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. 2021 Jan 6;288(1942):20201804. doi: 10.1098/rspb.2020.1804

Table 2.

Symbiosis genes tend to be present in more genomes, have higher copy number, higher rates of horizontal transfer than other genes and less phylogenetic signal in gene presence/absence (lower δ) than non-symbiosis genes. Median values are shown. Duplication and transfer are estimates from GeneRax for genes with at least four genomes represented and at least six total copies. δ and Ka : Ks calculated only for genes with at least three sequences (numbers of gene in parentheses; results including all genes were similar—see electronic supplementary material, table S4). The Welch p-value is from a t-test comparing nodulation to fixation genes. The lower part of the table shows the probability that values are greater than a random sample of genes found in the same number of genomes and having approximately the same number of copies as the symbiosis genes.

strains copies/genome duplication transfer median pairwise Ka : Ks R2 δ
non-symbiosis 2 1 10−7 0.08 0.22 (n = 11 152) 0.76 3.3 (n = 9737)
nodulation 6 1 10−7 0.24 0.20 (n = 48) 0.23 1.6 (n = 35)
fixation 22 1 10−7 0.14 0.20 (n = 47) 0.54 2.2 (n = 23)
p-value Welch <0.001 0.55 0.17 <0.001 0.9 0.007 0.56
benefit 19 1.08 0.002 0.20 0.15 (n = 7) 0.29 1.1 (n = 3)
fitness 17 1.13 10−7 0.18 0.23 (n = 19) 0.19 1.9 (n = 12)
probability of the estimated values being less than random samples of genes (%)
 nodulation 0.2 0 99.7 99.7 99.9
 fixation 0 0 99.2 88.6 99.2
 benefit 6.7 0.6 99.6 96.5 95.9
 fitness 0.8 4.1 73.4 85.5 94.5