1093/nargab/lqae105

Figure Lengend Snippet: Distribution of immune systems in different T opt categories. ( A ) Definition of T opt categories and their bacterial and archaeal coverage in the SR-GTDB. ( B ) Distribution of genomes in the SR-GTDB for different T opt categories and phyla, with averages indicated. Genomes from phyla with < 30 accessions are grouped as ‘other bacteria’ and ‘other archaea’. ( C ) Distribution of the total number of immune systems in bacteria in the SR-GTDB per T opt category, represented by a raincloud plot (visualizing both individual data points and the probability density of the data) and a boxplot. The median is indicated in the boxplot, while the average (Av) is shown on the right. ( D ) Distribution of bacterial genome sizes for different T opt categories, represented by raincloud plots (visualizing both individual data points and the probability density of the data) and a boxplot. The median is indicated in the boxplot, while the average (Av) is shown on the right. ( E ) Percentage of bacterial genomes encoding specific immune system families (when found in ≥ 150 genomes) for different T opt categories. *, ** and *** indicate P -values < 1.43 × 10 −3 , 1.43 × 10 −4 and 1.43 × 10 −5 . P -values are determined by a χ 2 test of independence; cut-off values are determined by a Bonferroni test of α = 0.05 / number of comparisons. ( F ) Proportional distribution of different immune system categories for different T opt categories in bacteria. ( G ) Percentage of bacterial genomes with specific RM, CRISPR-Cas and pAgo subtypes identified (when found in ≥ 150 genomes) for different T opt categories. For RM, *, ** and *** indicate P -values 1.43 × 10 −3 , 1.43 × 10 −4 and 1.43 × 10 −5 . For CRISPR-Cas, *, ** and *** indicate P -values < 3.85 × 10 −3 , 3.85 × 10 −4 and 3.85 ×10 −5 . For pAgos, *, ** and *** indicate P -values < 1 × 10 −2 , 1 × 10 −3 and 1 × 10 −4 . P -values are determined by a χ 2 test of independence; cut-off values are determined by a Bonferroni test of α = 0.05 / number of comparisons.

Article Snippet: Bar graphs, scatter plots, pie charts and heat maps were made using Microsoft Excel and Adobe Illustrator, with the exception of the Sankey diagram [made using SankeyMATIC ( https://sankeymatic.com/ )], raincloud and bee-swarm plots (made using python package Plotly version 5.14.0) and the Venn diagram (made using the function venn2 of the python package matplotlib-venn version 0.11.7).

Techniques: Bacteria, CRISPR