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Table 1 Assembly statistics from draft genomes binned from CLig metagenome (20 best results)

From: Lignolytic-consortium omics analyses reveal novel genomes and pathways involved in lignin modification and valorization

Bin Id Taxonomic affiliation Completeness (%) Contamination (%) Heterogeneity (%) Total length (bp) # contigs # Predicted genes GC (%)
3 Sphingomonadaceae 97.9 2.1 0 2,600,224 14 2487 63.8
4 Alcaligenaceae 96.6 3.2 8.3 4,071,016 139 3831 63.9
6 Microbacteriaceae 93.0 2.3 25.0 2,775,244 23 2744 70.2
7 Mycobacterium sp. 98.6 4.7 7.4 8,113,983 152 7824 67.0
14 Agrobacterium sp. 97.0 1.9 0 3,723,529 25 3637 62.4
17 Rhodococcus sp. 96.4 1.4 12.5 5,940,093 80 5417 67.9
19 Rhodobacter sp. 97.5 3.5 0 4,829,944 102 4636 66.4
20 Comamonadaceae 76.1 1.8 0 5,317,169 797 5668 69.5
24 Sphingobacterium sp. 92.2 2.2 0 5,342,826 905 5155 40.9
28 Ochrobactrum sp. 99.1 10.5 0 8,098,959 173 7885 56.5
30 Bacillus sp. 92.6 3.7 0 4,962,376 118 4977 35.4
35 Acetobacteraceae 96.7 2.0 0 5,217,664 48 5050 70.2
37 Sphingobium sp. 98.1 9.3 5.7 6,313,527 428 6265 59.7
47 Pseudoxanthomonas sp. 97.3 1.5 0 3,192,941 22 2886 71.6
48 Paenarthrobacter sp. 97.0 4.1 0 4,259,515 57 3930 68.2
55 Paenarthrobacter sp. 97.3 1.6 0 4,537,449 80 4185 63.5
56 Acetobacteraceae 92.7 1.7 25.0 5,069,773 252 4671 70.4
60 Hyphomicrobium sp. 97.9 0.9 0 3,563,628 12 3278 64.7
64 Methylobacterium sp. 94.8 1.6 25.0 3,854,043 176 3682 70.1
65 Rhodococcus 96.8 1.8 0 5,770,250 74 5292 70.8