We performed a taxonomic and comparative genomics analysis of 67 novel
Paraburkholderia isolates from forest soil. Phylogenetic analysis of the recA gene revealed …

Syringyl monomeric units are the most common intermediates encountered during
hardwood lignin degradation. In the present study, efficient utilization of syringaldehyde …

Biotic-abiotic hybrid systems have recently emerged as a potential technique for stable and
efficient removal of persistent contaminants due to coupling of microbial catabolic with …

Studying plant–microbe–soil interactions is challenging due to their high complexity and
variability in natural ecosystems. While fabricated ecosystems provide opportunities to …

The Burkholderia genus possesses ecological and metabolic diversities. A large number of
silent biosynthetic gene clusters (BGCs) in the Burkholderia genome remain …

Hand‐dug oil wells, located in natural crude oil seep sites, are remnants of historical
exploitation activities. Hydrocarbon pollution is regarded as the threat to soil ecosystem. On …

Great challenge of the ultra-heavy oil recovery via cold approaches is attracting the
increasing worldwide efforts. Here, we reported a microbial strategy with using the …

Microorganisms have great potential for bioremediation as they have powerful enzymes and
machineries that can transform xenobiotics. The use of a microbial consortium provides …

Three forest and four botanical garden top soil isolates with unique MALDI-TOF mass
spectra were identified as Paraburkholderia strains closely related to Paraburkholderia …

In forest ecosystems, fungi are the key actors in wood decay. They have the capability to
degrade lignified substrates and the woody biomass of coniferous forests, with brown rot …