Table 3 Overview of publications using different lignocellulosic waste fractions as feedstock for the microbial production of various products
From: Municipal green waste as substrate for the microbial production of platform chemicals
Substrate | Product | Organism | References |
|---|---|---|---|
Press juice from a mixture of Festulolium and perennial ryegrass | 1.01 galgal biomass L−1 with 41% protein content | Co-cultivation of microalgae Chlorella sorokiniana and Acutodesmus obliquus | Schoeters et el. 2023 |
Extracted juice from mixed grass clippings | 2 mgα-humulene L−1 | Cupriavidus necator | Langsdorf et al. 2022 |
Press juice of Lolium perenne | 22.5 gethanol L−1, 7.89 mgsqualene·gdry mass−1 | S. cerevisiae YUG37-ERG1 | Hull et al. 2014 |
Cashew apple juice | 38.6 gethanol L−1 0.47 gethanol gsugar−1 | S. cerevisiae | Pacheco et al. 2010 |
Simulated corn stover hydrolysate | 53.4 gethanol L−1 0.498 gethanol gtotal sugars−1 | Engineered S. cerevisiae strain | Wang et al. 2022 |
100% press juice from mixed grass cuttings without additional components | 9.4 gethanol L−1 0.61 ± 0.03 gethanol gsugar−1 | S. cerevisiae | This work |
Unsterile press juice of Miscanthus x giganteus (MxG) with the addition of saccharolytic enzymes | 11.91 glactic acid L−1, 0.29 gethanol L−1 ethanol 0.63 to 1.38 gacetuc acid L−1 | Heterolactic co-culture of Lactobacillus plantarum and Lactobacillus brevis | Boakye- Boaten et al. 2016 |
Press juice of grass-clover mixtures | 22 glactic acid L−1 | L. salivarius BC 1001 | Santamaria‐ Fernandez et al. 2019 |
Hydrothermally pretreated sugarcane bagasse | 52.4 glactic acid L−1 0.66 glactic acid gsugar−1 | B. coagulans under non-sterile conditions | Cox et al. 2023 |
Chemically and enzymatically pretreated P. australis reed stems | 28.3 glactic acid L−1 | B. coagulans | |
100% press juice from mixed grass cuttings without supplements | 16.93 glactic acid L−1 1.36 ± 0.04 glactic acid gsugar−1 | Lactobacillus delbrueckii subsp. lactis | This work |
Beech wood xylan | 0.08 gitaconate L−1 | U. maydis MB215Pomaxyn11A | Schroedter et al. 2016 |
Cellobiose | 5.2 gitaconate L−1 | U. maydis MB215omabgl1 | Geiser et al. 2016 |
Hydrolyzed hemicellulose fraction from beech wood | 0.36 gitaconic acid L−1 | U. maydis MB215 | Klement et al. 2012 |
Hydrolyzed hemicellulose fraction from beech wood with added glucose | 8.5 gitaconic acid L−1 | U. maydis MB215 | Klement et al. 2012 |
Brewer’s spent grain, hydrothermally pretreated and enzymatically hydrolyzed | 6 gitaconic acid L−1 0.38 gitaconic acid gsugar−1 | U. maydis MB215 ΔCyp3 PetefRia1 | Weiermüller et al. 2021 |
Mineral salt medium + 70% (v/v) press juice of mixed grass cuttings | 19.18 gitaconic acid L−1 0.51 gitaconic acid gglucose−1 | U. maydis MB215 ΔCyp3 PetefRia1 | This work |
Mineral salt medium with 40% (v/v) enzymatic hydrolysate of mixed wood chips after organosolv pretreatment | 17.2 gitaconic acid L−1 0.40gitaconic acid gglucose−1 | U. maydis MB215 ΔCyp3 PetefRia1 | This work |
Enzymatic hydrolysate of alkaline pretreated coffee silverskin | 3.2 gABE·L−1 0.1 gABE gsugar−1 | C. acetobutylicum | Niglio et al. 2019 |
Detoxified wood hydrolysate and alfalfa juice with buffering agents, vitamins and minerals | 0.17 gsolvents gtotal sugars−1 | C. acetobutylicum | Mechmech et al. 2016 |
Detoxified pine wood hydrolysates | 5.7 gbutanol L−1 | C. acetobutylicum | Maddox and Murray 1983 |
Mineral salt medium with 30% (v/v) enzymatic hydrolysate of mixed wood chips after organosolv pretreatment | 15.5 gABE L−1 0.31 ± 0.01 gABE gglucose−1 | C. acetobutylicum | This work |