LAUSR

Bioconversion is being regarded as a promising way for lignin valorization because it enables funneling diverse lignin components into single compounds, overcoming the heterogeneity of lignin. Although numerous lignin‐derived aromatic monomers have been funneled to target compounds in previous studies, the bioconversion of low‐molecular‐weight lignin (LMW‐lignin) fragments, for example, lignin‐derived dimers, has been rarely systematically studied, impeding further conversion of lignin. In this study, coculture systems were designed and developed to funnel multiple lignin‐derived dimers to cis, cis‐muconate and gallate by combining lignin‐derived dimers cleavage bacterium Sphingobium sp. and monomers conversion bacterium Rhodococcus opacus. With the developed coculture systems, β‐O‐4 type dimer guaiacylglycerol‐β‐guaiacyl ether, 4‐O‐5 type dimer 4,4′‐dihydroxydiphenyl ether, β‐5 type dimer balanophonin, β‐β type dimer pinoresinol, β‐1 type dimer 1,2‐bis(4‐hydroxy‐3‐methoxyphehyl)‐1,3‐propanediol and 5‐5 type dimer 5,5′‐dehydrodivanillate were converted to cis, cis‐muconate. Additionally, the developed coculture systems also showed potential in conversion of lignin‐derived dimers to gallate. The application of alkali lignin for cis, cis‐muconate production further demonstrated the effectiveness of the designed coculture systems. Overall, the developed coculture systems are beneficial to lignin biological valorization, and also provide references for the valorization of other bio‐resources.