Lignocellulose‐derived hydrolyzates typically display a high degree of variation depending
on applied biomass source material as well as process conditions. Consequently, this …

Lignocellulosic biomass is the most abundant bioresource on earth containing polymers
mainly consisting of d‐glucose, d‐xylose, l‐arabinose, and further sugars. In order to …

Given its capacity to tolerate stress, NAD (P) H/NAD (P) balance, and increased ATP levels,
the platform strain Pseudomonas putida EM42, a genome-edited derivative of the soil …

Background Lignocellulosic biomass is an attractive and sustainable alternative to
petroleum-based feedstock for the production of a range of biochemicals, and pretreatment …

The solvent-tolerant bacterium Pseudomonas putida S12 was engineered to utilize xylose
as a substrate by expressing xylose isomerase (XylA) and xylulokinase (XylB) from …

Background Integrated management of hemicellulosic fraction and its economical
transformation to value-added products is the key driver towards sustainable lignocellulosic …

Sugarcane bagasse is an agricultural residue rich in xylose, which may be used as a
feedstock for the production of high-value-added chemicals, such as xylonic acid, an organic …

The rising price of oil and impending deficit of fossil resources stimulate the development of
alternative processes for the production of chemicals. The production of chemicals from …

Dwindling petroleum reservoirs and an exponential increase in chemical commodities
demands have ushered the need for the development of a sustainable process. To mitigate …

Valorization of all major lignocellulose components, including lignin, cellulose, and
hemicellulose is critical for an economically viable bioeconomy. In most biochemical …