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

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

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

ISSN: 2731-3654