<p>The chromosome number for Gram-positive bacteria, Gram-negative bacteria, Crenarchaeota, and Ascomycota is 184, 246, 42, and 61, respectively. The chromosome or large scaffold number for dicot plants, monocot plants, non-mammalian animals, and mammalian animals is 74, 41, 120, and 445, respectively. Note that C+G content and chromosome or genome size in both Gram-positive and Gram-negative bacteria are positively correlated but there is linear relationship in other subkingdoms. Note that in Crenarchaeota (archaea) there are two groups in the distribution. The lower right corner group is Sulfolobus species. There is no correlation between C+G content and genome size within each of the two distribution group of Crenarchaeota.</p
<p>This is a plot of the raw data pulled down from the JGI websites on bacterial and archaeal genome...
<p>Average genome size and average genomic C+G content in different kingdoms and subkingdoms.</p
<p>Distribution of GC Content by Domain − Bacterial and Archaeal Genomes from JGI</p> <p>This is a p...
<p>The chromosome number for bacteria, archaea, fungi, protists, plants, and animals is 430, 61, 139...
C+G content (GC content or G+C content) is known to be correlated with genome/chromosome size in bac...
<div><p>C+G content (GC content or G+C content) is known to be correlated with genome/chromosome siz...
a<p>From archaeans to protists: by phylum or large group; from plants to animals: by species.</p>b<p...
Based on complete bacterial genome sequence data, we demonstrate a correlation between bacterial chr...
a<p>The smaller chromosome/scaffold size in primate animals relative to non-primate mammalian animal...
It is known that chromosome number tends to decrease as genome size increases in angiosperm plants. ...
It is known that chromosome number tends to decrease as genome size increases in angiosperm plants. ...
It is known that chromosome number tends to decrease as genome size increases in angiosperm plants. ...
Our view of genome size in Archaea and Bacteria has remained skewed as the data has been dominated b...
Our view of genome size in Archaea and Bacteria has remained skewed as the data has been dominated b...
<p>Panel (<b>a</b>) shows dicot plants, namely (in order from left to right) <i>Arabidopsis thaliana...
<p>This is a plot of the raw data pulled down from the JGI websites on bacterial and archaeal genome...
<p>Average genome size and average genomic C+G content in different kingdoms and subkingdoms.</p
<p>Distribution of GC Content by Domain − Bacterial and Archaeal Genomes from JGI</p> <p>This is a p...
<p>The chromosome number for bacteria, archaea, fungi, protists, plants, and animals is 430, 61, 139...
C+G content (GC content or G+C content) is known to be correlated with genome/chromosome size in bac...
<div><p>C+G content (GC content or G+C content) is known to be correlated with genome/chromosome siz...
a<p>From archaeans to protists: by phylum or large group; from plants to animals: by species.</p>b<p...
Based on complete bacterial genome sequence data, we demonstrate a correlation between bacterial chr...
a<p>The smaller chromosome/scaffold size in primate animals relative to non-primate mammalian animal...
It is known that chromosome number tends to decrease as genome size increases in angiosperm plants. ...
It is known that chromosome number tends to decrease as genome size increases in angiosperm plants. ...
It is known that chromosome number tends to decrease as genome size increases in angiosperm plants. ...
Our view of genome size in Archaea and Bacteria has remained skewed as the data has been dominated b...
Our view of genome size in Archaea and Bacteria has remained skewed as the data has been dominated b...
<p>Panel (<b>a</b>) shows dicot plants, namely (in order from left to right) <i>Arabidopsis thaliana...
<p>This is a plot of the raw data pulled down from the JGI websites on bacterial and archaeal genome...
<p>Average genome size and average genomic C+G content in different kingdoms and subkingdoms.</p
<p>Distribution of GC Content by Domain − Bacterial and Archaeal Genomes from JGI</p> <p>This is a p...