Growth of Coniochaeta Species on Acetate in Biomass Sugars

Degradation products from sugars and lignin are commonly generated as byproducts during pretreatment of biomass being processed for production of renewable fuels and chemicals. Many of the degradation products act as microbial inhibitors, including furanic and phenolic compounds and acetate, which is solubilized from hemicellulose. We previously identified a group of fungi, Coniochaeta species, that are intrinsically tolerant to and capable of mineralizing furans present in biomass hydrolysates. Here, we challenged 20 C. ligniaria and phylogenetically related isolates with acetate to test if the robustness phenotype extended to this important inhibitor as well, and all strains grew at concentrations up to 2.5% (w/v) sodium acetate. At the highest concentrations tested (5.0–7.5% w/v), some variation in growth on solid medium containing glucose plus acetate was apparent among the strains. The hardiness of four promising strains was further evaluated by challenging them (0.5% w/v sodium acetate) in mineral medium containing 10 or 15 mM furfural. The strains grew and consumed all of the acetate and furfural. At a higher (2.5% w/v) concentration, consumption of acetate varied among the strains: only one consumed any acetate in the presence of furfural, but all four strains consumed acetate provided that a small amount (0.2% w/v) of glucose was added. Finally, the four strains were evaluated for biological abatement of rice hull hydrolysates having elevated acetate content. The hardiest strains were also able to consume furfural and 5-hydroxymethylfurfural (HMF) within 24 h, followed by acetate within 40 h when grown in dilute acid pretreated rice hulls containing 0.55% acetate, 15 mM furfural, and 1.7 mM HMF. As such, these strains are expected to be helpful for abating non-desirable compounds from unrefined hydrolysates so as to enable their conversion to bioproducts.